Metric
Precision Tools Ltd.
®
The optimal tools for your industry
TM
2015
Company Prole
Carmex Precision Tools Ltd. is a leading manufacturer
of high quality cutting tools.
The company was founded in 1988 in Maalot,
located in the beautiful North West region of Israel.
Product Lines
Carmex specializes in the production of threading tools for turning and
milling. Our product lines include:
�
Thread Turning inserts and toolholders
�
Mill-Thread Solid Carbide
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Mill-Thread inserts and toolholders
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Spiral Mill-Thread
�
Slim MT
�
Grooving Tools
�
Tiny Tools
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Swiss Tools
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CMT Vertical Milling
�
Thread Whirling
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End mills
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Mini Chamfer
�
Taps
�
Diamond Tools
In addition we have a Dental division producing
Dental Drills
for the
Dental Implants Industry.
The company’s dierent product lines are recognized worldwide for
their advanced technology, reliable full range lines that oer accurate
geometry, excellent cutting performance and extended tool life.
Our products and service we provide live up to the highest standards and
outperform them. Carmex also produces special tools in accordance
with customer’s requirements.
Quality Assurance
Our unyielding strive for high quality, speedy service and reliability is
supported by the following International Standards Certicates:
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ISO 9001:2015
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ISO 14001:2015
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ISO 45001
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ISO 13485:2016
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CE
Stock & Service
Most of our customers’ requirements are supplied immediately from our
readily available wide range of inventory as well as from our branches,
agents and distributor’s stocks around the world.
Company Development
In August 2008 Carmex completed its transfer to the new, state-of-the-art
modern building. In April 2019 we occupied the second new building.
Both buildings includes signicant investments in advanced machinery
and equipment as part of our strategy to keep our position in the rst line
of high technology and to support our development plans.
Carmex Branches
In addition to its distributor’s chain, Carmex has four independent
sales branches. Each of them keeps Carmex’s wide range of stock and
employs talented, service oriented managers, engineers, technicians and
administrators willing to fulll the customers’ needs.
2003 - C.P.T. GmbH, located in Stuttgart Germany.
2004 - Carmex Precision Tools LLC, located in Wisconsin USA
serving North America and Mexico.
2008 - Carmex Italia Srl, located in Modena, Italy.
2018 - Carmex India, located in Pune, India.
Carmex is recognized as a high quality cutting tools manufacturer,
a service oriented company and as a very competitive supplier that pledge
for customer satisfaction.
2015
2016 2015
2016
:2015
0483
ISO 45001
ISO 45001
®
Carmex offers an online software for Thread Turning and Mill-Thread to assist
threading tools users to select and apply the correct tools to machine threads on
CNC machining centers.
Both programs will nd tools that are suitable for your application, calculate or adjust
cutting data depending on the machining capability, and generate CNC program for a
variety of controls.
The software is available on our website carmex.com
Click on "Tool Wizard".
Carmex Tool Wizard
1
®
In addition to standard products, Carmex has a worldwide reputation for the design
and manufacture of special tools according to customers' application.
Special tools are supplied in short delivery times.
Carmex is fully committed to sustainable production methods.
Our green central ltration and waste management system is a good example.
This not only maximizes resource use, but also enables us to dispose of our waste in an
environmentally responsible way.
Carmex is an ISO 14001: 2015 certied manufacturer for it's Environmental Management Systems.
Special Tools
Carmex and the Environment
2
Thread - Turning
Tiny Tools
Page: A02-7
A top clamp directing
the coolant ow to the
cutting edge
Oil & Gas
Threading Tools for the Oil & Gas industries
Large Prole Inserts
and Toolholders
x
-tream Jet
External Toolholders with
Internal Coolant
Page: A01-32 to 44
Modular Line
Turning adaptors and boring
bars for internal threading and
grooving applications
Page: A02-13 to 16
Page: A01-45 to 50
Page: A06-35 to 38
MIR
New inserts for MJ 60˚, UNJ 60˚
and Full Prole - G55˚ threads
CIM
Fast Fast clamping system
MFR
New inserts for Face Grooving
with chip former
New Inserts for most of the existing
applications & new Toolholders
New Inserts for most of the existing
applications
For internal machiningFor internal machining
Toolholders for Star
Swiss machines
Page: A06-39 to 41
CBR
Boring and proling with
advanced chip breaker
Page: A06-5 Page: A06-34
Page: A06-26
Square Shank Toolholders
Page: A06-12 to 18
®
New Products for this Catalog
3
New line of polygon inserts and toolholders
New 25 and 40 mm sized polygon inserts
New GX7 advanced grade - high toughness for optimized performance
New line of 16 mm sized 3 cutting edges inserts and toolholders
G6 - New line of 6 cutting edges inserts and toolholders
for grooving, parting, turning and threading
Expanded range of Carbide Shank Turning Toolholders
Page: A09-1 to 5
Page: A08-1 to 40
Mini Tools
Swiss Line
Carbide Shank Turning Toolholders and Inserts
Threading - Acme & Trapez DIN 103
Boring, Proling and Facing
Grooving, Circlip Ring Grooves DIN 471/472
Boring and Proling
Page: A07-1 to 14
New Inserts
New Inserts for most of the existing
applications & new Toolholders
New Products for this Catalog
®
4
New Inserts
NPSM
API RD
New Inserts
Threading - Round DIN 405
Dovetail 45˚
Groove Milling DIN 471/472
Groove Milling Multi - Flute DIN 471/472
Full Radius Groove Milling
Front and back corner rounding
Front and back corner rounding - Multi Flute
Page: B01-8 and 10
Page: B07-1 to 30
High productivity, Slim cost
A new product line of indexable Mill-Thread inserts and toolholders including
multiple straight utes for machining long threads from small to large diameters
Page: B03-1 to 10
New inserts for most of the existing proles
New Shell Mill Cutter
New inserts for existing proles
Mill - Thread Inserts and Toolholders
Slim MT
CMT - Vertical Milling
FMT
Fast MT with internal coolant bore
MTB
New Thread-Mills for Whitworth, MJ and UNJ proles
AMT
Solid Carbide Thread-Mills for high-speed Aluminum machining
EMT - External Thread Mills
New Thread-Mills for MJ and UNJ proles for Aerospace
Section: B08
Section: B08
Section: B08
Page: B08-28
Mill - Thread Solid Carbide
®
New Products for this Catalog
5
Multi - Function Thread Mills 3 in 1 Operations
MT Drill - MTD
Designed to drill, chamfer and thread mill the hole in one operation
Page: B10-5
DMT
Thread-Mills for G (BSP) and NPT proles
Page: B10-8 to 9
MTSH
Thread-Mills for MJ and UNJ proles
FSH
High productive Solid Carbide Thread-Mills with a large number
of utes for machining hard materials up to 65 HRC
Hardcut
Page: B11-6
Page: B11-5
MTS Dental
New Thread-Mills for the Dental Implants Industry
MTSB
Solid Carbide Thread-Mills with internal coolant bore and increased
number of utes for high performance, shorter cycle time and
improved tool life
FMTI Multi Flute
Solid Carbide Thread-Mills with a large number of
utes, for increased productivity and high performance
Mini Mill - Thread
Page: B09-9
Page: B09-10 to 12
Page: B09-17
Supercut Solid Carbide Mills
High Performance CR - Supercut End - Mills
Designed for high feed machining and high metal removal rate
Compatible for a wide range of materials
Multi - Function Milling Tools
Performs multiple operations with one tool
Spotting and Drilling
Side Milling
Chamfering
Slotting
Grooving
Engraving
Page: B14-20 to 23
Page: B14-2 to 19
New Products for this Catalog
®
6
Mini Chamfer and Countersink
Page: B15-7
Gear Milling
Innovative tools for gear, spline, and rack manufacturing
Indexable CMT Roughers and Finishers
Modular system using the standard CMT tool holders
with various shank options
For excellent performance
Page: B14-31 to 33
CR - Supercut High Feed End-Mills
High performance milling tools, designed for high feed rates
with shallow cutting depths
Page: B14-34 to 39
Tools for different radius lleting
Two, three and four utes
Cylindrical shank DIN6535-HA
Solid Carbide Radius Fillet End-Mills
Page: B15-6
Page: B16-1 to 4
CR - Supercut Roughers
Page: B14-24 to 30
New innovative high performance mills
Specically designed for high volume machining applications
Tools for 45˚ and 60˚ chamfering and deburring
Four utes
Cylindrical shank DIN6535-HA (Weldon shank available upon request)
®
New Products for this Catalog
Countersink - Solid Carbide Chamfering End-Mills
7
A01-A10
B01-B16
Turning Tools
Milling Tools
Page:
Main Content
®
8
Turning Tools
®
9
1- 50
1- 24
1- 6
1- 10
1- 4
1- 46
1- 14
1- 40
1- 6
1- 4
A01 | Thread Turning Inserts
A02 | Thread Turning Toolholders and Kits
A03 | Double Sided Thread Turning Inserts and Toolholders
A04 | Thread Turning Technical Section
A05 | Grooving Tools
A06 | Tiny Tools
A07 | Mini Tools
A08 | Swiss Line
A09 | Carbide Shank Turning Toolholders and Inserts
A10 | Thread Whirling
A - Turning Tools
CONTENTS: Page:
®
10
11
A01-1
Contents: Page: Page:
Contents:
Product Identication 2
Partial Prole 60° 3-4
Partial Prole 55° 5-6
ISO - metric 7-9
UN - Unied 10-13
Whitworth - 55° 14-17
NPT 18 -19
NPTF 20
BSPT 21-22
DIN 477 22
Acme 23
Stub Acme 24
Trapez - DIN 103 25
PG - DIN 40430 26
Sagengewinde - DIN 513 26
Round - DIN 405 27
Round - DIN 20400 27
UNJ 28-29
MJ - ISO 5855 30
American Buttress 31
Threading Tools for the Oil & Gas Indusries 32-44
API Round 32
V-0.040 33
V-0.038R 33
V-0.050 33
V-0.055 33
Extreme - Line Casing 34
Buttress Casing 34
VAM 34
HUGHES 35
PAC 35
NPS 36
NPSM 36
Vertical API 37
Vertical API Buttress Casing 38
Vertical API Round 39
Chasers API Round 40
Chasers API Buttress Casing 41
Chasers OTTM Buttress Casing 41
Chasers API Buttress Casing 42
Chasers OTTM Buttress Casing 42
Chasers API Buttress Casing 43
Chasers OTTM Buttress Casing 43
Chasers API Buttress Casing 44
Chasers OTTM Buttress Casing 44
Large Prole Inserts and Toolholders 45-50
Large Prole Inserts Trapez - DIN 103 45
External Holders 46
Internal Holders 47
Large Prole Sagengewinde Inserts DIN 513 48
External Holders 49
Internal Holders 50
Thread Turning Inserts
A01
Type B
Demonstration
Thread Turning Inserts
®
A01-2
Thread Turning Inserts Ordering Codes
E = External
I = Internal B = Type B Pitch
in mm:
0.35-12
or TPI
(Threads
per Inch)
72-2
Multitooth
style &
number
of teeth
API size
& taper
Carbide
Grade:
P30
K20
BMA
MXC
P25C
BXC
BLU
HBA
Partial
Proles:
A
G
AG
N
Q
U
Full
Proles:
ISO
UN
WHIT
NPT
NPTF
BSPT
DIN 477
ACME
ST.ACME
TRAPEZ
ROUND
UNJ
MJ
PG
AM. BUTT.
SAGE
API
VAM
R = Right Hand
L = Left Hand
L
06
08
08U
11
16
16V
22
22U
22V
27
27U
27V
33U
I.C.
5/32”
3/16”
3/16”U
1/4”
3/8”
3/8”
1/2”
1/2”U
1/2”
5/8”
5/8”U
5/8”
3/4”U
16 E R 12 UN BMA
Product Identication
Thread Turning Inserts
®
A01-3
EXTERNAL INTERNAL
L I.C. Pitch Range Ordering Code Ordering Code X Y
in mm TPI Right Hand Left Hand Right Hand Left Hand
65/32 0.5 - 1.25 48 - 20 ULTRA MINIATURE *06 IR A60 *06 IL A60 0.6 0.6
83/16 0.5 - 1.5 48 - 16 MINIATURE *08 IR A60 *08 IL A60 0.6 0.7
8U 3/16U 1.75 - 2.0 14 - 11 “U” MINIATURE *08U IR/L U60 0.8 4.0
11 1/4 0.5 - 1.5 48 - 16 11 ER A60 11 EL A60 11 IR A60 11 IL A60 0.8 0.9
16 3/8 0.5 - 1.5 48 - 16 16 ER A60 16 EL A60 16 IR A60 16 IL A60 0.8 0.9
16 3/8 1.75 - 3.0 14 - 8 16 ER G60 16 EL G60 16 IR G60 16 IL G60 1.2 1.7
16 3/8 0.5 - 3.0 48 - 8 16 ER AG60 16 EL AG60 16 IR AG60 16 IL AG60 1.2 1.7
22 1/2 3.5 - 5.0 7 - 5 22 ER N60 22 EL N60 22 IR N60 22 IL N60 1.7 2.5
22U 1/2U 5.5 - 8.0 4.5 - 3.25 22U E/I/R/L U60 0.6 11.0
27 5/8 5.5 - 6.0 4.5- 4 27 ER Q60 27 EL Q60 27 IR Q60 27 IL Q60 2.1 3.1
27U 5/8U 6.5 - 9.0 4- 2.75 27U E/I/R/L U60 1.0 13.7
EXTERNAL INTERNAL
L I.C. Pitch Range Ordering Code Ordering Code X Y
in mm TPI Right Hand Right Hand
16 3/8 0.5 - 1.5 48 -16 16 ER B A60 16 IR B A60 0.8 0.9
16 3/8 1.75 - 3.0 14 - 8 16 ER B G60 16 IR B G60 1.2 1.7
16 3/8 0.5 - 3.0 48 - 8 16 ER B AG60 16 IR B AG60 1.2 1.7
Partial Prole 60°
Type B
* Available only in BXC and BMA grades
Order example: 16 ER G60 MXC
For small bore threading see page A06-12
Order example: 16 ER B G60 BMA
Ground prole with sintered chip-breaker
For carbide grade and cutting speed see page A04-2 and 3
Thread Turning Inserts
®
A01-4
EXTERNAL INTERNAL
L I.C. Pitch Range Ordering Code Ordering Code X Y T
in mm TPI Right Hand Left Hand Right Hand Left Hand
16 3/8 0.5 - 1.5 48 - 16 16V ER A60 16V EL A60 1.0 0.9 3.6
16 3/8 1.75 - 3.0 14 - 8 16V ER G60 16V EL G60 1.0 1.8 3.6
16 3/8 0.5 - 3.0 48 - 8 16V ER AG60 16V EL AG60 1.0 1.8 3.6
22 1/2 1.75 - 3.0 14 - 8 22V ER G60 22V EL G60 1.2 1.7 4.0
22 1/2 3.5 - 5.0 7 - 5 22V ER N60 22V EL N60 1.2 2.5 4.8
27 5/8 6.0 - 10.0 4 - 2.5 27V ER V60 27V EL V60 27V IR V60 27V IL V60 1.8 5.2 10.4
Order example: 16V ER G60 BMA
Partial Prole 60°
Vertical
For carbide grade and cutting speed see page A04-2 and 3
Thread Turning Inserts
®
A01-5
EXTERNAL INTERNAL
L I.C. Pitch Range Ordering Code Ordering Code X Y
in mm TPI Right Hand Left Hand Right Hand Left Hand
65/32 0.5 - 1.25 48 - 20 ULTRA MINIATURE *06 IR A55 *06 IL A55 0.5 0.6
83/16 0.5 - 1.5 48 - 16 MINIATURE *08 IR A55 *08 IL A55 0.6 0.7
8U 3/16U 1.75
- 2.0 14 - 11 “U” MINIATURE *08U IR/L U55 0.9 4.0
11 1/4 0.5 - 1.5 48 - 16 11 ER A55 11 EL A55 11 IR A55 11 IL A55 0.8 0.9
16 3/8 0.5 - 1.5 48 - 16 16 ER A55 16 EL A55 16 IR A55 16 IL A55 0.8 0.9
16 3/8 1.75 - 3.0 14 - 8 16 ER G55 16 EL G55 16 IR G55 16 IL G55 1.2 1.7
16 3/8 0.5 - 3.0 48 - 8 16 ER AG55 16 EL AG55 16 IR AG55 16 IL AG55 1.2 1.7
22 1/2 3.5 - 5.0 7 - 5 22 ER N55 22 EL N55 22 IR N55 22 IL N55 1.7 2.5
22U 1/2U 5.5 - 8.0 4.5 - 3.25 22U E/I/R/L U55 0.9 11.0
27 5/8 5.5 - 6.0 4.5 - 4 27 ER Q55 27 EL Q55 27 IR Q55 27 IL Q55 2.0 2.9
27U 5/8U 6.5 - 9.0 4 - 2.75 27U E/I/R/L U55 1.2 13.7
Partial Prole 55°
EXTERNAL INTERNAL
L I.C. Pitch Range Ordering Code Ordering Code X Y
in mm TPI Right Hand Right Hand
16 3/8 1.75 - 3.0 14 - 8 16 ER B G55 16 IR B G55 1.2 1.7
16 3/8 0.5 - 3.0 48 - 8 16 ER B AG55 16 IR B AG55 1.2 1.7
Type B
* Available only in BXC and BMA grades
Order example: 16 ER G55 MXC
For small bore threading see page A06-12
Order example: 16 ER B G55 BMA
Ground prole with sintered chip-breaker
For carbide grade and cutting speed see page A04-2 and 3
Thread Turning Inserts
®
A01-6
EXTERNAL INTERNAL
L I.C. Pitch Range Ordering Code Ordering Code X Y T
in mm TPI Right Hand Left Hand Right Hand Left Hand
16 3/8 0.5 - 1.5 48 - 16 16V ER A55 16V EL A55 1.0 0.9 3.6
16 3/8 1.75 - 3.0 14 - 8 16V ER G55 16V EL G55 1.0 1.7 3.6
16 3/8 0.5 - 3.0 48 - 8 16V ER AG55 16V EL AG55 1.0 1.8 3.6
22 1/2 3.5 - 5.0 7 - 5 22V ER N55 22V EL N55 1.2 2.5 4.8
27 5/8 6.0 - 10.0 4 - 2.5 27V ER V55 27V EL V55 27V IR V55 27V IL V55 1.8 5.2 10.4
Order example: 22V ER N55 BMA
Partial Prole 55°
Vertical
For carbide grade and cutting speed see page A04-2 and 3
Thread Turning Inserts
®
A01-7
ISO - metric
EXTERNAL INTERNAL
Pitch L I.C. Ordering Code X Y Ordering Code X Y
mm in Right Hand Left Hand Right Hand Left Hand
0.25 6 5/32 *06 IR 0.25 ISO *06 IL 0.25 ISO 0.7 0.3
0.5 6 5/32 *06 IR 0.5 ISO *06 IL 0.5 ISO 0.9 0.5
0.75 6 5/32 ULTRA MINIATURE *06 IR 0.75 ISO *06 IL 0.75 ISO 0.8 0.5
1.0 6 5/32 *06 IR 1.0 ISO *06 IL 1.0 ISO 0.7 0.6
1.25 6 5/32
MINIATURE
*06 IR 1.25 ISO *06 IL 1.25 ISO 0.6 0.6
0.25 8 3/16 *08 IR 0.25 ISO *08 IL 0.25 ISO 0.7 0.3
0.5 8 3/16 *08 IR 0.5 ISO *08 IL 0.5 ISO 0.6 0.5
0.75 8 3/16 *08 IR 0.75 ISO *08 IL 0.75 ISO 0.6 0.5
1.0 8 3/16 *08 IR 1.0 ISO *08 IL 1.0 ISO 0.6 0.6
1.25 8 3/16 *08 IR 1.25 ISO *08 IL 1.25 ISO 0.6 0.7
1.5 8 3/16 *08 IR 1.5 ISO *08 IL 1.5 ISO 0.6 0.7
1.75 8 3/16 *08 IR 1.75 ISO *08 IL 1.75 ISO 0.6 0.8
2.0 8U 3/16U “U” MINIATURE *08U IR/L 2.0 ISO 0.9 4.0
0.25 11 1/4 11 ER 0.25 ISO 11 EL 0.25 ISO 0.6 0.2
0.3 11 1/4 11 ER 0.3 ISO 11 EL 0.3 ISO 0.8 0.3
0.35 11 1/4 11 ER 0.35 ISO 11 EL 0.35 ISO 0.8 0.4 11 IR 0.35 ISO 11 IL 0.35 ISO 0.8 0.3
0.4 11 1/4 11 ER 0.4 ISO 11 EL 0.4 ISO 0.7 0.4 11 IR 0.4 ISO 11 IL 0.4 ISO 0.8 0.4
0.45 11 1/4 11 ER 0.45 ISO 11 EL 0.45 ISO 0.7 0.4 11 IR 0.45 ISO 11 IL 0.45 ISO 0.8 0.4
0.5 11 1/4 11 ER 0.5 ISO 11 EL 0.5 ISO 0.6 0.6 11 IR 0.5 ISO 11 IL 0.5 ISO 0.6 0.6
0.6 11 1/4 11 ER 0.6 ISO 11 EL 0.6 ISO 0.6 0.6 11 IR 0.6 ISO 11 IL 0.6 ISO 0.6 0.6
0.7 11 1/4 11 ER 0.7 ISO 11 EL 0.7 ISO 0.6 0.6 11 IR 0.7 ISO 11 IL 0.7 ISO 0.6 0.6
0.75 11 1/4 11 ER 0.75 ISO 11 EL 0.75 ISO 0.6 0.6 11 IR 0.75 ISO 11 IL 0.75 ISO 0.6 0.6
0.8 11 1/4 11 ER 0.8 ISO 11 EL 0.8 ISO 0.6 0.6 11 IR 0.8 ISO 11 IL 0.8 ISO 0.6 0.6
1.0 11 1/4 11 ER 1.0 ISO 11 EL 1.0 ISO 0.7 0.7 11 IR 1.0 ISO 11 IL 1.0 ISO 0.6 0.7
1.25 11 1/4 11 ER 1.25 ISO 11 EL 1.25 ISO 0.8 0.9 11 IR 1.25 ISO 11 IL 1.25 ISO 0.8 0.8
1.5 11 1/4 11 ER 1.5 ISO 11 EL 1.5 ISO 0.8 1.0 11 IR 1.5 ISO 11 IL 1.5 ISO 0.8 1.0
1.75 11 1/4 11 ER 1.75 ISO 11 EL 1.75 ISO 0.8 1.1 11 IR 1.75 ISO 11 IL 1.75 ISO 0.8 1.1
2.0 11 1/4 11 ER 2.0 ISO 11 EL 2.0 ISO 0.8 1.1 11 IR 2.0 ISO 11 IL 2.0 ISO 0.8 0.9
2.5 11 1/4 11 IR 2.5 ISO 11 IL 2.5 ISO 0.8 1.2
0.25 16 3/8 16 ER 0.25 ISO 16 EL 0.25 ISO 0.6 0.2
0.3 16 3/8 16 ER 0.3 ISO 16 EL 0.3 ISO 0.8 0.3
0.35 16 3/8 16 ER 0.35 ISO 16 EL 0.35 ISO 0.8 0.4 16 IR 0.35 ISO 16 IL 0.35 ISO 0.8 0.3
0.4 16 3/8 16 ER 0.4 ISO 16 EL 0.4 ISO 0.7 0.4 16 IR 0.4 ISO 16 IL 0.4 ISO 0.8 0.4
0.45 16 3/8 16 ER 0.45 ISO 16 EL 0.45 ISO 0.7 0.4 16 IR 0.45 ISO 16 IL 0.45 ISO 0.8 0.4
0.5 16 3/8 16 ER 0.5 ISO 16 EL 0.5 ISO 0.6 0.6 16 IR 0.5 ISO 16 IL 0.5 ISO 0.6 0.6
0.6 16 3/8 16 ER 0.6 ISO 16 EL 0.6 ISO 0.6 0.6 16 IR 0.6 ISO 16 IL 0.6 ISO 0.6 0.6
0.7 16 3/8 16 ER 0.7 ISO 16 EL 0.7 ISO 0.6 0.6 16 IR 0.7 ISO 16 IL 0.7 ISO 0.6 0.6
0.75 16 3/8 16 ER 0.75 ISO 16 EL 0.75 ISO 0.6 0.6 16 IR 0.75 ISO 16 IL 0.75 ISO 0.6 0.6
0.8 16 3/8 16 ER 0.8 ISO 16 EL 0.8 ISO 0.6 0.6 16 IR 0.8 ISO 16 IL 0.8 ISO 0.6 0.6
1.0 16 3/8 16 ER 1.0 ISO 16 EL 1.0 ISO 0.7 0.7 16 IR 1.0 ISO 16 IL 1.0 ISO 0.6 0.7
1.25 16 3/8 16 ER 1.25 ISO 16 EL 1.25 ISO 0.8 0.9 16 IR 1.25 ISO 16 IL 1.25 ISO 0.8 0.9
1.5 16 3/8 16 ER 1.5 ISO 16 EL 1.5 ISO 0.8 1.0 16 IR 1.5 ISO 16 IL 1.5 ISO 0.8 1.0
1.75 16 3/8 16 ER 1.75 ISO 16 EL 1.75 ISO 0.9 1.2 16 IR 1.75 ISO 16 IL 1.75 ISO 0.9 1.2
2.0 16 3/8 16 ER 2.0 ISO 16 EL 2.0 ISO 1.0 1.3 16 IR 2.0 ISO 16 IL 2.0 ISO 1.0 1.3
2.5 16 3/8 16 ER 2.5 ISO 16 EL 2.5 ISO 1.1 1.5 16 IR 2.5 ISO 16 IL 2.5 ISO 1.1 1.5
3.0 16 3/8 16 ER 3.0 ISO 16 EL 3.0 ISO 1.2 1.6 16 IR 3.0 ISO 16 IL 3.0 ISO 1.1 1.5
3.5 16 3/8 16 ER 3.5 ISO 16 EL 3.5 ISO 1.2 1.7 16 IR 3.5 ISO 16 IL 3.5 ISO 1.2 1.7
* Available only in BXC and BMA grades
Thread Turning Inserts
®
A01-8
EXTERNAL INTERNAL
Pitch L I.C. Ordering Code X Y Ordering Code X Y
mm in Right Hand Left Hand Right Hand Left Hand
3.5 22 1/2 22 ER 3.5 ISO 22 EL 3.5 ISO 1.6 2.3 22 IR 3.5 ISO 22 IL 3.5 ISO 1.6 2.3
4.0 22 1/2 22 ER 4.0 ISO 22 EL 4.0 ISO 1.6 2.3 22 IR 4.0 ISO 22 IL 4.0 ISO 1.6 2.3
4.5 22 1/2 22 ER 4.5 ISO 22 EL 4.5 ISO 1.7 2.4 22 IR 4.5 ISO 22 IL 4.5 ISO 1.6 2.4
5.0 22 1/2 22 ER 5.0 ISO 22 EL 5.0 ISO 1.7 2.5 22 IR 5.0 ISO 22 IL 5.0 ISO 1.6 2.3
5.5 22 1/2 22 ER 5.5 ISO 22 EL 5.5 ISO 1.7 2.6 22 IR 5.5 ISO 22 IL 5.5 ISO 1.6 2.3
6.0 22 1/2 **22 ER 6.0 ISO **22 EL 6.0 ISO 1.9 2.7 22 IR 6.0 ISO 22 IL 6.0 ISO 1.6 2.4
5.5 22U 1/2U 22U ER/L 5.5 ISO 2.3 11.0 22U IR/L 5.5 ISO 2.4 11.0
6.0 22U 1/2U 22U ER/L 6.0 ISO 2.6 11.0 22U IR/L 6.0 ISO 2.1 11.0
5.5 27 5/8 27 ER 5.5 ISO 27 EL 5.5 ISO 1.9 2.7 27 IR 5.5 ISO 27 IL 5.5 ISO 1.6 2.3
6.0 27 5/8 27 ER 6.0 ISO 27 EL 6.0 ISO 2.0 2.9 27 IR 6.0 ISO 27 IL 6.0 ISO 1.8 2.5
8.0 27U 5/8U 27U ER/L 8.0 ISO 2.4 13.7 27U IR/L 8.0 ISO 2.4 13.7
12.0 33U 3/4U 33U ER/L 12.0 ISO 2.5 16.5 33U IR/L 12.0 ISO 3.5 16.9
EXTERNAL INTERNAL
Pitch L I.C. Ordering Code X Y Ordering Code X Y
mm in Right Hand Right Hand
0.5 11 1/4 11 IR B 0.5 ISO 0.6 0.6
0.75 11 1/4 11 IR B 0.75 ISO 0.6 0.6
0.8 11 1/4 11 IR B 0.8 ISO 0.6 0.6
1.0 11 1/4 11 IR B 1.0 ISO 0.6 0.6
1.25 11 1/4 11 IR B 1.25 ISO 0.8 0.9
1.5 11 1/4 11 IR B 1.5 ISO 0.8 0.9
1.75 11 1/4 11 IR B 1.75 ISO 0.8 0.9
2.0 11 1/4 11 IR B 2.0 ISO 0.8 0.9
0.8 16 3/8 16 ER B 0.8 ISO 0.6 0.6
1.0 16 3/8 16 ER B 1.0 ISO 0.7 0.7 16 IR B 1.0 ISO 0.6 0.7
1.25 16 3/8 16 ER B 1.25 ISO 0.8 0.9 16 IR B 1.25 ISO 0.8 0.9
1.5 16 3/8 16 ER B 1.5 ISO 0.8 1.0 16 IR B 1.5 ISO 0.8 1.0
1.75 16 3/8 16 ER B 1.75 ISO 0.9 1.2 16 IR B 1.75 ISO 0.9 1.2
2.0 16 3/8 16 ER B 2.0 ISO 1.0 1.3 16 IR B 2.0 ISO 1.0 1.3
2.5 16 3/8 16 ER B 2.5 ISO 1.1 1.5 16 IR B 2.5 ISO 1.1 1.5
3.0 16 3/8 16 ER B 3.0 ISO 1.2 1.6 16 IR B 3.0 ISO 1.1 1.5
Type B
Order example: 16 IR B 1.5 ISO BMA
For carbide grade and cutting speed see page A04-2 and 3
Ground prole with sintered chip-breaker
ISO - metric
** Special holder required
Order example: 22 IR 3.5 ISO BMA
For small bore threading see page A06-13
Thread Turning Inserts
®
A01-9
EXTERNAL INTERNAL
Pitch L I.C. Ordering Code Ordering Code X Y T
mm in Right Hand Left Hand Right Hand Left Hand
0.5 16 3/8 16V ER 0.5 ISO 16V EL 0.5 ISO 1.0 0.6 3.6
0.75 16 3/8 16V ER 0.75 ISO 16V EL 0.75 ISO 1.0 0.6 3.6
0.8 16 3/8 16V ER 0.8 ISO 16V EL 0.8 ISO 1.0 0.6 3.6
1.0 16 3/8 16V ER 1.0 ISO 16V EL 1.0 ISO 1.0 0.7 3.6
1.25 16 3/8 16V ER 1.25 ISO 16V EL 1.25 ISO 1.0 0.9 3.6
1.5 16 3/8 16V ER 1.5 ISO 16V EL 1.5 ISO 1.0 0.9 3.6
1.75 16 3/8 16V ER 1.75 ISO 16V EL 1.75 ISO 1.0 1.2 3.6
2.0 16 3/8 16V ER 2.0 ISO 16V EL 2.0 ISO 1.0 1.3 3.6
2.5 16 3/8 16V ER 2.5 ISO 16V EL 2.5 ISO 1.0 1.5 3.6
3.0 16 3/8 16V ER 3.0 ISO 16V EL 3.0 ISO 1.0 1.7 3.6
* 8.0 27 5/8 27V ER 8.0 ISO 27V EL 8.0 ISO
27V IR 8.0 ISO
27V IL 8.0 ISO 1.8 5.2 10.4
** 10.0 27 5/8 27V ER 10.0 ISO 27V EL 10.0 ISO
27V IR 10.0 ISO
27V IL 10.0 ISO 1.8 5.2 10.4
EXTERNAL INTERNAL
Pitch L I.C. Number Ordering Code Anvil Ordering Code Anvil X Y
mm in of Teeth
1.0 16 3/8 316 ER 1.0 ISO 3M AE16M 16 IR 1.0 ISO 3M AI16M 1.7 2.5
1.5 16 3/8 216 ER 1.5 ISO 2M AE16M 16 IR 1.5 ISO 2M AI16M 1.5 2.3
2.0 16 3/8 216 ER 2.0 ISO 2M AE16M 16 IR 2.0 ISO 2M AI16M 2.0 3.0
1.5 22 1/2 322 ER 1.5 ISO 3M AE22M 22 IR 1.5 ISO 3M AI22M 2.3 3.7
2.0 22 1/2 222 ER 2.0 ISO 2M AE22M 22 IR 2.0 ISO 2M AI22M 2.0 3.0
2.0 22 1/2 322 ER 2.0 ISO 3M AE22M 22 IR 2.0 ISO 3M AI22M 3.1 5.0
2.0 22 1/2 222 ER 2.5 ISO 2M AE22M 22 IR 2.5 ISO 2M AI22M 2.4 3.7
2.5 22 1/2 322 ER 2.5 ISO 3M AE22M 22 IR 2.5 ISO 3M AI22M 3.8 6.2
3.0 27 5/8 227 ER 3.0 ISO 2M AE27M 27 IR 3.0 ISO 2M AI27M 2.9 4.6
Order example: 16V ER 1.5 ISO BMA
* Minimum bore: 60 mm
** Minimum bore: 72 mm
Order example: 22 IR 2.0 ISO 2M BMA
For recommended number of passes see page A04-4
ISO - metric
Vertical
Multitooth
For carbide grade and cutting speed see page A04-2 and 3
Thread Turning Inserts
®
A01-10
UN - Unied UNC, UNF, UNEF, UNS
EXTERNAL INTERNAL
Pitch L I.C. Ordering Code X Y Ordering Code X Y
TPI in Right Hand Left Hand Right Hand Left Hand
32 6 5/32 *06 IR 32 UN *06 IL 32 UN 0.8 0.5
28 6 5/32 *06 IR 28 UN *06 IL 28 UN 0.8 0.6
24 6 5/32 ULTRA MINIATURE *06 IR 24 UN *06 IL 24 UN 0.7 0.6
20 6 5/32 *06 IR 20 UN *06 IL 20 UN 0.6 0.6
18 6 5/32 *06 IR 18 UN *06 IL 18 UN 0.6 0.7
32 8 3/16 *08 IR 32 UN *08 IL 32 UN 0.6 0.5
28 8 3/16 *08 IR 28 UN *08 IL 28 UN 0.6 0.6
24 8 3/16 *08 IR 24 UN *08 IL 24 UN 0.6 0.6
20 8 3/16 MINIATURE *08 IR 20 UN *08 IL 20 UN 0.6 0.7
18 8 3/16 *08 IR 18 UN *08 IL 18 UN 0.6 0.7
16 8 3/16 *08 IR 16 UN *08 IL 16 UN 0.6 0.7
14 8 3/16 *08 IR 14 UN *08 IL 14 UN 0.6 0.8
13 8 3/16 **08 IR 13 UN 0.8 0.9
13 8U 3/16U *08U IR/L 13 UN 1.0 4.0
12 8U 3/16U “U” MINIATURE *08U IR/L 12 UN 0.9 4.0
11 8U 3/16U *08U IR/L 11 UN 0.9 4.0
80 11 1/4 11 ER 80 UN 11 EL 80 UN 0.8 0.4 11 IR 80 UN 11 IL 80 UN 0.8 0.4
72 11 1/4 11 ER 72 UN 11 EL 72 UN 0.8 0.4 11 IR 72 UN 11 IL 72 UN 0.8 0.3
64 11 1/4 11 ER 64 UN 11 EL 64 UN 0.8 0.4 11 IR 64 UN 11 IL 64 UN 0.8 0.4
56 11 1/4 11 ER 56 UN 11 EL 56 UN 0.7 0.4 11 IR 56 UN 11 IL 56 UN 0.7 0.4
48 11 1/4 11 ER 48 UN 11 EL 48 UN 0.6 0.6 11 IR 48 UN 11 IL 48 UN 0.6 0.6
44 11 1/4 11 ER 44 UN 11 EL 44 UN 0.6 0.6 11 IR 44 UN 11 IL 44 UN 0.6 0.6
40 11 1/4 11 ER 40 UN 11 EL 40 UN 0.6 0.6 11 IR 40 UN 11 IL 40 UN 0.6 0.6
36 11 1/4 11 ER 36 UN 11 EL 36 UN 0.6 0.6 11 IR 36 UN 11 IL 36 UN 0.6 0.6
32 11 1/4 11 ER 32 UN 11 EL 32 UN 0.6 0.6 11 IR 32 UN 11 IL 32 UN 0.6 0.6
28 11 1/4 11 ER 28 UN 11 EL 28 UN 0.6 0.7 11 IR 28 UN 11 IL 28 UN 0.6 0.7
27 11 1/4 11 ER 27 UN 11 EL 27 UN 0.7 0.8 11 IR 27 UN 11 IL 27 UN 0.7 0.8
24 11 1/4 11 ER 24 UN 11 EL 24 UN 0.7 0.8 11 IR 24 UN 11 IL 24 UN 0.7 0.8
20 11 1/4 11 ER 20 UN 11 EL 20 UN 0.8 0.9 11 IR 20 UN 11 IL 20 UN 0.8 0.9
18 11 1/4 11 ER 18 UN 11 EL 18 UN 0.8 1.0 11 IR 18 UN 11 IL 18 UN 0.8 1.0
16 11 1/4 11 ER 16 UN 11 EL 16 UN 0.9 1.1 11 IR 16 UN 11 IL 16 UN 0.9 1.1
14 11 1/4 11 ER 14 UN 11 EL 14 UN 0.9 1.1 11 IR 14 UN 11 IL 14 UN 0.9 1.1
13 11 1/4 11 IR 13 UN 11 IL 13 UN 0.8 1.0
12 11 1/4 11 IR 12 UN 11 IL 12 UN 0.9 1.1
11 11 1/4 11 IR 11 UN 11 IL 11 UN 0.8 1.1
80 16 3/8 16 ER 80 UN 16 EL 80 UN 0.8 0.4 16 IR 80 UN 16 IL 80 UN 0.8 0.4
72 16 3/8 16 ER 72 UN 16 EL 72 UN 0.8 0.4 16 IR 72 UN 16 IL 72 UN 0.8 0.3
64 16 3/8 16 ER 64 UN 16 EL 64 UN 0.8 0.4 16 IR 64 UN 16 IL 64 UN 0.8 0.4
56 16 3/8 16 ER 56 UN 16 EL 56 UN 0.7 0.4 16 IR 56 UN 16 IL 56 UN 0.7 0.4
48 16 3/8 16 ER 48 UN 16 EL 48 UN 0.6 0.6 16 IR 48 UN 16 IL 48 UN 0.6 0.6
44 16 3/8 16 ER 44 UN 16 EL 44 UN 0.6 0.6 16 IR 44 UN 16 IL 44 UN 0.6 0.6
40 16 3/8 16 ER 40 UN 16 EL 40 UN 0.6 0.6 16 IR 40 UN 16 IL 40 UN 0.6 0.6
36 16 3/8 16 ER 36 UN 16 EL 36 UN 0.6 0.6 16 IR 36 UN 16 IL 36 UN 0.6 0.6
* Available only in BXC and BMA grades
** To be used with Holder SIR 0009 K08 on page A02-10
Thread Turning Inserts
®
A01-11
UN - Unied UNC, UNF, UNEF, UNS
EXTERNAL INTERNAL
Pitch L I.C. Ordering Code X Y Ordering Code X Y
TPI in Right Hand Left Hand Right Hand Left Hand
32 16 3/8 16 ER 32 UN 16 EL 32 UN 0.6 0.6 16 IR 32 UN 16 IL 32 UN 0.6 0.6
28 16 3/8 16 ER 28 UN 16 EL 28 UN 0.6 0.7 16 IR 28 UN 16 IL 28 UN 0.6 0.7
27 16 3/8 16 ER 27 UN 16 EL 27 UN 0.7 0.8 16 IR 27 UN 16 IL 27 UN 0.7 0.8
24 16 3/8 16 ER 24 UN 16 EL 24 UN 0.7 0.8 16 IR 24 UN 16 IL 24 UN 0.7 0.8
20 16 3/8 16 ER 20 UN 16 EL 20 UN 0.8 0.9 16 IR 20 UN 16 IL 20 UN 0.8 0.9
18 16 3/8 16 ER 18 UN 16 EL 18 UN 0.8 1.0 16 IR 18 UN 16 IL 18 UN 0.8 1.0
16 16 3/8 16 ER 16 UN 16 EL 16 UN 0.9 1.1 16 IR 16 UN 16 IL 16 UN 0.9 1.1
14 16 3/8 16 ER 14 UN 16 EL 14 UN 1.0 1.2 16 IR 14 UN 16 IL 14 UN 0.9 1.2
13 16 3/8 16 ER 13 UN 16 EL 13 UN 1.0 1.3 16 IR 13 UN 16 IL 13 UN 1.0 1.3
12 16 3/8 16 ER 12 UN 16 EL 12 UN 1.1 1.4 16 IR 12 UN 16 IL 12 UN 1.1 1.4
11.5 16 3/8 16 ER 11.5 UN 16 EL 11.5 UN 1.1 1.5 16 IR 11.5 UN 16 IL 11.5 UN 1.1 1.5
11 16 3/8 16 ER 11 UN 16 EL 11 UN 1.1 1.5 16 IR 11 UN 16 IL 11 UN 1.1 1.5
10 16 3/8 16 ER 10 UN 16 EL 10 UN 1.1 1.5 16 IR 10 UN 16 IL 10 UN 1.1 1.5
9 16 3/8 16 ER 9 UN 16 EL 9 UN 1.2 1.7 16 IR 9 UN 16 IL 9 UN 1.2 1.7
8 16 3/8 16 ER 8 UN 16 EL 8 UN 1.2 1.6 16 IR 8 UN 16 IL 8 UN 1.1 1.5
7 22 1/2 22 ER 7 UN 22 EL 7 UN 1.6 2.3 22 IR 7 UN 22 IL 7 UN 1.6 2.3
6 22 1/2 22 ER 6 UN 22 EL 6 UN 1.6 2.3 22 IR 6 UN 22 IL 6 UN 1.6 2.3
5 22 1/2 22 ER 5 UN 22 EL 5 UN 1.7 2.5 22 IR 5 UN 22 IL 5 UN 1.6 2.3
4.5 22U 1/2U 22U ER/L 4.5 UN 2.0 11.0 22U IR/L 4.5 UN 2.4 11.0
4 22U 1/2U 22U ER/L 4 UN 2.0 11.0 22U IR/L 4 UN 2.4 11.0
4.5 27 5/8 27 ER 4.5 UN 27 EL 4.5 UN 1.9 2.7 27 IR 4.5 UN 27 IL 4.5 UN 1.7 2.4
4 27 5/8 27 ER 4 UN 27 EL 4 UN 2.1 3.0 27 IR 4 UN 27 IL 4 UN 1.8 2.7
3 27U 5/8U 27U ER/L 3 UN 2.5 13.7 27U IR/L 3 UN 2.7 13.7
2 33U 3/4U 33U ER/L 2 UN 2.8 16.5 33U IR/L 2 UN 3.6 16.9
Order example: 22ER 7 UN BMA
For small bore threading see page A06-13
For carbide grade and cutting speed see page A04-2 and 3
Thread Turning Inserts
®
A01-12
UN - Unied
Vertical
Type B
EXTERNAL INTERNAL
Pitch L I.C. Ordering Code Ordering Code X Y T
TPI in Right Hand Left Hand Right Hand Left Hand
32 16 3/8 16V ER 32 UN 16V EL 32 UN 1.0 0.6 3.6
28 16 3/8 16V ER 28 UN 16V EL 28 UN 1.0 0.7 3.6
24 16 3/8 16V ER 24 UN 16V EL 24 UN 1.0 0.8 3.6
20 16 3/8 16V ER 20 UN 16V EL 20 UN 1.0 0.9 3.6
18 16 3/8 16V ER 18 UN 16V EL 18 UN 1.0 1.0 3.6
16 16 3/8 16V ER 16 UN 16V EL 16 UN 1.0 1.1 3.6
14 16 3/8 16V ER 14 UN 16V EL 14 UN 1.0 1.2 3.6
12 16 3/8 16V ER 12 UN 16V EL 12 UN 1.0 1.4 3.6
10 16 3/8 16V ER 10 UN 16V EL 10 UN 1.0 1.5 3.6
8 16 3/8 16V ER 8 UN 16V EL 8 UN 1.0 1.6 3.6
7 22 1/2 22V ER 7 UN 22V EL 7 UN 1.2 2.3 4.8
* 3 27 5/8 27V ER 3 UN 27V EL 3 UN
27V IR 3 UN
27V IL 3 UN 1.8 5.2 10.4
* Minimum bore: Ø65 mm
Order example: 22V ER 7UN MXC
Order example: 16 IR B 12 UN BMA
UN - Unied UNC, UNF, UNEF, UNS
Ground prole with sintered chip-breaker
EXTERNAL INTERNAL
Pitch L I.C. Ordering Code X Y Ordering Code X Y
TPI in Right Hand Right Hand
32 11 1/4 11 IR B 32 UN 0.6 0.6
28 11 1/4 11 IR B 28 UN 0.6 0.6
24 11 1/4 11 IR B 24 UN 0.6 0.6
20 11 1/4 11 IR B 20 UN 0.8 0.9
18 11 1/4 11 IR B 18 UN 0.8 0.9
16 11 1/4 11 IR B 16 UN 0.8 0.9
14 11 1/4 11 IR B 14 UN 0.8 0.9
12 11 1/4 11 IR B 12 UN 0.8 0.9
24 16 3/8 16 ER B 24 UN 0.7 0.8 16 IR B 24 UN 0.7 0.8
20 16 3/8 16 ER B 20 UN 0.8 0.9 16 IR B 20 UN 0.8 0.9
18 16 3/8 16 ER B 18 UN 0.8 1.0 16 IR B 18 UN 0.8 1.0
16 16 3/8 16 ER B 16 UN 0.9 1.1 16 IR B 16 UN 0.9 1.1
14 16 3/8 16 ER B 14 UN 1.0 1.2 16 IR B 14 UN 0.9 1.2
13 16 3/8 16 ER B 13 UN 1.0 1.3
12 16 3/8 16 ER B 12 UN 1.1 1.4 16 IR B 12 UN 1.1 1.4
11 16 3/8 16 ER B 11 UN 1.1 1.5
10 16 3/8 16 ER B 10 UN 1.1 1.5 16 IR B 10 UN 1.1 1.5
9 16 3/8 16 ER B 9 UN 1.2 1.7
8 16 3/8 16 ER B 8 UN 1.2 1.6 16 IR B 8 UN 1.1 1.1
Thread Turning Inserts
®
A01-13
Multitooth
EXTERNAL INTERNAL
Pitch L I.C. Number Ordering Code Anvil Ordering Code Anvil X Y
TPI in of Teeth
24 16 3/8 216 ER 24 UN 2M AE16M 16 IR 24 UN 2M AI16M 1.1 1.7
20 16 3/8 216 ER 20 UN 2M AE16M 16 IR 20 UN 2M AI16M 1.4 2.0
18 16 3/8 216 ER 18 UN 2M AE16M 16 IR 18 UN 2M AI16M 1.5 2.2
16 16 3/8 216 ER 16 UN 2M AE16M 16 IR 16 UN 2M AI16M 1.5 2.3
14 16 3/8 216 ER 14 UN 2M AE16M 16 IR 14 UN 2M AI16M 1.7 2.7
12 16 3/8 216 ER 12 UN 2M AE16M 16 IR 12 UN 2M AI16M 2.0 3.1
16 22 1/2 322 ER 16 UN 3M AE22M 22 IR 16 UN 3M AI22M 2.5 4.0
13 22 1/2 322 ER 13 UN 3M AE22M -3.0 4.9
12 22 1/2 222 ER 12 UN 2M AE22M 22 IR 12 UN 2M AI22M 2.2 3.4
12 22 1/2 322 ER 12 UN 3M AE22M 22 IR 12 UN 3M AI22M 3.3 5.3
8 27 5/8 227 ER 8 UN 2M AE27M 27 IR 8 UN 2M AI27M 3.1 4.9
Order example: 22 IR 16 UN 3M BMA
For recommended number of passes see page A04-4
For carbide grade and cutting speed see page A04-2 and 3
Thread Turning Inserts
®
A01-14
Whitworth - 55° BSW, BSF, BSP, BSB
EXTERNAL INTERNAL
Pitch L I.C. Ordering Code Ordering Code X Y
TPI in Right Hand Left Hand Right Hand Left Hand
26 6 5/32 *06 IR 26 W *06 IL 26 W 0.7 0.6
22 6 5/32 ULTRA MINIATURE *06 IR 22 W *06 IL 22 W 0.6 0.6
20 6 5/32 *06 IR 20 W *06 IL 20 W 0.6 0.7
18 6 5/32
MINIATURE
*06 IR 18 W *06 IL 18 W 0.6 0.7
28 8 3/16 *08 IR 28 W *08 IL 28 W 0.6 0.6
24 8 3/16 *08 IR 24 W *08 IL 24 W 0.6 0.6
20 8 3/16 *08 IR 20 W *08 IL 20 W 0.6 0.7
19 8 3/16 *08 IR 19 W *08 IL 19 W 0.6 0.7
18 8 3/16 *08 IR 18 W *08 IL 18 W 0.6 0.7
16 8 3/16 *08 IR 16 W *08 IL 16 W 0.6 0.7
14 8U 3/16U *08U IR/L 14 W 1.0 4.0
12 8U 3/16U “U” MINIATURE *08U IR/L 12 W 0.9 4.0
11 8U 3/16U *08U IR/L 11 W 0.9 4.0
72 11 1/4 11 ER 72 W 11 EL 72 W 11 IR 72 W 11 IL 72 W 0.7 0.4
60 11 1/4 11 ER 60 W 11 EL 60 W 11 IR 60 W 11 IL 60 W 0.7 0.4
56 11 1/4 11 ER 56 W 11 EL 56 W 11 IR 56 W 11 IL 56 W 0.7 0.4
48 11 1/4 11 ER 48 W 11 EL 48 W 11 IR 48 W 11 IL 48 W 0.6 0.6
40 11 1/4 11 ER 40 W 11 EL 40 W 11 IR 40 W 11 IL 40 W 0.6 0.6
36 11 1/4 11 ER 36 W 11 EL 36 W 11 IR 36 W 11 IL 36 W 0.6 0.6
32 11 1/4 11 ER 32 W 11 EL 32 W 11 IR 32 W 11 IL 32 W 0.6 0.6
28 11 1/4 11 ER 28 W 11 EL 28 W 11 IR 28 W 11 IL 28 W 0.6 0.7
26 11 1/4 11 ER 26 W 11 EL 26 W 11 IR 26 W 11 IL 26 W 0.7 0.7
24 11 1/4 11 ER 24 W 11 EL 24 W 11 IR 24 W 11 IL 24 W 0.7 0.8
22 11 1/4 11 ER 22 W 11 EL 22 W 11 IR 22 W 11 IL 22 W 0.8 0.9
20 11 1/4 11 ER 20 W 11 EL 20 W 11 IR 20 W 11 IL 20 W 0.8 0.9
19 11 1/4 11 ER 19 W 11 EL 19 W 11 IR 19 W 11 IL 19 W 0.8 1.0
18 11 1/4 11 ER 18 W 11 EL 18 W 11 IR 18 W 11 IL 18 W 0.8 1.0
16 11 1/4 11 ER 16 W 11 EL 16 W 11 IR 16 W 11 IL 16 W 0.9 1.1
14 11 1/4 11 ER 14 W 11 EL 14 W 11 IR 14 W 11 IL 14 W 0.9 1.1
12 11 1/4 11 IR 12 W 11 IL 12 W 0.1 1.1
11 11 1/4 11 IR 11 W 11 IL 11 W 0.9 1.2
72 16 3/8 16 ER 72 W 16 EL 72 W 16 IR 72 W 16 IL 72 W 0.7 0.4
60 16 3/8 16 ER 60 W 16 EL 60 W 16 IR 60 W 16 IL 60 W 0.7 0.4
56 16 3/8 16 ER 56 W 16 EL 56 W 16 IR 56 W 16 IL 56 W 0.7 0.4
48 16 3/8 16 ER 48 W 16 EL 48 W 16 IR 48 W 16 IL 48 W 0.6 0.6
40 16 3/8 16 ER 40 W 16 EL 40 W 16 IR 40 W 16 IL 40 W 0.6 0.6
36 16 3/8 16 ER 36 W 16 EL 36 W 16 IR 36 W 16 IL 36 W 0.6 0.6
32 16 3/8 16 ER 32 W 16 EL 32 W 16 IR 32 W 16 IL 32 W 0.6 0.6
28 16 3/8 16 ER 28 W 16 EL 28 W 16 IR 28 W 16 IL 28 W 0.6 0.7
26 16 3/8 16 ER 26 W 16 EL 26 W 16 IR 26 W 16 IL 26 W 0.7 0.7
24 16 3/8 16 ER 24 W 16 EL 24 W 16 IR 24 W 16 IL 24 W 0.7 0.8
* Available only in BXC and BMA grades
(1) Special holder is required or standard holder can be amended by customer.
(1) (1)
Thread Turning Inserts
®
A01-15
Whitworth - 55° BSW, BSF, BSP, BSB
EXTERNAL INTERNAL
Pitch L I.C. Ordering Code Ordering Code X Y
TPI in Right Hand Left Hand Right Hand Left Hand
22 16 3/8 16 ER 22 W 16 EL 22 W16 IR 22 W 16 IL 22 W0.8 0.9
20 16 3/8 16 ER 20 W 16 EL 20 W16 IR 20 W 16 IL 20 W0.8 0.9
19 16 3/8 16 ER 19 W 16 EL 19 W16 IR 19 W 16 IL 19 W0.8 1.0
18 16 3/8 16 ER 18 W 16 EL 18 W16 IR 18 W 16 IL 18 W0.8 1.0
16 16 3/8 16 ER 16 W 16 EL 16 W16 IR 16 W 16 IL 16 W0.9 1.1
14 16 3/8 16 ER 14 W 16 EL 14 W16 IR 14 W 16 IL 14 W1.0 1.2
12 16 3/8 16 ER 12 W 16 EL 12 W16 IR 12 W 16 IL 12 W1.1 1.4
11 16 3/8 16 ER 11 W 16 EL 11 W16 IR 11 W 16 IL 11 W1.1 1.5
10 16 3/8 16 ER 10 W 16 EL 10 W16 IR 10 W 16 IL 10 W1.1 1.5
9 16 3/8 16 ER 9 W 16 EL 9 W16 IR 9 W 16 IL 9 W 1.2 1.7
8 16 3/8 16 ER 8 W 16 EL 8 W16 IR 8 W 16 IL 8 W1.2 1.5
7 22 1/2 22 ER 7 W 22 EL 7 W22 IR 7 W 22 IL 7 W1.6 2.3
6 22 1/2 22 ER 6 W 22 EL 6 W22 IR 6 W 22 IL 6 W1.6 2.3
5 22 1/2 22 ER 5 W 22 EL 5 W22 IR 5 W 22 IL 5 W1.7 2.4
4.5 22U 1/2U 22U E/I/R/L 4.5 W 2.3 11.0
4 22U 1/2U 22U E/I/R/L 4 W 2.8 11.0
4.5 27 5/8 27 ER 4.5 W 27 EL 4.5 W 27 IR 4.5 W 27 IL 4.5 W 1.8 2.6
4 27 5/8 27 ER 4 W 27 EL 4 W27 IR 4 W 27 IL 4 W 2.0 2.9
3.5 27U 5/8U 27U E/I/R/L 3.5 W 2.1 13.7
3.25 27U 5/8U 27U E/I/R/L 3.25 W 2.0 13.7
3 27U 5/8U 27U E/I/R/L 3 W 2.3 13.7
2.75 27U 5/8U 27U E/I/R/L 2.75 W 2.4 13.7
*2.625 27U 5/8U 27U E/I/R/L 2.625 W 2.5 13.7
*2.5 27U 5/8U 27U E/I/R/L 2.5 W 2.8 13.7
* One cutting edge
Order example: 16 IR 18 W BMA
For carbide grade and cutting speed see page A04-2 and 3
Thread Turning Inserts
®
A01-16
Whitworth - 55° BSW, BSF, BSP, BSB
Type B
Vertical
Ground prole with sintered chip-breaker
EXTERNAL INTERNAL
Pitch L I.C. Ordering Code Ordering Code X Y
TPI in Right Hand Right Hand
28 11 1/4 11 IR B 28 W 0.6 0.6
24 11 1/4 11 IR B 24 W 0.6 0.6
20 11 1/4 11 IR B 20 W 0.8 0.9
19 11 1/4 11 IR B 19 W 0.8 0.9
18 11 1/4 11 IR B 18 W 0.8 0.9
16 11 1/4 11 IR B 16 W 0.8 0.9
14 11 1/4 11 IR B 14 W 0.8 0.9
19 16 3/8 16 ER B 19 W 16 IR B 19 W 0.8 1.0
16 16 3/8 16 ER B 16 W 16 IR B 16 W 0.9 1.1
14 16 3/8 16 ER B 14 W 16 IR B 14 W 1.0 1.2
11 16 3/8 16 ER B 11 W 16 IR B 11 W 1.1 1.5
10 16 3/8 16 ER B 10 W 16 IR B 10 W 1.1 1.5
EXTERNAL EXTERNAL
Pitch L I.C. Ordering Code Ordering Code X Y T
TPI in Right Hand Left Hand
20 16 3/8 16V ER 20 W 16V EL 20 W 1.0 0.9 3.6
19 16 3/8 16V ER 19 W 16V EL 19 W 1.0 0.9 3.6
18 16 3/8 16V ER 18 W 16V EL 18 W 1.0 1.0 3.6
16 16 3/8 16V ER 16 W 16V EL 16 W 1.0 1.0 3.6
14 16 3/8 16V ER 14 W 16V EL 14 W 1.0 1.2 3.6
12 16 3/8 16V ER 12 W 16V EL 12 W 1.0 1.4 3.6
11 16 3/8 16V ER 11 W 16V EL 11 W 1.0 1.5 3.6
Order example: 16 IR B 10 W BMA
Order example: 16V ER 14 W MXC
Thread Turning Inserts
®
A01-17
Multitooth
Order example: 16 ER 14 W 2M MXC
For recommended number of passes see page A04-4
For carbide grade and cutting speed see page A04-2 and 3
EXTERNAL INTERNAL
Pitch L I.C. Number Ordering Code Anvil Ordering Code Anvil X Y
TPI in of Teeth
14 16 3/8 216 ER 14 W 2M AE16M 16 IR 14 W 2M AI16M 1.7 2.7
14 22 1/2 322 ER 14 W 3M AE22M 22 IR 14 W 3M AI22M 2.8 4.5
11 22 1/2 222 ER 11 W 2M AE22M 22 IR 11 W 2M AI22M 2.3 3.4
Thread Turning Inserts
®
A01-18
NPT
EXTERNAL INTERNAL
Pitch L I.C. Ordering Code Ordering Code X Y
TPI in Right Hand Left Hand Right Hand Left Hand
27 6 5/32 ULTRA MINIATURE *06 IR 27 NPT *06 IL 27 NPT 0.6 0.6
27 8 3/16 *08 IR 27 NPT *08 IL 27 NPT 0.6 0.6
18 8 3/16 MINIATURE *08 IR 18 NPT *08 IL 18 NPT 0.6 0.6
27 11 1/4 11 ER 27 NPT 11 EL 27 NPT 11 IR 27 NPT 11 IL 27 NPT 0.7 0.8
18 11 1/4 11 ER 18 NPT 11 EL 18 NPT 11 IR 18 NPT 11 IL 18 NPT 0.8 1.0
14 11 1/4 11 ER 14 NPT 11 EL 14 NPT 11 IR 14 NPT 11 IL 14 NPT 0.8 1.0
27 16 3/8 16 ER 27 NPT 16 EL 27 NPT 16 IR 27 NPT 16 IL 27 NPT 0.7 0.8
18 16 3/8 16 ER 18 NPT 16 EL 18 NPT 16 IR 18 NPT 16 IL 18 NPT 0.8 1.0
14 16 3/8 16 ER 14 NPT 16 EL 14 NPT 16 IR 14 NPT 16 IL 14 NPT 0.9 1.2
11.5 16 3/8 16 ER 11.5 NPT 16 EL 11.5 NPT 16 IR 11.5 NPT 16 IL 11.5 NPT 1.1 1.5
8 16 3/8 16 ER 8 NPT 16 EL 8 NPT 16 IR 8 NPT 16 IL 8 NPT 1.3 1.8
* Available only in BXC and BMA grades
Order example: 16 ER 14 NPT MXC
For small bore threading see page A06-16
Type B
Ground prole with sintered chip-breaker
EXTERNAL INTERNAL
Pitch L I.C. Ordering Code Ordering Code X Y
TPI in Right Hand Right Hand
18 11 1/4 11 IR B 18 NPT 0.8 0.9
18 16 3/8 16 ER B 18 NPT 16 IR B 18 NPT 0.8 1.0
14 16 3/8 16 ER B 14 NPT 16 IR B 14 NPT 0.9 1.2
11.5 16 3/8 16 ER B 11.5 NPT 16 IR B 11.5 NPT 1.1 1.5
8 16 3/8 16 ER B 8 NPT 16 IR B 8 NPT 1.3 1.8
Order example: 16 IR B 11.5 NPT BMA
For carbide grade and cutting speed see page A04-2 and 3
Thread Turning Inserts
®
A01-19
EXTERNAL EXTERNAL
Pitch L I.C. Ordering Code Ordering Code X Y T
TPI in Right Hand Left Hand
27 16 3/8 16V ER 27 NPT 16V EL 27 NPT 1.0 0.8 3.6
18 16 3/8 16V ER 18 NPT 16V EL 18 NPT 1.0 1.0 3.6
14 16 3/8 16V ER 14 NPT 16V EL 14 NPT 1.0 1.2 3.6
11.5 16 3/8 16V ER 11.5 NPT 16V EL 11.5 NPT 1.0 1.5 3.6
NPT
NPT
Order example: 22 ER 11.5 NPT 2M MXC
For recommended number of passes see page A04-4
Order example: 16V ER 14 NPT BMA
For carbide grade and cutting speed see page A04-2 and 3
EXTERNAL INTERNAL
Pitch L I.C. Number Ordering Code Anvil Ordering Code Anvil X Y
TPI in of Teeth
14 16 3/8 216 ER 14 NPT 2M AE16M 16 IR 14 NPT 2M AI16M 1.7 2.8
11.5 22 1/2 222 ER 11.5 NPT 2M AE22M 22 IR 11.5 NPT 2M AI22M 2.3 3.5
11.5 27 5/8 327 ER 11.5 NPT 3M AE27M 27 IR 11.5 NPT 3M AI27M 3.3 5.5
8 27 5/8 227 ER 8 NPT 2M AE27M 27 IR 8 NPT 2M AI27M 3.1 5.0
Multitooth
Vertical
Thread Turning Inserts
®
A01-20
NPTF - Dryseal
EXTERNAL INTERNAL
Pitch L I.C. Ordering Code Ordering Code X Y
TPI in Right Hand Left Hand Right Hand Left Hand
27 6 5/32 ULTRA MINIATURE *06 IR 27 NPTF *06 IL 27 NPTF 0.7 0.6
27 8 3/16 *08 IR 27 NPTF *08 IL 27 NPTF 0.6 0.6
18 8 3/16 MINIATURE *08 IR 18 NPTF *08 IL 18 NPTF 0.6 0.6
27 11 1/4 11 ER 27 NPTF 11 EL 27 NPTF 11 IR 27 NPTF 11 IL 27 NPTF 0.7 0.7
18 11 1/4 11 ER 18 NPTF 11 EL 18 NPTF 11 IR 18 NPTF 11 IL 18 NPTF 0.8 1.0
14 11 1/4 11 ER 14 NPTF 11 EL 14 NPTF 11 IR 14 NPTF 11 IL 14 NPTF 0.8 1.0
27 16 3/8 16 ER 27 NPTF 16 EL 27 NPTF 16 IR 27 NPTF 16 IL 27 NPTF 0.7 0.7
18 16 3/8 16 ER 18 NPTF 16 EL 18 NPTF 16 IR 18 NPTF 16 IL 18 NPTF 0.8 1.0
14 16 3/8 16 ER 14 NPTF 16 EL 14 NPTF 16 IR 14 NPTF 16 IL 14 NPTF 0.9 1.2
11.5 16 3/8 16 ER 11.5 NPTF 16 EL 11.5 NPTF 16 IR 11.5 NPTF 16 IL 11.5 NPTF 1.1 1.5
8 16 3/8 16 ER 8 NPTF 16 EL 8 NPTF 16 IR 8 NPTF 16 IL 8 NPTF 1.3 1.8
* Available only in BXC and BMA grades
Order example: 11 ER 27 NPTF MXC
For carbide grade and cutting speed see page A04-2 and 3
Pitch
TPI
INTERNAL
Ordering Code
Right Hand
L I.C. X Y
in
18 11 1/4 11 IR B 18 NPTF 0.8 0.9
Type B
Ground prole with sintered chip-breaker
Multitooth
Pitch L I.C. Number EXTERNAL Anvil INTERNAL Anvil X Y
TPI in of Teeth Ordering Code Ordering Code
11.5 22 1/2 222 ER 11.5 NPTF 2M AE22M 22 IR 11.5 NPTF 2M AI22M 2.3 3.5
Order example: 11 IR B 18 NPTF BMA
Order example: 22 ER 11.5 NPTF 2M BMA
Thread Turning Inserts
®
A01-21
BSPT
EXTERNAL INTERNAL
Pitch L I.C. Ordering Code Ordering Code X Y
TPI in Right Hand Left Hand Right Hand Left Hand
28 6 5/32 ULTRA MINIATURE *06 IR 28 BSPT *06 IL 28 BSPT 0.7 0.6
28 8 3/16 *08 IR 28 BSPT *08 IL 28 BSPT 0.6 0.6
19 8 3/16 MINIATURE *08 IR 19 BSPT *08 IL 19 BSPT 0.6 0.6
28 11 1/4 11 IR 28 BSPT 11 IL 28 BSPT 0.6 0.6
19 11 1/4 11 IR 19 BSPT 11 IL 19 BSPT 0.8 0.9
14 11 1/4 11 IR 14 BSPT 11 IL 14 BSPT 0.9 1.0
11 11 1/4 11 IR 11 BSPT 11 IL 11 BSPT 0.9 1.2
28 16 3/8 16 ER 28 BSPT 16 EL 28 BSPT 16 IR 28 BSPT 16 IL 28 BSPT 0.6 0.6
19 16 3/8 16 ER 19 BSPT 16 EL 19 BSPT 16 IR 19 BSPT 16 IL 19 BSPT 0.8 0.9
14 16 3/8 16 ER 14 BSPT 16 EL 14 BSPT 16 IR 14 BSPT 16 IL 14 BSPT 1.0 1.2
11 16 3/8 16 ER 11 BSPT 16 EL 11 BSPT 16 IR 11 BSPT 16 IL 11 BSPT 1.1 1.5
* Available only in BXC and BMA grades
Order example: 11 IR 14 BSPT BMA
(1) Special holder is required or standard holder can be amended by customer.
For carbide grade and cutting speed see page A04-2 and 3
Type B
Ground prole with sintered chip-breaker
EXTERNAL INTERNAL
Pitch L I.C. Ordering Code Ordering Code X Y
TPI in Right Hand Right Hand
19 11 1/4 11 IR B 19 BSPT 0.8 0.9
19 16 3/8 16 ER B 19 BSPT 1.0 1.1
14 16 3/8 16 ER B 14 BSPT 16 IR B 14 BSPT 1.2 1.0
11 16 3/8 16 ER B 11 BSPT 16 IR B 11 BSPT 1.5 1.1
Order example: 16 ER B 11BSPT BMA
(1) (1)
Thread Turning Inserts
®
A01-22
BSPT
Vertical
EXTERNAL EXTERNAL
Pitch L I.C. Ordering Code Ordering Code X Y T
TPI in Right Hand Left Hand
28 16 3/8 16V ER 28 BSPT 16V EL 28 BSPT 1.0 0.6 3.6
19 16 3/8 16V ER 19 BSPT 16V EL 19 BSPT 1.0 0.9 3.6
14 16 3/8 16V ER 14 BSPT 16V EL 14 BSPT 1.0 1.2 3.6
11 16 3/8 16V ER 11 BSPT 16V EL 11 BSPT 1.0 1.5 3.6
Order example: 16V ER 19 BSPT BMA
For carbide grade and cutting speed see page A04-2 and 3
* Holder to use: SIR0010H11/SIR0010K11
** Holder to use: SIR0016P16
*** Holder to use: SIR0020P16
Order example: 16 IR 14 DIN477 BMA
DIN 477
EXTERNAL INTERNAL
Pitch L I.C. Taper Ordering Code Ordering Code X Y Thread
Designation
TPI in Ratio Right Hand Right Hand
14 16 3/8 3/25 16 ER 14 DIN477 1.0 1.2 W19.8x1/14 keg(Ext.)
14 11 1/4 3/25 *11 IR 14 DIN477 0.9 1.0 W19.8x1/14 keg(Int.)
14 16 3/8 3/25 16 ER 14 DIN477 **16 IR 14 DIN477 1.0 1.2 W28.8x1/14 keg
14 16 3/8 3/25 16 ER 14 DIN477 ***16 IR 14 DIN477 1.0 1.2 W31.3x1/14 keg
INTERNAL
EXTERNAL
THREAD AXIS
90˚
0.137P
0.137P
P
55˚
3˚26'
90˚
Thread Turning Inserts
®
A01-23
Acme
Acme
Vertical
* Minimum bore: Ø55 mm ** Minimum bore: Ø76 mm
Order example: 27V ER 2 ACME BMA
For carbide grade and cutting speed see page A04-2 and 3
EXTERNAL INTERNAL
Pitch L I.C. Ordering Code Ordering Code X Y
TPI in Right Hand Left Hand Right Hand Left Hand
16 8 3/16 MINIATURE
**08 IR 16 ACME
**08 IL 16 ACME 0.6 0.6
14 8U 3/16U *08U IR/L 14 ACME 0.8 4.0
12 8U 3/16U “U” MINIATURE *08U IR/L 12 ACME 0.8 4.0
10 8U 3/16U *08U IR/L 10 ACME 0.8 4.0
16 11 1/4
11 ER 16 ACME 11 EL 16 ACME 11 IR 16 ACME 11 IL 16 ACME
0.9 1.0
16 16 3/8
16 ER 16 ACME 16 EL 16 ACME 16 IR 16 ACME 16 IL 16 ACME
0.9 1.0
14 16 3/8
16 ER 14 ACME 16 EL 14 ACME 16 IR 14 ACME 16 IL 14 ACME
1.0 1.2
12 16 3/8
16 ER 12 ACME 16 EL 12 ACME 16 IR 12 ACME 16 IL 12 ACME
1.1 1.2
10 16 3/8
16 ER 10 ACME 16 EL 10 ACME 16 IR 10 ACME 16 IL 10 ACME
1.3 1.3
8 16 3/8
16 ER 8 ACME 16 EL 8 ACME 16 IR 8 ACME 16 IL 8 ACME
1.5 1.5
6 16 3/8
16 ER 6 ACME 16 EL 6 ACME 16 IR 6 ACME 16 IL 6 ACME
1.7 1.8
6 22 1/2
22 ER 6 ACME 22 EL 6 ACME 22 IR 6 ACME 22 IL 6 ACME
1.8 2.1
5 22 1/2
22 ER 5 ACME 22 EL 5 ACME 22 IR 5 ACME 22 IL 5 ACME
2.0 2.3
4 22 1/2
22 ER 4 ACME 22 EL 4 ACME 22 IR 4 ACME 22 IL 4 ACME
2.1 2.2
422U 1/2U 22U ER/L 4 ACME 22U IR/L 4 ACME 2.3 11.0
4 27 5/8
27 ER 4 ACME 27 EL 4 ACME 27 IR 4 ACME 27 IL 4 ACME
2.3 2.7
327U 5/8U 27U ER/L 3 ACME 27U IR/L 3 ACME 2.8 13.7
233U 3/4U 33U ER/L 2 ACME 33U IR/L 2 ACME 4.3 16.9
* Available only in BXC and BMA grades
** One cutting edge
Order example: 16 ER 16 ACME MXC
(1) Special holder is required or standard holder can be amended by customer.
EXTERNAL INTERNAL
Pitch L I.C. Ordering Code X Y T Ordering Code X Y T
TPI in Right Hand Left Hand Right Hand Left Hand
* 3.5 27 5/8
27V ER 3.5 ACME
1.8 5.0 10.4
27V IR 3.5 ACME
1.8 4.0 10.4
* 3 27 5/8
27V ER 3 ACME
1.8 5.0 10.4
27V IR 3 ACME
1.8 4.6 10.4
** 2 27 5/8
27V ER 2 ACME
27V EL 2 ACME
1.8 5.0 10.4
27V IR 2 ACME
27V IL 2 ACME
1.8 5.0 10.4
(1)
(1)
(1)
(1)
(1)
(1)
(1)
(1)
Thread Turning Inserts
®
A01-24
Stub Acme
* Available only in BXC and BMA grades
** One cutting edge
Order example: 22 IR 5 STACME MXC
For carbide grade and cutting speed see page A04-2 and 3
EXTERNAL INTERNAL
Pitch L I.C. Ordering Code Ordering Code X Y
TPI in Right Hand Left Hand Right Hand Left Hand
16 8 3/16 MINIATURE **08 IR 16 STACME **08 IL 16 STACME 0.6 0.6
14 8U 3/16U *08U IR/L 14 STACME 0.8 4.0
12 8U 3/16U “U” MINIATURE *08U IR/L 12 STACME 0.9 4.0
10 8U 3/16U *08U IR/L 10 STACME 1.0 4.0
16 11 1/4 11 ER 16 STACME 11 EL 16 STACME 1.0 1.0
16 16 3/8 16 ER 16 STACME 16 EL 16 STACME 16 IR 16 STACME 16 IL 16 STACME 1.0 1.0
14 16 3/8 16 ER 14 STACME 16 EL 14 STACME 16 IR 14 STACME 16 IL 14 STACME 1.1 1.1
12 16 3/8 16 ER 12 STACME 16 EL 12 STACME 16 IR 12 STACME 16 IL 12 STACME 1.2 1.2
10 16 3/8 16 ER 10 STACME 16 EL 10 STACME 16 IR 10 STACME 16 IL 10 STACME 1.3 1.3
8 16 3/8 16 ER 8 STACME 16 EL 8 STACME 16 IR 8 STACME 16 IL 8 STACME 1.5 1.5
6 16 3/8 16 ER 6 STACME 16 EL 6 STACME 16 IR 6 STACME 16 IL 6 STACME 1.8 1.8
6 22 1/2 22 ER 6 STACME 22 EL 6 STACME 22 IR 6 STACME 22 IL 6 STACME 1.8 1.8
5 22 1/2 22 ER 5 STACME 22 EL 5 STACME 22 IR 5 STACME 22 IL 5 STACME 2.0 2.3
4 22 1/2 22 ER 4 STACME 22 EL 4 STACME 22 IR 4 STACME 22 IL 4 STACME 2.3 2.4
422U 1/2U 22U ER/L 4 STACME 22U IR/L 4 STACME 2.5 11.0
322U 1/2U 22U ER/L 3 STACME 22U IR/L 3 STACME 3.3 11.0
4 27 5/8 27 ER 4 STACME 27 EL 4 STACME 27 IR 4 STACME 27 IL 4 STACME 2.3 2.4
3 27 5/8 27 ER 3 STACME 27 EL 3 STACME 27 IR 3 STACME 27 IL 3 STACME 2.8 2.9
233U 3/4U 33U ER/L 2 STACME 33U IR/L 2 STACME 5.0 16.9
Thread Turning Inserts
®
A01-25
* Available only in BXC and BMA grades
** One cutting edge
*** To be used only with holder SIR/L0014M16UB on page
A02-10
Order example: 22 IR 5 TR MXC
(1) Special holder is required or standard holder can be amended by customer.
(2) Special holder is required or standard holder can be amended by customer
or to used with holders: SIR/L0012L16B; SIR/L0014L16B
(3) Only for Tr 40 x 7.0. To be used only with holder SIR/L0025S22UB
Trapez - DIN 103
Trapez - DIN 103
EXTERNAL INTERNAL
Pitch L I.C. Ordering Code Ordering Code X Y T
mm in Right Hand Left Hand Right Hand Left Hand
* 9 27 5/8 27V ER 9 TR 27V EL 9 TR 27V IR 9 TR 27V IL 9 TR 1.8 5.2 10.4
* 10 27 5/8 27V ER 10 TR 27V EL 10 TR 27V IR 10 TR 27V IL 10 TR 1.8 5.2 10.4
** 12 27 5/8 27V ER 12 TR 27V EL 12 TR 27V IR 12 TR 27V IL 12 TR 1.8 5.2 10.4
Vertical
* Minimum bore: Ø65 mm ** Minimum bore: Ø73 mm
Order example: 27V ER 10 TR BMA
For carbide grade and cutting speed see page A04-2 and 3
EXTERNAL INTERNAL
Pitch L I.C. Ordering Code Ordering Code X Y
mm in Right Hand Left Hand Right Hand Left Hand
1.5 8 3/16 MINIATURE **08 IR 1.5 TR **08 IL 1.5 TR 0.6 0.6
2.0 8U 3/16U “U” MINIATURE *08U IR/L 2 TR 0.9 4.0
1.5 16 3/8 16 ER 1.5 TR 16 EL 1.5 TR 1.0 1.1
2.0 16 3/8 16 ER 2 TR 16 EL 2 TR 16 IR 2 TR 16 IL 2 TR 1.0 1.3
3.0 16 3/8 16 ER 3 TR 16 EL 3 TR 16 IR 3 TR 16 IL 3 TR 1.3 1.5
4.0 16 3/8 16 ER 4 TR 16 EL 4 TR 16 IR 4 TR 16 IL 4 TR 1.3 1.5
5.0 16U 3/8U ***16U IR/L 5 TR 2.3 8.2
4.0 22 1/2 22 ER 4 TR 22 EL 4 TR 22 IR 4 TR 22 IL 4 TR 1.8 1.9
5.0 22 1/2 22 ER 5 TR 22 EL 5 TR 22 IR 5 TR 22 IL 5 TR 2.0 2.4
6.0 22 1/2 22 ER 6 TR 22 EL 6 TR 22 IR 6 TR 22 IL 6 TR 2.0 2.4
6.0 22U 1/2U 22U ER/L 6 TR 22U IR/L 6 TR 2.0 11.0
7.0 22U 1/2U 22U ER/L 7 TR 22U IR/L 7 TR 2.3 11.0
7.0 22U 1/2U 22U IR/L 7 TR40 2.6 11.0
8.0 22U 1/2U 22U ER/L 8 TR 22U IR/L 8 TR 2.5 11.0
6.0 27 5/8 27 ER 6 TR 27 EL 6 TR 27 IR 6 TR 27 IL 6 TR 2.3 2.7
7.0 27 5/8 27 ER 7 TR 27 EL 7 TR 27 IR 7 TR 27 IL 7 TR 2.2 2.6
8.0 27U 5/8U 27U ER/L 8 TR 27U IR/L 8 TR 2.5 13.7
9.0 27U 5/8U 27U ER/L 9 TR 27U IR/L 9 TR 3.0 13.7
10.0 27U 5/8U **27U ER/L 10 TR **27U IR/L 10 TR 3.2 13.7
12.0 33U 3/4U 33U ER/L 12 TR 33U IR/L 12 TR 3.9 16.9
(1)
(2)(1)
(1)
(3)
(1)
(2)(1)
(1)
(3)
Thread Turning Inserts
®
A01-26
EXTERNAL INTERNAL
Pitch L I.C. Ordering Code Ordering Code X Y
TPI in Right Hand Standard Right Hand Standard
20 8 3/16 MINIATURE *08 IR 20 PG (PG 7) 0.6 0.7
18 11 1/4 11 IR 18 PG (PG 9) 0.8 0.9
20 16 3/8 16 ER 20 PG (PG 7) 0.7 0.8
18 16 3/8 16 ER 18 PG (PG 9, 11, 13.5, 16) 16 IR 18 PG (PG 11, 13.5, 16) 0.8 0.9
16 16 3/8 16 ER 16 PG (PG 21, 29, 36, 42, 48) 16 IR 16 PG (PG 21, 29, 36, 42, 48) 0.8 1.0
PG - DIN 40430
Sagengewinde - DIN 513
* Available only in BXC and BMA grades
Order example: 16 ER 16 PG BMA
* Requires a special anvil AER 22U-1.5 SAGE 5/6, AEL 22U-1.5 SAGE 5/6, AIR 22U-1.5 SAGE 5/6, AIL 22U-1.5 SAGE 5/6
* * Requires a special anvil AER 22-1.5 SAGE 3/4, AEL 22-1.5 SAGE 3/4, AIR 22-1.5 SAGE 3/4, AIL 22-1.5 SAGE 3/4
Order example: 22 IR 4 SAGE BMA
IMPORTANT NOTE:
In Carmex standard execution, the
ank with the large angle is the
leading edge. If otherwise required,
please specify in your order.
Working direction
EXTERNAL INTERNAL
Pitch L I.C. Ordering Code X Y Ordering Code X Y
mm in Right Hand Left Hand Right Hand Left Hand
2.0 16 3/8 16 ER 2 SAGE 16 EL 2 SAGE 1.1 1.6 16 IR 2 SAGE 16 IL 2 SAGE 1.2 1.7
**3.0 22 1/2 22 ER 3 SAGE 22 EL 3 SAGE 1.5 2.4 22 IR 3 SAGE 22 IL 3 SAGE 1.9 2.9
**4.0 22 1/2 22 ER 4 SAGE 22 EL 4 SAGE 1.9 3.1 22 IR 4 SAGE 22 IL 4 SAGE 2.3 3.5
*5.0 22U 1/2U 22U ER 5 SAGE 22U EL 5 SAGE 1.2 11.6 22U IR 5 SAGE 22U IL 5 SAGE 1.9 11.7
*6.0 22U 1/2U 22U ER 6 SAGE 22U EL 6 SAGE 1.2 11.7 22U IR 6 SAGE 22U IL 6 SAGE 2.1 11.9
For carbide grade and cutting speed see page A04-2 and 3
Thread Turning Inserts
®
A01-27
Round - DIN 405
Round - DIN 20400
Order example: 27 IL 4 RD BMA
* Same insert for Internal and External Right Hand Thread
Order example: 22 ER 4.0 RD 20400 MXC
EXTERNAL INTERNAL
Pitch L I.C. Ordering Code X Y Ordering Code X Y
TPI in Right Hand Left Hand Right Hand Left Hand
10 16 3/8 16 ER 10 RD 16 EL 10 RD 1.1 1.2 16 IR 10 RD 16 IL 10 RD 1.1 1.2
8 16 3/8 16 ER 8 RD 16 EL 8 RD 1.4 1.3 16 IR 8 RD 16 IL 8 RD 1.4 1.4
6 16 3/8 16 ER 6 RD 16 EL 6 RD 1.5 1.7 16 IR 6 RD 16 IL 6 RD 1.4 1.5
6 22 1/2 22 ER 6 RD 22 EL 6 RD 1.5 1.7 22 IR 6 RD 22 IL 6 RD 1.5 1.7
4 22 1/2 22 ER 4 RD 22 EL 4 RD 2.2 2.3 22 IR 4 RD 22 IL 4 RD 2.2 2.3
4 27 5/8 27 ER 4 RD 27 EL 4 RD 2.2 2.3 27 IR 4 RD 27 IL 4 RD 2.2 2.3
For carbide grade and cutting speed see page A04-2 and 3
EXTERNAL INTERNAL
Pitch L I.C. Ordering Code Ordering Code X Y
mm in Right Hand Right Hand
4.0 22 1/2 22 ER 4.0 RD 20400 22 IR 4.0 RD 20400 1.4 1.4
5.0 22 1/2 22 ER 5.0 RD 20400 22 IR 5.0 RD 20400 1.7 1.8
6.0 22 1/2 22 ER 6.0 RD 20400 22 IR 6.0 RD 20400 1.7 2.0
8.0 27U 5/8U *27U E/I/R/L 8.0 RD 20400 3.0 13.7
10.0 27U 5/8U *27U E/I/R/L 10.0 RD 20400 3.4 13.7
12.0 33U 3/4U *33U E/I/R/L 12.0 RD 20400 4.3 16.9
Thread Turning Inserts
®
A01-28
EXTERNAL INTERNAL
Pitch L I.C. Ordering Code Ordering Code X Y
TPI in Right Hand Left Hand Right Hand Left Hand
28 08 3/16
MINIATURE
*08 IR 28 UNJ *08 IL 28 UNJ 0.6 0.6
24 08 3/16 *08 IR 24 UNJ *08 IL 24 UNJ 0.6 0.6
20 08 3/16 *08 IR 20 UNJ *08 IL 20 UNJ 0.6 0.7
18 08 3/16 *08 IR 18 UNJ *08 IL 18 UNJ 0.6 0.7
13 08U 3/16U "U" MINIATURE *08 UIR/L 13 UNJ 0.9 4.0
48 11 1/4 11 ER 48 UNJ 11 EL 48 UNJ 11 IR 48 UNJ 11 IL 48 UNJ 0.6 0.6
44 11 1/4 11 ER 44 UNJ 11 EL 44 UNJ 11 IR 44 UNJ 11 IL 44 UNJ 0.6 0.6
40 11 1/4 11 ER 40 UNJ 11 EL 40 UNJ 11 IR 40 UNJ 11 IL 40 UNJ 0.6 0.6
36 11 1/4 11 ER 36 UNJ 11 EL 36 UNJ 11 IR 36 UNJ 11 IL 36 UNJ 0.6 0.6
32 11 1/4 11 ER 32 UNJ 11 EL 32 UNJ 11 IR 32 UNJ 11 IL 32 UNJ 0.6 0.6
28 11 1/4 11 ER 28 UNJ 11 EL 28 UNJ 11 IR 28 UNJ 11 IL 28 UNJ 0.6 0.6
24 11 1/4 11 ER 24 UNJ 11 EL 24 UNJ 11 IR 24 UNJ 11 IL 24 UNJ 0.7 0.8
20 11 1/4 11 ER 20 UNJ 11 EL 20 UNJ 11 IR 20 UNJ 11 IL 20 UNJ 0.8 0.9
18 11 1/4 11 ER 18 UNJ 11 EL 18 UNJ 11 IR 18 UNJ 11 IL 18 UNJ 0.8 1.0
16 11 1/4 11 ER 16 UNJ 11 EL 16 UNJ 11 IR 16 UNJ 11 IL 16 UNJ 0.8 1.0
14 11 1/4 11 ER 14 UNJ 11 EL 14 UNJ 11 IR 14 UNJ 11 IL 14 UNJ 0.9 1.0
48 16 3/8 16 ER 48 UNJ 16 EL 48 UNJ 16 IR 48 UNJ 16 IL 48 UNJ 0.6 0.6
44 16 3/8 16 ER 44 UNJ 16 EL 44 UNJ 16 IR 44 UNJ 16 IL 44 UNJ 0.6 0.6
40 16 3/8 16 ER 40 UNJ 16 EL 40 UNJ 16 IR 40 UNJ 16 IL 40 UNJ 0.6 0.6
36 16 3/8 16 ER 36 UNJ 16 EL 36 UNJ 16 IR 36 UNJ 16 IL 36 UNJ 0.6 0.6
32 16 3/8 16 ER 32 UNJ 16 EL 32 UNJ 16 IR 32 UNJ 16 IL 32 UNJ 0.6 0.6
28 16 3/8 16 ER 28 UNJ 16 EL 28 UNJ 16 IR 28 UNJ 16 IL 28 UNJ 0.6 0.6
24 16 3/8 16 ER 24 UNJ 16 EL 24 UNJ 16 IR 24 UNJ 16 IL 24 UNJ 0.7 0.8
20 16 3/8 16 ER 20 UNJ 16 EL 20 UNJ 16 IR 20 UNJ 16 IL 20 UNJ 0.8 0.9
18 16 3/8 16 ER 18 UNJ 16 EL 18 UNJ 16 IR 18 UNJ 16 IL 18 UNJ 0.8 1.0
16 16 3/8 16 ER 16 UNJ 16 EL 16 UNJ 16 IR 16 UNJ 16 IL 16 UNJ 0.8 1.0
14 16 3/8 16 ER 14 UNJ 16 EL 14 UNJ 16 IR 14 UNJ 16 IL 14 UNJ 1.0 1.2
13 16 3/8 16 ER 13 UNJ 16 EL 13 UNJ 16 IR 13 UNJ 16 IL 13 UNJ 1.0 1.3
12 16 3/8 16 ER 12 UNJ 16 EL 12 UNJ 16 IR 12 UNJ 16 IL 12 UNJ 1.1 1.4
11 16 3/8 16 ER 11 UNJ 16 EL 11 UNJ 16 IR 11 UNJ 16 IL 11 UNJ 1.1 1.5
10 16 3/8 16 ER 10 UNJ 16 EL 10 UNJ 16 IR 10 UNJ 16 IL 10 UNJ 1.1 1.5
9 16 3/8 16 ER 9 UNJ 16 EL 9 UNJ 16 IR 9 UNJ 16 IL 9 UNJ 1.2 1.6
8 16 3/8 16 ER 8 UNJ 16 EL 8 UNJ 16 IR 8 UNJ 16 IL 8 UNJ 1.2 1.6
UNJ UNJC, UNJF, UNJEF, UNJS
* Available only in BXC and BMA grades
Order example: 16 IR 16 UNJ MXC
For carbide grade and cutting speed see page A04-2 and 3
Thread Turning Inserts
®
A01-29
UNJ UNJC, UNJF, UNJEF, UNJS
INTERNAL
Pitch L I.C. Ordering Code X Y
TPI in Right Hand
32 11 1/4 11 IR B 32 UNJ 0.6 0.6
28 11 1/4 11 IR B 28 UNJ 0.6 0.6
24 11 1/4 11 IR B 24 UNJ 0.6 0.6
20 11 1/4 11 IR B 20 UNJ 0.8 0.9
18 11 1/4 11 IR B 18 UNJ 0.8 0.9
16 11 1/4 11 IR B 16 UNJ 0.8 0.9
14 11 1/4 11 IR B 14 UNJ 0.8 0.9
For carbide grade and cutting speed see page A04-2 and 3
Type B
Ground prole with sintered chip-breaker
Multitooth
EXTERNAL INTERNAL
Pitch L I.C. Number Ordering Code Anvil Ordering Code Anvil X Y
TPI in of Teeth
16 16 3/8 216 ER 16 UNJ 2M AE16M -- 1.6 2.4
16 22 1/2 322 ER 16 UNJ 3M AE22M -- 2.3 3.8
Order example: 22 ER 16 UNJ 3M BMA
Order example: 11 IR B 20 UNJ BMA
Thread Turning Inserts
®
A01-30
For carbide grade and cutting speed see page A04-2 and 3
Order example: 16 ER 1.5 MJ BMA
Order example: 11 IR B 1.5 MJ BMA
MJ - ISO 5855
EXTERNAL INTERNAL
Pitch L I.C. Ordering Code Ordering Code X Y
mm in Right Hand Right Hand
0.5 11 1/4 11 IR 0.5 MJ 0.5 0.4
0.7 11 1/4 11 IR 0.7 MJ 0.6 0.5
0.75 11 1/4 11 IR 0.75 MJ 0.6 0.5
0.8 11 1/4 11 IR 0.8 MJ 0.6 0.6
1.0 11 1/4 11 ER 1.0 MJ 11 IR 1.0 MJ 0.7 0.8
1.25 11 1/4 11 ER 1.25 MJ 11 IR 1.25 MJ 0.8 0.9
1.5 11 1/4 11 ER 1.5 MJ 11 IR 1.5 MJ 0.8 1.0
2.0 11 1/4 11 IR 2.0 MJ 0.9 1.0
0.5 16 3/8 16 ER 0.5 MJ 0.6 0.6
0.7 16 3/8 16 ER 0.7 MJ 0.6 0.6
0.75 16 3/8 16 ER 0.75 MJ 16 IR 0.75 MJ 0.5 0.5
0.8 16 3/8 16 ER 0.8 MJ 16 IR 0.8 MJ 0.6 0.6
1.0 16 3/8 16 ER 1.0 MJ 16 IR 1.0 MJ 0.7 0.8
1.25 16 3/8 16 ER 1.25 MJ 16 IR 1.25 MJ 0.8 0.9
1.5 16 3/8 16 ER 1.5 MJ 16 IR 1.5 MJ 0.8 1.0
1.75 16 3/8 16 ER 1.75 MJ 16 IR 1.75 MJ 0.9 1.1
2.0 16 3/8 16 ER 2.0 MJ 16 IR 2.0 MJ 1.0 1.3
3.0 16 3/8 16 ER 3.0 MJ 16 IR 3.0 MJ 1.2 1.6
Type B
Ground prole with sintered chip-breaker
Pitch
mm
INTERNAL
Ordering Code
Right Hand
L I.C. X Y
in
1.0
1.5 11 1/4 11 IR B 1.0 MJ
11 IR B 1.5 MJ
0.6
0.8
0.6
0.9
Thread Turning Inserts
®
A01-31
EXTERNAL INTERNAL
Pitch L I.C. Ordering Code Ordering Code X Y
TPI in Right Hand Left Hand Right Hand Left Hand
20 11 1/4 11 ER 20 ABUT 11 EL 20 ABUT 11 IR 20 ABUT 11 IL 20 ABUT 1.0 1.3
16 11 1/4 11 ER 16 ABUT 11 EL 16 ABUT 11 IR 16 ABUT 11 IL 16 ABUT 1.0 1.5
20 16 3/8 16 ER 20 ABUT 16 EL 20 ABUT 16 IR 20 ABUT 16 IL 20 ABUT 1.0 1.3
16 16 3/8 16 ER 16 ABUT 16 EL 16 ABUT 16 IR 16 ABUT 16 IL 16 ABUT 1.0 1.5
12 16 3/8 16 ER 12 ABUT 16 EL 12 ABUT 16 IR 12 ABUT 16 IL 12 ABUT 1.4 2.0
10 16 3/8 16 ER 10 ABUT 16 EL 10 ABUT 16 IR 10 ABUT 16 IL 10 ABUT 1.5 2.3
8 22 1/2 22 ER 8 ABUT 22 EL 8 ABUT 22 IR 8 ABUT 22 IL 8 ABUT 2.1 3.3
6 22 1/2 22 ER 6 ABUT 22 EL 6 ABUT 22 IR 6 ABUT 22 IL 6 ABUT 2.1 3.4
(1) 4 22U 1/2U 22U
ER 4 ABUT 22U
EL 4 ABUT 22U
IR 4 ABUT 22U
IL 4 ABUT 2.3 9.5
(3) 5 27 5/8 27 ER 5 ABUT 27 EL 5 ABUT 27 IR 5 ABUT 27 IL 5 ABUT 2.75 4.5
(2) 3 27U 5/8U 27U
ER 3 ABUT 27U
EL 3 ABUT 27U
IR 3 ABUT 27U
IL 3 ABUT 3.1 11.7
Order example: 16 IL 12 ABUT MXC
Most applications requires anvil change in toolholder see page A04-7
(1) Requires a special anvil AE 22U-1.5 ABUT4, AI22U-1.5 ABUT4
(2) Requires a special anvil AE 27U-1.5 ABUT3, AI27U-1.5 ABUT3
(3) Requires a special anvil AE 27-1.5 ABUT5, AI27-1.5 ABUT5
American Buttress
IMPORTANT NOTE:
In Carmex standard execution, the
ank with the large angle is the
leading edge. If otherwise required,
please specify in your order.
Multitooth
EXTERNAL INTERNAL
Pitch L I.C. Number Ordering Code Anvil Ordering Code Anvil X Y
TPI in of Teeth
12 22 1/2 222 ER 12 ABUT 2M AE22M 22 IR 12 ABUT 2M AI22M 2.5 4.0
Order example: 22 IR 12 ABUT 2M BMA
For carbide grade and cutting speed see page A04-2 and 3
Working direction
Thread Turning Inserts
®
A01-32
Threading Tools for the Oil & Gas Industries
For carbide grade and cutting speed see page A04-2 and 3
API Round
EXTERNAL INTERNAL
Pitch L I.C. Taper Ordering Code Ordering Code X Y
TPI in IPF Right Hand Right Hand
10 16 3/8 0.75 16 ER 10 API RD 16 IR 10 API RD 1.5 1.4
8 16 3/8 0.75 16 ER 8 API RD 16 IR 8 API RD 1.3 1.6
Order example: 16 ER 10 API RD BMA
Pitch L I.C. Number EXTERNAL Anvil INTERNAL Anvil X Y
TPI in of Teeth Ordering Code Ordering Code
10 22 1/2 222 ER 10API RD 2M AE22M 22 IR 10API RD 2M AI22M 2.4 3.7
10 27 5/8 327 ER 10API RD 3M AE27M 27 IR 10API RD 3M AI27M 3.8 6.2
8 27 5/8 227 ER 8API RD 2M AE27M 27 IR 8API RD 2M AI27M 3.0 4.5
Multitooth
Order example: 27 IR 10 API RD 3M MXC
For recommended number of passes see page A04-4
Thread Turning Inserts
®
A01-33
OIL Threads
For carbide grade and cutting speed see page A04-2 and 3
* For NC10,NC12 use holder SIR0016P16CB
For NC13 use holders SIR0020P16/SIR0020P16B/SIR0020S16CB
** For NC16 use holder SIR0025R22
(1)
For V-0.038R, V-0.050 we recommend to use size 27 for more stability.
V-0.040
(1) V-0.038R
(1) V-0.050
V-0.055
Macaroni Tubing (MT)
American Macaroni Tubing (AMT)
American Mining Macaroni Tubing (AMMT)
EXTERNAL INTERNAL
Pitch L I.C. Taper Ordering Code Ordering Code X Y Connection
TPI in IPF Right Hand Right Hand No. or Size
5 22 1/2 322 ER 5 API 403 22 IR 5 API 403 1.8 2.5 23/8-41/2 REG
EXTERNAL INTERNAL
Pitch L I.C. Taper Ordering Code Ordering Code X Y Connection
TPI in IPF Right Hand Right Hand No. or Size
4 27 5/8 227 ER 4 API 382 27 IR 4 API 382 2.1 2.8 NC23-NC50
4 27 5/8 327 ER 4 API 383 27 IR 4 API 383 2.1 2.8 NC56-NC77
4 22 1/2 222 ER 4 API 382 22 IR 4 API 382 2.0 2.5 NC23-NC50
4 22 1/2 322 ER 4 API 383 22 IR 4 API 383 2.0 2.6 NC56-NC77
EXTERNAL INTERNAL
Pitch L I.C. Taper Ordering Code Ordering Code X Y Connection
TPI in IPF Right Hand Right Hand No. or Size
4 27 5/8 227 ER 4 API 502 27 IR 4 API 502 2.0 3.0 65/8 REG
4 27 5/8 327 ER 4 API 503 27 IR 4 API 503 2.0 3.0 51/2, 75/8, 85/8 REG
4 22 1/2 222 ER 4 API 502 22 IR 4 API 502 1.9 2.7 65/8 REG
4 22 1/2 322 ER 4 API 503 22 IR 4 API 503 1.9 2.8 51/2, 75/8, 85/8 REG
EXTERNAL INTERNAL
Pitch L I.C. Taper Ordering Code Ordering Code X Y Connection
TPI in IPF Right Hand Right Hand No. or Size
6 22 1/2 1.5 22 ER 6 API 551.5 -2.0 1.7
NC10,NC12,NC13,NC16
6 16 3/8 1.5 -16 IR 6 API 551.5 2.0 1.7
NC10,NC12,NC13 *
6 22 1/2 1.5 -22 IR 6 API 551.5 2.0 1.7
NC16 **
Order example: 27 ER 4 API 383 MXC
Order example: 22 ER 4 API 502 BMA
Thread Turning Inserts
®
A01-34
For carbide grade and cutting speed see page A04-2 and 3
VAM
EXTERNAL INTERNAL
Pitch L I.C. Taper Ordering Code X Y Ordering Code X Y Connection
TPI in IPF Right Hand Right Hand No. or Size
8 16 3/8 0.75 16 ER 8 VAM 1.7 1.8 16 IR 8 VAM 1.7 1.8 23/8 - 27/8
6 22 1/2 0.75 22 ER 6 VAM 2.4 2.4 22 IR 6 VAM 2.5 2.5 31/2 - 41/2
5 22 1/2 0.75 22 ER 5 VAM 2.4 2.7 22 IR 5 VAM 2.4 2.5 5 - 133/8
Order example: 16 ER 8 VAM BMA
Buttress Casing
EXTERNAL INTERNAL
Pitch L I.C. Taper Ordering Code Ordering Code X Y Connection
TPI in IPF Right Hand Right Hand No. or Size
5 22 1/2 0.75 22 ER 5 BUT 0.75 22 IR 5 BUT 0.75 2.2 2.4 41/2 -133/8
5 22 1/2 1.00 22 ER 5 BUT 1.0 22 IR 5 BUT 1.0 2.3 2.4 16 -20
Order example: 22 ER 5 BUT 0.75 MXC
OIL Threads
Extreme - Line Casing
EXTERNAL INTERNAL
Pitch L I.C. Taper Ordering Code Ordering Code X Y Connection
TPI in IPF Right Hand Right Hand No. or Size
6 22 1/2 1.50 22 ER 6 EL 1.5 22 IR 6 EL 1.5 1.9 1.9 5 - 75/8
5 22 1/2 1.25 22 ER 5 EL 1.25 22 IR 5 EL 1.25 2.4 2.3 85/8-103/4
Thread Turning Inserts
®
A01-35
HUGHES
PAC
EXTERNAL INTERNAL
Pitch L I.C. Taper Ordering Code Ordering Code X Y Connection
TPI mm IPF Right Hand Right Hand No. or Size
3.5 27 5/8 227 ER 3.5 H-902 27 IR 3.5 H-902 2.8 3.8 31/2 - 65/8
3.5 27 5/8 327 ER 3.5 H-903 27 IR 3.5 H-903 2.8 3.8 7 - 85/8
3 27 5/8 1.25 27 ER 3 SLH-90 27 IR 3 SLH-90 3.3 4.6 23/8 - 31/2
EXTERNAL INTERNAL
Pitch L I.C. Taper Ordering Code Ordering Code X Y Connection
TPI mm IPF Right Hand Right Hand No. or Size
4 22 1/2 1.5 22 ER 4 PAC 22 IR 4 PAC 2.3 2.3 21/2 - 27/8
4 27 5/8 1.5 27 ER 4 PAC 27 IR 4 PAC 2.3 2.3 21/2 - 27/8
Order example: 27 ER 3.5 H-903 BMA
Order example: 22 ER 4 PAC MXC
Thread Turning Inserts
®
A01-36
EXTERNAL INTERNAL
Pitch L I.C. Ordering Code Ordering Code X Y
TPI mm Right Hand Left Hand Right Hand Left Hand
18 16 3/8 16 ER 18 NPS 16 EL 18 NPS 16 IR 18 NPS 16 IL 18 NPS 0.8 1
14 16 3/8 16 ER 14 NPS 16 EL 14 NPS 16 IR 14 NPS 16 IL 14 NPS 1 1.3
11.5 16 3/8 16 ER 11.5 NPS 16 EL 11.5 NPS 16 IR 11.5 NPS 16 IL 11.5 NPS 1 1.5
8 16 3/8 16 ER 8 NPS 16 EL 8 NPS 16 IR 8 NPS 16 IL 8 NPS 1.3 1.8
EXTERNAL INTERNAL
Pitch L I.C. Ordering Code X Y Ordering Code X Y
TPI mm Right Hand Right Hand
18 8 3/16 08 IR 18 NPSM 0.7 0.7
18 11 1/4 11 IR 18 NPSM 0.8 1.0
18 16 3/8 16 ER 18 NPSM 0.8 1.0
14 16 3/8 16 ER 14 NPSM 1.0 1.2 16 IR 14 NPSM 1.0 1.2
11.5 16 3/8 16 ER 11.5 NPSM 1.2 1.5 16 IR 11.5 NPSM 1.2 1.5
8 16 3/8 16 ER 8 NPSM 1.3 1.6 16 IR 8 NPSM 1.2 1.5
For carbide grade and cutting speed see page A04-2 and 3
NPS
NPSM
Order example: 16 ER 18 NPS BMA
Order example: 16 IR 14 NPSM MXC
Thread Turning Inserts
®
A01-37
Vertical
API
Thread
Form
Pitch
TPI LI.C.
in
Taper
IPF
EXTERNAL
Ordering Code Y T Connection
No. or Size
V-0.040 5 27 5/8 3TNMB 54 ER 5 API 403 2.5 6.4 23/8-41/2 REG
V-0.038R 4 27 5/8 2TNMC 55 ER 4 API 382 2.8 7.94 NC23-NC50
V-0.038R 4 27 5/8 3TNMC 55 ER 4 API 383 2.8 7.94 NC56-NC77
V-0.050 4 27 5/8 2TNMC 55 ER 4 API 502 3.0 7.94 65/8 REG
V-0.050 4 27 5/8 3TNMC 55 ER 4 API 503 3.0 7.94 51/2,75/8, 85/8 REG
Thread
Form
Pitch
TPI LI.C.
in
Taper
IPF
INTERNAL
Ordering Code Y T Connection
No. or Size
V-0.040 5 27 5/8 3TNMB 54 IR 5 API 403 2.5 6.4 23/8-41/2 REG
V-0.038R 4 27 5/8 2TNMC 55 IR 4 API 382 2.8 7.94 NC23-NC50
V-0.038R 4 27 5/8 3TNMC 55 IR 4 API 383 2.8 7.94 NC56-NC77
V-0.050 4 27 5/8 2TNMC 55 IR 4 API 502 3.0 7.94 65/8 REG
V-0.050 4 27 5/8 3TNMC 55 IR 4 API 503 3.0 7.94 51/2,75/8, 85/8 REG
Vertical inserts to be used with compatible holders on the market
Vertical inserts to be used with compatible holders on the market
For carbide grade and cutting speed see page A04-2 and 3
Order example: TNMC 55 ER 4 API 503 BMA
Order example: TNMC 55 IR 4 API 502 BMA
Thread Turning Inserts
®
A01-38
Vertical
API Buttress Casing
Pitch
TPI LI.C.
in
Taper
IPF
EXTERNAL
Ordering Code Y T Connection
No. or Size
5 27 5/8 0.75 TNMB 54 ER 5 BUT 0.75 2.4 6.4 41/2 -133/8
5 27 5/8 1.00 TNMB 54 ER 5 BUT 1.0 2.4 6.4 16 -20
Pitch
TPI LI.C.
in
Taper
IPF
INTERNAL
Ordering Code Y T Connection
No. or Size
5 27 5/8 0.75 TNMB 54 IR 5 BUT 0.75 2.4 6.4 41/2 -133/8
5 27 5/8 1.00 TNMB 54 IR 5 BUT 1.0 2.4 6.4 16 -20
For carbide grade and cutting speed see page A04-2 and 3
Vertical inserts to be used with compatible holders on the market
Order example: TNMB 54 IR 5 BUT 0.75 BMA
Order example: TNMB 54 ER 5 BUT 1.0 BMA
Thread Turning Inserts
®
A01-39
Pitch
TPI LI.C.
in
Taper
IPF
EXTERNAL
Ordering Code Y T
10 22 1/2 0.75 TNMB 43 ER 10 API RD 1.45 4.76
8 22 1/2 0.75 TNMB 43 ER 8 API RD 1.65 4.76
Pitch
TPI LI.C.
in
Taper
IPF
INTERNAL
Ordering Code Y T
10 22 1/2 0.75 TNMB 43 IR 10 API RD 1.45 4.76
8 22 1/2 0.75 TNMB 43 IR 8 API RD 1.65 4.76
Vertical
API Round
Vertical inserts to be used with compatible holders on the market
Order example: TNMB 43 IR 8 API RD BMA
For carbide grade and cutting speed see page A04-2 and 3
Order example: TNMB 43 ER 10 API RD BMA
Thread Turning Inserts
®
A01-40
Chasers
API Round
Pitch
TPI LTaper
IPF
EXTERNAL
Ordering Code X Y T A No. of
Teeth
10 15.75 0.75 15.75 ER 10 API RD 3T 15.435 4.4 4.76 6° 3
8 15.75 0.75 15.75 ER 8 API RD 3T 15.84 4.4 4.76 6° 3
Pitch
TPI LTaper
IPF
INTERNAL
Ordering Code X Y T A No. of
Teeth
10 15.75 0.75 15.75 IR 10 API RD 4T 15.75 5.7 4.76 10° 4
8 15.875 0.75 15.875 IR 8 API RD 4T 15.75 4.2 4.76 10° 4
Chasers to be used with compatible holders on the market
Order example: 15.75 IR 10 API RD 4T BMA
For carbide grade see page A04-2
Order example: 15.75 ER 10 API RD 3T BMA
Thread Turning Inserts
®
A01-41
Chasers
Chasers
API Buttress Casing
OTTM Buttress Casing
Pitch
TPI LTaper
IPF
EXTERNAL
Ordering Code X Y T A No. of
Teeth
5 20 0.75 20 ER 5 BUT 0.75R 15.692 4.84 4.76 6° 3
5 20 0.75 20 ER 5 BUT 0.75F 15.875 2.3 4.76 6° 4
Pitch
TPI LTaper
IPF
EXTERNAL
Ordering Code X Y T A No. of
Teeth
5 20 0.75 20 ER 5 OTTM 0.75R 15.692 4.79 4.76 6° 3
5 20 0.75 20 ER 5 OTTM 0.75F 15.909 2.25 4.76 6° 4
Chasers to be used with compatible holders on the market
Order example: 20 ER 5 OTTM 0.75F BMA
For carbide grade see page A04-2
Order example: 20 ER 5 BUT 0.75F BMA
Thread Turning Inserts
®
A01-42
Chasers
API Buttress Casing
Chasers
OTTM Buttress Casing
Pitch
TPI LTaper
IPF
EXTERNAL
Ordering Code X Y T A No. of
Teeth
5 15.75 0.75 15.75 ER 5 BUT 0.75 3T 15.875 2.3 4.76 10° 3
Pitch
TPI LTaper
IPF
EXTERNAL
Ordering Code X Y T A No. of
Teeth
5 15.75 0.75 15.75 ER 5 OTTM 0.75 3T 15.75 3.0 4.76 6° 3
Pitch
TPI LTaper
IPF
INTERNAL
Ordering Code X Y T A No. of
Teeth
5 15.875 0.75 15.875 IR 5 BUT 0.75 3T 15.75 2.5 4.76 10° 3
Pitch
TPI LTaper
IPF
INTERNAL
Ordering Code X Y T A No. of
Teeth
5 15.875 0.75 15.875 IR 5 OTTM 0.75 3T 15.875 2.5 4.76 10° 3
Chasers to be used with compatible holders on the market
Order example: 15.75 ER 5 OTTM 0.75 3T BMA
For carbide grade see page A04-2
Order example: 15.75 ER 5 BUT 0.75 3T BMA
Thread Turning Inserts
®
A01-43
Chasers
API Buttress Casing
Chasers
OTTM Buttress Casing
Pitch
TPI LTaper
IPF
EXTERNAL
Ordering Code X Y T A No. of
Teeth
5 25 0.75 25 ER 5 BUT 0.75 5T 15.871 2.5 5 10° 5
Pitch
TPI LTaper
IPF
INTERNAL
Ordering Code X Y T A No. of
Teeth
5 25 0.75 25 IR 5 BUT 0.75 5T 15.875 2.5 5 10° 5
Pitch
TPI LTaper
IPF
INTERNAL
Ordering Code X Y T A No. of
Teeth
5 25 0.75 25 IR 5 OTTM 0.75 5T 15.75 2.5 5 10° 5
For carbide grade see page A04-2
Chasers to be used with compatible holders on the market
Order example: 25 IR 5 OTTM 0.75 5T BMA
Order example: 25 IR 5 BUT 0.75 5T BMA
Thread Turning Inserts
®
A01-44
Chasers
API Buttress Casing
Pitch
TPI LTaper
IPF
INTERNAL
Ordering Code X Y T A No. of
Teeth
5 25 0.75 25 IRP 5 BUT 0.75 5T 15.75 2.5 5 10° 5
Pitch
TPI LTaper
IPF
INTERNAL
Ordering Code X Y T A No. of
Teeth
5 25 0.75 25 IRP 5 OTTM 0.75 5T 15.75 2.5 5 10° 5
Chasers to be used with compatible holders on the market
Order example: 25 IRP 5 OTTM 0.75 5T BMA
For carbide grade see page A04-2
Chasers
OTTM Buttress Casing
Order example: 25 IRP 5 BUT 0.75 5T BMA
®
Large Prole Inserts and Toolholders
A01-45
Internal
Large Prole Inserts and Toolholders
Wide range of pitches
Rigid clamping
Tailor made proles according to customer’s
request are possible
External
Pitch
mm
Ordering Code
EX RH Holder
Code
Ordering Code
EX LH
Holder
Code
Ordering Code
IN RH Holder
Code
Ordering Code
IN LH
Holder
Code
14 40 ER 14 TR
H1
40 EL 14 TR
H2
40 IR 14 TR
H7, 6
40 IL 14 TR
H8, 5
16 40 ER 16 TR 40 EL 16 TR 40 IR 16 TR 40 IL 16 TR
18 40 ER 18 TR 40 EL 18 TR 40 IR 18 TR 40 IL 18 TR
20 40 ER 20 TR
H3
40 EL 20 TR
H4
40 IR 20 TR
H9
40 IL 20 TR
H10
22 40 ER 22 TR 40 EL 22 TR 40 IR 22 TR 40 IL 22 TR
24 40 ER 24 TR 40 EL 24 TR 40 IR 24 TR 40 IL 24 TR
Trapez - DIN 103
Carbide grade: BMA or MXC
Order example: 40 ER 18 TR BMA
Large Prole Inserts
®
Large Prole Inserts and Toolholders
A01-46
Pitch Range (mm) 14, 16, 18
Ordering Code B=H L F Insert
Screw Torx Screw Holder No.
EX-RH SER 3232 P40 32 170 32 S40 K40 H1
EX-LH SEL 3232 P40 32 170 32 S40 K40 H2
Pitch Range (mm) 14, 16, 18
Ordering Code B=H L F Insert
Screw Torx Screw Holder No.
EX-RH SER 2525 M40 25 150 32 S40 K40 *H5
EX-LH SEL 2525 M40 25 150 32 S40 K40 *H6
Pitch Range (mm) 20, 22, 24
Ordering Code B=H L F Insert
Screw
Side
Screw
Torx
Screw
Holder
No.
EX-RH SER 3232 P40T 32 170 32 S40 A27 K40 H3
EX-LH SEL 3232 P40T 32 170 32 S40 A27 K40 H4
External Holders
* H5 and H6 toolholders to be used with toolbar provided by the customer
®
Large Prole Inserts and Toolholders
A01-47
Pitch Range (mm) 14, 16, 18
Ordering Code DMin Bore
Diam. L F Insert
Screw
Torx
Screw
Holder
No.
IN-RH SIR 0050 V40 50 70 400 37 S40 K40 H7
IN-LH SIL 0050 V40 50 70 400 37 S40 K40 H8
Pitch Range (mm) 20, 22, 24
Ordering Code D
Min
Bore
Diam.
L F Insert
Screw
Side
Screw
Torx
Screw
Holder
No.
IN-RH SIR 0050 V40T 50 70 400 37 S40 A27 K40 H9
IN-LH SIL 0050 V40T 50 70 400 37 S40 A27 K40 H10
Internal Holders
®
Large Prole Inserts and Toolholders
A01-48
Pitch mm Ordering Code
EX RH Holder Code Ordering Code
IN RH Holder Code
930 ER 9 SAGE S1, 2 30 IR 9 SAGE S7
10 40 ER 10 SAGE S3, 4 40 IR 10 SAGE S8
12 40 ER 12 SAGE S3, 4 40 IR 12 SAGE S9
14 40 ER 14 SAGE S5 40 IR 14 SAGE S10
16 40 ER 16 SAGE S6 40 IR 16 SAGE S11
DIN 513
Carbide grade: BMA or MXC
Order example: 40 ER 10 SAGE MXC
Large Prole Sagengewinde Inserts
Additional proles upon request
Round (DIN 20400)
Acme, Stub Acme
American Buttress
®
Large Prole Inserts and Toolholders
A01-49
Ordering Code B=H L F Insert
Screw
Torx
Screw Version Holder No.
EX-RH
SER 2525 M30 25 150 25 S30 K30 B S1
SER 3232 P30 32 170 32 S30 K30 B S2
SER 2525 M40T 25 150 25 S40 K40 B S3
SER 3232 P40S 32 170 32 S40 K40 B S4
SER 3232 P40W 32 170 32 S40 K40 B S5
SER 3232 P40Q 32 170 32 S40 K40 A S6
External Holders
Version A Version B
The ank with the large angle is the leading edge
®
Large Prole Inserts and Toolholders
A01-50
Ordering Code DMin Bore
Diam. L L1 F Insert
Screw
Torx
Screw
Holder
No.
IN-RH
SIR 0032 S30 32 40.0 250 120 24.0 S30 K30 S7
SIR 0040 T40 40 49.0 300 140 28.0 S40 K40 S8
SIR 0050 U40 50 65.0 350 - 35.0 S40 K40 S9
SIR 0060 V40 60 80.0 400 - 41.0 S40 K40 S10
SIR 0060 V40T 60 80.0 400 - 43.0 S40 K40 S11
Internal Holders
®
Thread Turning Toolholders
A02-1
Contents: Contents: Page:
Thread Turning
Toolholders and Kits
A02
Product Identication 2
External Toolholders 3
O-Set Toolholders 4
External Toolholders with Top Clamp 5
Vertical Toolholders 5
Slim Throat Toolholders 5
Drophead Toolholders 6
Gang Toolholders 6
X-tream Jet:
External Toolholder with Internal Coolant 7
Internal Toolholders 8
Internal Toolholders with Coolant Bore 9
Internal Toolholders with Top Clamp 9
Toolholders with 3.5˚ Helix Angle 9
Special Thread Turning Applications 10
Carbide Shank Threading Bars 11
Vertical Toolholders 11
Star Toolholders 22 12
Modular Line 13
Applications 14
Product Identication 15
ML Turning Adaptors 16
Boring Bars 16
Quick Change 17
External Toolholders 17
Internal Toolholders 18
Thread Helix Angle 19
Standard and Slanted Anvils 19
Anvil Kits 20
Standard Kits 21
Miniature & Ultra-Miniature Kits 21
Inserts' Kits 22
Threading & Boring Combination Kit 23
Page:
®
Thread Turning Toolholders
A02-2
Product Identication
Threading Toolholders Ordering Codes
S E R K 162020
Clamping
Method
D = Clamp
S = Screw
E = External
I = Internal
Insert
Pocket Size
L
06
08
08U
11
16
22
22U
27
27U
33U
I.C.
5/32”
3/16”
3/16”U
1/4”
3/8”
1/2”
1/2”U
5/8”
5/8”U
3/4”U
Shank Cross Section:
External toolholders
square shank
2020 = 20 mm x 20 mm
Internal toolholders
& boring bars
round shank
0020 = Diam. of 20 mm
Length of
Toolholder:
mm
D = 60
F = 80
H = 100
K = 125
L = 140
M = 150
P = 170
R = 200
S = 250
T = 300
U = 350
V = 400
B - With coolant bore
CB - Carbide shank
V - Vertical (on edge)
O - Oset style
D - Drop head
G - Gang tool
U - U-TYPE
R = Right Hand
L = Left Hand
®
Thread Turning Toolholders
A02-3
External Toolholders
*Toolholders with no anvil
For
LEFT HAND
toolholders specify SE
L
instead of SE
R
Toolholders are made with a 1.5˚ Helix Angle. For other Helix Angles
please see helix angle chart (page A04-7) in the technical section of this catalog.
B
L
FB
L
F
B
HB
H
U-TYPE
Ordering Code
Right Hand B=H L F Insert
Screw
Anvil
Screw
Torx
Key
RH
Anvil
LH
Anvil
*SER 8 8 H11 11 8 100 11 S11 -K11 - -
*SER 1010 H11 11 10 100 11 S11 -K11 - -
*SER 1010 M11 11 10 150 11 S11 -K11 - -
*SER 1212 K11 11 12 125 12 S11 -K11 - -
*SER 1212 M11 11 12 150 12 S11 -K11 - -
SER 1212 F16 16 12 80 16 S16 A16 K16 AE16 AI16
SER 1616 H16 16 16 100 16 S16 A16 K16 AE16 AI16
SER 2020 K16 16 20 125 20 S16 A16 K16 AE16 AI16
SER 2525 M16 16 25 150 25 S16 A16 K16 AE16 AI16
SER 3232 P16 16 32 170 32 S16 A16 K16 AE16 AI16
SER 2525 M22 22 25 150 25 S22 A22 K22 AE22 AI22
SER 3232 P22 22 32 170 32 S22 A22 K22 AE22 AI22
SER 4040 R22 22 40 200 40 S22 A22 K22 AE22 AI22
SER 2525 M22U 22U 25 150 28 S22 A22 K22 AE22U AI22U
SER 3232 P22U 22U 32 170 32 S22 A22 K22 AE22U AI22U
SER 4040 R22U 22U 40 200 40 S22 A22 K22 AE22U AI22U
SER 2525 M27 27 25 150 32 S27 A27 K27 AE27 AI27
SER 3232 P27 27 32 170 32 S27 A27 K27 AE27 AI27
SER 4040 R27 27 40 200 40 S27 A27 K27 AE27 AI27
SER 2525 M27U 27U 25 150 32 S27 A27 K27 AE27U AI27U
SER 3232 P27U 27U 32 170 32 S27 A27 K27 AE27U AI27U
SER 4040 R27U 27U 40 200 40 S27 A27 K27 AE27U AI27U
*SER 2525 M33U 33U 25 150 32 S33 - K33 - -
*SER 3232 P33U 33U 32 170 32 S33 - K33 - -
L
®
Thread Turning Toolholders
A02-4
O-Set Toolholders
Ordering Code
Right Hand LB=H L F Insert
Screw
Anvil
Screw
Torx
Key
RH
Anvil
LH
Anvil
SER 1212 F16-O 16 12 8 16 S16 A16 K16 AE16 AI16
SER 1616 H16-O 16 16 100 20 S16 A16 K16 AE16 AI16
SER 2020 K16-O 16 20 125 25 S16 A16 K16 AE16 AI16
SER 2525 M16-O 16 25 150 32 S16 A16 K16 AE16 AI16
SER 3232 P16-O 16 32 170 40 S16 A16 K16 AE16 AI16
SER 2525 M22-O 22 25 150 32 S22 A22 K22 AE22 AI22
SER 3232 P22-O 22 32 170 40 S22 A22 K22 AE22 AI22
B
FB
L
H
®
Thread Turning Toolholders
A02-5
External Toolholders With Top Clamp
Vertical Toolholders
Slim Throat Toolholders
Ordering Code
Right Hand LB=H L F Insert
Screw Clamp Anvil
Screw
Torx
Key
RH
Anvil
LH
Anvil
DER 1212 H16 16 12 100 16 S16 C16 A16S K16 AE16 AI16
DER 1616 H16 16 16 100 16 S16 C16 A16S K16 AE16 AI16
DER 2020 K16 16 20 125 20 S16 C16 A16S K16 AE16 AI16
DER 2525 M16 16 25 150 25 S16 C16 A16S K16 AE16 AI16
*DER 2525 M22 22 25 150 25 S22 C22 A22 K22 AE22 AI22
For
LEFT HAND
toolholders specify DE
L
instead of DE
R
Toolholders are made with a 1.5˚ Helix Angle. For other Helix Angles
please see helix angle chart in the technical section of this catalog.
Two clamping methods can be used: screw or top clamp.
*Use K21 torx key for C22 clamp
Ordering Code
Right Hand B=H L F Insert
Screw
Torx
Key
SER 1616 H16VS 16 16 100 18 S16S K16
SER 2020 K16VS 16 20 125 22 S16S K16
SER 2525 M16VS 16 25 150 27 S16S K16
SER 2525 M22VS 22 25 150 27 S22S K22
Ordering Code
Right Hand B=H L F Insert
Screw
Torx
Key
SER 1616 H16V 16 16 100 18 S16S K16
SER 2020 K16V 16 20 125 22 S16S K16
SER 2525 M16V 16 25 150 27 S16S K16
SER 2525 M22V 22 25 150 27.5 S22S K22
SER 3232 P27V-T10 27 32 170 36 S27 K27
L
H
F
B
B
B
B
L
H
F
L
H
F
B
B
®
Thread Turning Toolholders
A02-6
A
A
C
C2
C1
A1
F
Ordering Code
Right Hand A A1 C C1 F C2 Insert
Screw
Anvil
Screw
Torx
Key
RH
Anvil
LH
Anvil
SER 2020 K16D 16 20 20 125 21.0 25 38 S16 A16 K16 AE16 AI16
SER 2525 M16D 16 25 25 150 21.0 32 38 S16 A16 K16 AE16 AI16
SER 2525 M22D 22 25 25 150 21.0 32 38 S22 A22 K22 AE22 AI22
L
Drophead Toolholders
Gang Toolholders
Ordering Code
Right Hand B=H L F Insert
Screw
Anvil
Screw
Torx
Key
RH
Anvil
LH
Anvil
*SER 8 8 H11G 11 8 100 12.0 S11 -K11 - -
*SER 1010 H11G 11 10 100 14.0 S11 -K11 - -
SER 1616 K16G 16 16 125 21.7 S16 A16 K16 AE16 AI16
SER 2020 K16G 16 20 125 26.2 S16 A16 K16 AE16 AI16
L
*Toolholders with no anvil
For
LEFT HAND
toolholders specify SE
L
instead of SE
R
Gang Toolholders are
External Holders, used in
small automatic machines
with a gang tool post.
RIGHT HAND SHOWN
H
RIGHT HAND SHOWN
L
FB
®
Thread Turning Toolholders
A02-7
For
LEFT HAND
toolholders specify SE
L
instead of SE
R
Toolholders made with 1.5 helix angle
Please consult the helix angle chart page A04-7 in the technical section of this catalog
* Standard packing with Ø6 mm
Carmex has developed a unique external thread turning holder with internal coolant to the
cutting edge.
The holder includes two connecting options through an elbow tting and a top clamp
directing the coolant ow to the cutting edge.
The coolant ow provides:
Better chip control and chip ow
Longer tool life and high performance
Reduces the cutting edge temperature
Available RH and LH toolholders
Coated holders provide abrasive resistance
x
-tream Jet
External Toolholder with Internal Coolant
Coolant Head
Coolant Connector
H
B
F
Ordering Code B=H L F
Insert
Screw
Torx +
Anvil
Screw
Torx +
Key
Torx +
RH
Anvil
LH
Anvil
Coolant
head
Coolant*
Connector
mm
SER 1616 H16B 16 16 100 16 S16P A16P K16P AE16 AI16 CH3 Ø4/Ø6
SER 2020 K16B 16 20 125 20 S16P A16P K16P AE16 AI16 CH1 Ø4/Ø6
SER 2525 M16B 16 25 150 25 S16P A16P K16P AE16 AI16 CH1 Ø4/Ø6
SER 2525 M22B 22 25 150 25 S22P A22P K22P AE22 AI22 CH1 Ø4/Ø6
SER 2525 M27B 27 25 150 32 S27P A27P K27P AE27 AI27 CH1 Ø4/Ø6
SER 3232 P16B 16 32 170 32 S16P A16P K16P AE16 AI16 CH1 Ø4/Ø6
SER 3232 P22B 22 32 170 32 S22P A22P K22P AE22 AI22 CH1 Ø4/Ø6
SER 3232 P27B 27 32 170 32 S27P A27P K27P AE27 AI27 CH1 Ø4/Ø6
L
mm
Demonstration
®
Thread Turning Toolholders
A02-8
Internal Toolholders
*Toolholders with no anvil
For
LEFT HAND
toolholders specify SI
L
instead of SI
R
Toolholders are made with a 1.5˚ Helix Angle. For other Helix Angles
please see helix angle chart (page A04-7) in the technical section of this catalog.
L
F
D
Min. Bore
L
F
D
Min. Bore
D
L
F
D1
L1
U-TYPE
Ordering Code
Right Hand D D1
Min
Bore
Diam.
L L1 F Insert
Screw
Anvil
Screw
Torx
Key
RH
Anvil
LH
Anvil
*SIR 0005 H06 6 12 5.1 6.0 100 12 4.3 S06 - K06 - -
*SIR 0007 K08 8 16 6.6 7.8 125 18 5.3 S08 - K08 - -
*SIR 0008 K08U 8U 16 7.3 9.0 125 21 6.6 S08 - K08 - -
*SIR 0010 H11 11 10 10 12 100 - 7.4 S11 -K11 - -
*SIR 0010 K11 11 16 10 12 125 25 7.4 S11 -K11 - -
*SIR 0013 L11 11 16 13 15 140 32 8.9 S11 -K11 - -
*SIR 0013 M16 16 16 13 16 150 32 10.2 S16S - K16 - -
*SIR 0016 P16 16 20 16 19 170 40 11.7 S16S - K16 - -
SIR 0020 P16 16 20 20 24 170 - 13.7 S16 A16 K16 AI16 AE16
SIR 0025 R16 16 25 25 29 200 - 16.2 S16 A16 K16 AI16 AE16
SIR 0032 S16 16 32 32 36 250 - 19.7 S16 A16 K16 AI16 AE16
SIR 0040 T16 16 40 40 44 300 - 23.7 S16 A16 K16 AI16 AE16
SIR 0050 U16 16 50 50 54 350 - 28.7 S16 A16 K16 AI16 AE16
*SIR 0020 P22 22 20 20 24 170 - 15.6 S22S - K22 - -
SIR 0025 R22 22 25 25 29 200 - 18.1 S22 A22 K22 AI22 AE22
SIR 0032 S22 22 32 32 38 250 - 21.6 S22 A22 K22 AI22 AE22
SIR 0040 T22 22 40 40 46 300 - 25.6 S22 A22 K22 AI22 AE22
SIR 0050 U22 22 50 50 56 350 - 30.6 S22 A22 K22 AI22 AE22
SIR 0032 S22U 22U 32 32 38 250 - 24.4 S22 A22 K22 AI22U AE22U
SIR 0040 T22U 22U 40 40 46 300 - 28.1 S22 A22 K22 AI22U AE22U
SIR 0050 U22U 22U 50 50 57 350 - 30.8 S22 A22 K22 AI22U AE22U
SIR 0032 S27 27 32 32 40 250 - 22.6 S27 A27 K27 AI27 AE27
SIR 0040 T27 27 40 40 48 300 - 26.6 S27 A27 K27 AI27 AE27
SIR 0050 U27 27 50 50 58 350 - 31.6 S27 A27 K27 AI27 AE27
SIR 0060 V27 27 60 60 68 400 - 36.6 S27 A27 K27 AI27 AE27
SIR 0032 S27U 27U 32 32 40 250 - 25.8 S27 A27 K27 AI27U AE27U
SIR 0040 T27U 27U 40 40 48 300 - 29.4 S27 A27 K27 AI27U AE27U
SIR 0050 U27U 27U 50 50 58 350 - 34.4 S27 A27 K27 AI27U AE27U
SIR 0060 V27U 27U 60 60 68 400 - 39.7 S27 A27 K27 AI27U AE27U
*SIR 0050 U33U 33U 50 50 62 350 - 37.5 S33 - K33 - -
L
Min. Bore
Min. Bore
®
Thread Turning Toolholders
A02-9
Ordering Code
Right Hand D D1
Min
Bore
Diam.
L L1 F Insert
Screw
Anvil
Screw
Torx
Key
RH
Anvil
LH
Anvil
*SIR 0010 K11B 11 16 10 12 125 25 7.4 S11 -K11 - -
*SIR 0013 M16B 16 16 13 16 150 32 10.2 S16S - K16 - -
*SIR 0016 P16B 16 20 16 19 170 40 11.7 S16S - K16 - -
SIR 0020 P16B 16 20 20 24 170 - 13.7 S16 A16 K16 AI16 AE16
SIR 0025 R16B 16 25 25 29 200 - 16.2 S16 A16 K16 AI16 AE16
SIR 0025 R22B 22 25 25 29 200 - 18.1 S22 A22 K22 AI22 AE22
SIR 0032 S16B 16 32 32 36 250 - 19.7 S16 A16 K16 AI16 AE16
Ordering Code
Right Hand D D1
Min
Bore
Diam.
L L1 F Insert
Screw Clamp Anvil
Screw
Torx
Key
RH
Anvil
LH
Anvil
DIR 0020 P16 16 20 20 24 170 - 13.7 S16 C16 A16S K16 AI16 AE16
DIR 0025 R16 16 25 25 29 200 - 16.2 S16 C16 A16S K16 AI16 AE16
DIR 0032 S16 16 32 32 36 250 - 19.7 S16 C16 A16S K16 AI16 AE16
* DIR 0025 R22 22 25 25 29 200 - 18.1 S22 C22 A22 K22 AI22 AE22
Ordering Code
Right Hand D D1
Min
Bore
Diam. mm
L L1 F Insert
Screw
Torx
Key
SIR 0016 P16B-3.5 16 20 16 19 170 40 13.7 S16S K16
SIR 0020 P22B-3.5 22 20 20 24 170 - 15.6 S22S K22
L
L
L
Internal Toolholders with Coolant Bore
Internal Toolholders with Top Clamp
Toolholders with 3.5˚ Helix Angle
*Toolholders without anvil
For
LEFT HAND
toolholders specify SI
L
instead of SI
R
Toolholders are made with a 1.5˚ Helix Angle. For other Helix Angles
please see helix angle chart (page A04-7) in the technical section of this catalog.
For
LEFT HAND
toolholders specify DI
L
instead of DI
R
Two clamping methods can be used: screw or top clamp.
*Use K21 torx key for C22 clamp
For
LEFT HAND
toolholders specify SI
L
instead of SI
R
L
D1
L1
F
Min. Bore
D
F
LD
L1
D1
Min. Bore
®
Thread Turning Toolholders
A02-10
Special Thread Turning Applications
For LH holders call Carmex
* Only right hand available
Ordering Code
Right Hand D D1 L L1 F Thread Insert
Screw
Torx
Key
*SIR 0009 K08 8 16 8.7 125 30 6.5 1/2 - 13UNC S08 K08
SIR 0012 L16B 16 20 11.5 140 33 10.5 TR18x4 S16S K16
SIR 0014 L16B 16 20 12.5 140 36 21.1 TR20x4 S16S K16
SIR 0014 M16UB 16 20 13.5 150 40 13.2 TR22x5 S16S K16
SIR 0025 S22UB 22 25 - 250 19.5 TR40x7 S22S K22
®
Thread Turning Toolholders
A02-11
With coolant bore
* Carbide shank Threading bars with anvil
** Helix angle: 3.5˚
For
LEFT HAND
toolholders specify SI
L
instead of SI
R
Carbide Shank Threading Bars
are used when chatter and
deection are expected due
to long overhang in deep
small bores.
LD
L1
D1
F
With internal
coolant bore
Carbide Shank Threading Bars
Min. Bore
Ordering Code
Right Hand D D1
Min
Bore
Diam.
L L1 F Insert
Screw
Anvil
Screw
Torx
Key
RH
Anvil
LH
Anvil
SIR 0005 H06CB 6 6 5.1 6.0 100 26 4.3 S06 - K06 - -
SIR 0007 K08CB 8 8 6.6 7.8 125 31 5.3 S08 - K08 - -
SIR 0008 K08UCB 8U 8 7.3 9.0 125 35 6.6 S08 - K08 - -
SIR 0010 M11CB 11 10 10 12 150 - 7.4 S11 -K11 - -
SIR 0012 P11CB 11 12 12 15 170 - 8.4 S11 -K11 - -
SIR 0016 R16CB 16 16 16 19 200 - 11.7 S16S - K16 - -
SIR 0020 S16CB 16 20 20 24 250 - 13.7 S16 A16 K16 AI16 AE16
SIR 0025 S16CB 16 25 25 29 250 - 16.2 S16 A16 K16 AI16 AE16
**SIR 0020 S22CB 22 20 19.3 24 250 100 15.6 S22 - K22 - -
L
*
*
Vertical Toolholders
Ordering Code
Right Hand
D
* Min
Bore
Diam.
L F Insert
Screw
Torx
Key
SIR 0040T27V-T10 27 40 48 300 29 S27 K27
SIR 0050U27V-T10 27 50 58 350 34 S27 K27
L
* To be compared with given minimum bore prole.
For
LEFT HAND
toolholders specify SI
L
instead of SI
R
Min. Bore
®
Thread Turning Toolholders
A02-12
Star Toolholders 22
For
LEFT HAND
toolholders specify SE
L
instead of SE
R
Ordering Code
Right Hand D L L1 F Insert
Screw
Anvil
Screw
Torx
Key
RH
Anvil
LH
Anvil
SER 0022 H11 11 22 100 40 13.3 S11 -K11 - -
SER 0022 H16 16 22 100 40 14.6 S16 A16 K16 AE16 AI16
F
L1
L
D
SER0022H16
F
L1
L
D
SER0022H11
STAR HOLDERS Ø22
®
Modular Line
A02-13
Modular Line
High accurate turning ML adaptors provide full exibility and easy adjustment.
Full repeatability.
A single boring bar ts to multi ML adaptors.
Reduces tool inventories - investing in a single boring bar, right and left hand ML
adaptors from the same size.
ML adaptors support all Carmex standard thread turning inserts sizes 16, 22 and 27 mm.
Grooving inserts size 16 mm t the MLR/L 16 - 32 and MLR / L 16 - 40 adaptors.
ML adaptors are coated with a high abrasive resistant nickel layer to prolong the ML
adaptors tool life.
Turning adaptors and boring bars
for internal applications of threading and grooving.
Advantages
Internal machining
Deep threads require high overhang with maximum rigidity
Grooving
Can be used on a large range of turning or multi-task machines
Applications
Demonstration
®
Modular Line
A02-14
ML boring bars and adaptors are designed with internal coolant allowing high
pressure up to 120 Bar.
High pressure coolant reduces the cutting edge temperature, provides a better
chip evacuation and improves tool life.
The tools can also be used with normal coolant pressure.
High pressure coolant
Maximum overhang: 4 x D
Applications
®
Modular Line
A02-15
Product Identication
Modular Line
Shank
MLS 0025
Internal Toolholder
Round Shank
0025 = ø25 mm
0032 = ø32 mm
0040 = ø40 mm
R
Length of
Toolholder
R = 200 mm
S = 250 mm
T = 300 mm
Modular Line
Adaptor Diameter
25 = ø25 mm
32 = ø32 mm
40 = ø40 mm
ML
25
R 16
R = Right Hand
L = Left Hand Insert Size
16
22
22U
27
27U
ML Turning adaptors
Boring Bars
®
Modular Line
A02-16
ML Turning Adaptors
Boring Bars
D Ordering Code I.C.
in
Min
Bore
Diam.
L F Insert
Screw
Anvil
Screw
Torx
Key
RH
Anvil
LH
Anvil
25 *MLR 16 - 25 16 3/8 29 30 16.2 S16P - K16P - -
25 *MLR 22 - 25 22 1/2 29 30 18.1 S22P - K22P - -
32 MLR 16 - 32 16 3/8 36 43 19.7 S16P A16P K16P AI16 AE16
32 MLR 22 - 32 22 1/2 38 43 21.6 S22P A22P K22P AI22 AE22
32 MLR 22U - 32 22U 1/2U 38 43 24.4 S22P A22P K22P AI22U AE22U
40 MLR 16 - 40 16 3/8 44 43 23.7 S16P A16P K16P AI16 AE16
40 MLR 22 - 40 22 1/2 46 43 25.6 S22P A22P K22P AI22 AE22
40 MLR 22U - 40 22U 1/2U 46 43 28.1 S22P A22P K22P AI22 AE22
40 MLR 27 - 40 27 5/8 48 43 26.6 S27P A27P K27P AI27 AE27
40 MLR 27U - 40 27U 5/8U 48 43 29.4 S27P A27P K27P AI27U AE27U
L
D Ordering Code L H C Screw Key
25 MLS 0025 R 200 23 G1/4” S420, S435 K3
32 MLS 0032 S 250 30 G3/8” S520, S550 K4
40 MLS 0040 T 300 36 G1/2” S520, S550 K4
*Toolholders with no anvil
For
LEFT HAND
toolholders specify ML
L
instead of ML
R
External ML adaptors (for external threads) are available upon request and can be used on
the same MLS boring bars.
®
Thread Turning Toolholders
A02-17
Quick Change
Polygon Threading Toolholders
Polygon shank
ISO standard (26623) compliant for toolholding systems
Polygon taper ensures automatic radial centering and even pressure around the coupling
Enable quick tool changes ISO standard coupling system with a 1.4 degree tapered polygon
shank design
Interchangeable with leading manufacturers
External Toolholders
Equivalent
to... Ordering Code D F L Insert
Screw
Anvil
Screw
Torx
key
RH
Anvil
LH
Anvil
C4
P40-SER 27050-16
16 40 27 50 S16 A16 K16 AE16 AI16
C5
P50-SER 35060-16
16 50 35 60 S16 A16 K16 AE16 AI16
C6
P63-SER 45065-16
16 63 45 65 S16 A16 K16 AE16 AI16
C4
P40-SER 27050-22
22 40 27 50 S22 A22 K22 AE22 AI22
C5
P50-SER 35060-22
22 50 35 60 S22 A22 K22 AE22 AI22
C6
P63-SER 45065-22
22 63 45 65 S22 A22 K22 AE22 AI22
C8
P80-SER 55080-16
16 80 55 80 S16 A16 K16 AE16 AI16
C8
P80-SER 55080-22
22 80 55 80 S22 A22 K22 AE22 AI22
C6
P63-SER 45065-27
27 63 45 65 S27 A27 K27 AE27 AI22
Internal Coolant Bore
L
D
F
For
LEFT HAND
toolholders specify SE
L
instead of SE
R
®
Thread Turning Toolholders
A02-18
Internal Toolholders
Min. Bore
Internal Coolant Bore
D
F
L1
L2
Equivalent
to... Ordering Code D F
Min.
Bore
Dia.
L1 L2 Insert
Screw
Anvil
Screw
Torx
key
RH
Anvil
LH
Anvil
C4
* P40-SIR 12060-16
16 40 11.7 20 60 37 S16 - K16 - -
P40-SIR 14060-16
16 40 13.5 25 60 38 S16 A16 K16 AI16 AE16
P40-SIR 17070-16
16 40 16.0 29 70 48 S16 A16 K16 AI16 AE16
P40-SIR 22090-16
16 40 19.5 36 90 69 S16 A16 K16 AI16 AE16
P40-SIR 27080-16
16 40 23.5 44 80 60 S16 A16 K16 AI16 AE16
C5
* P50-SIR 12060-16
16 50 11.7 20 60 35 S16 - K16 - -
P50-SIR 14060-16
16 50 13.5 25 60 36 S16 A16 K16 AI16 AE16
P50-SIR 17070-16
16 50 16.0 29 70 47 S16 A16 K16 AI16 AE16
P50-SIR 22090-16
16 50 19.5 36 90 68 S16 A16 K16 AI16 AE16
P50-SIR 27105-16
16 50 23.5 44 105 84 S16 A16 K16 AI16 AE16
C6
P63-SIR 14070-16
16 63 13.5 25 70 42 S16 A16 K16 AI16 AE16
P63-SIR 17075-16
16 63 16.0 29 75 48 S16 A16 K16 AI16 AE16
P63-SIR 22090-16
16 63 19.5 36 90 64 S16 A16 K16 AI16 AE16
P63-SIR 27105-16
16 63 23.5 44 105 80 S16 A16 K16 AI16 AE16
C4
* P40-SIR 15065-22
22 40 15.4 25 65 42 S22 - K22 - -
P40-SIR 19070-22
22 40 17.9 29 70 48 S22 A22 K22 AI22 AE22
P40-SIR 22090-22
22 40 21.4 38 90 69 S22 A22 K22 AI22 AE22
P40-SIR 27080-22
22 40 25.4 46 80 60 S22 A22 K22 AI22 AE22
C5
* P50-SIR 15065-22
22 50 15.4 25 65 41 S22 - K22 - -
P50-SIR 19070-22
22 50 17.9 29 70 47 S22 A22 K22 AI22 AE22
P50-SIR 22090-22
22 50 21.4 38 90 68 S22 A22 K22 AI22 AE22
P50-SIR 27105-22
22 50 25.4 46 105 84 S22 A22 K22 AI22 AE22
P63-SIR 19075-22
22 63 17.9 29 75 48 S22 A22 K22 AI22 AE22
C6
P63-SIR 22090-22
22 63 21.4 38 90 64 S22 A22 K22 AI22 AE22
P63-SIR 27105-22
22 63 25.4 46 105 80 S22 A22 K22 AI22 AE22
For
LEFT HAND
toolholders specify SI
L
instead of SI
R
* Holders without anvil
®
Thread Turning Toolholders
A02-19
Standard and Slanted Anvils
Carmex Toolholder Pockets have a built in 1.5º helix angle. This angle may be
adjusted to better match the thread helix angle by simply changing the anvil.
Negative helix is usually used when threading RH thread with LH Holder or LH
thread with RH Holder.
Thread Helix Angle
LIC Pocket Angle 4.5˚3.5˚2.5˚1.5˚0.5˚-0.5˚-1.5˚
Standard
16 3/8 EX-RH OR IN-LH AE16+4.5 AE16+3.5 AE16+2.5 AE16 AE16+0.5 AE16-0.5 AE16-1.5
16 3/8 EX-LH OR IN-RH AI 16+4.5 AI 16+3.5 AI 16+2.5 AI 16 AI 16+0.5 AI 16-0.5 AI 16-1.5
22 1/2 EX-RH OR IN-LH AE22+4.5 AE22+3.5 AE22+2.5 AE22 AE22+0.5 AE22-0.5 AE22-1.5
22 1/2 EX-LH OR IN-RH AI 22+4.5 AI 22+3.5 AI 22+2.5 AI 22 AI 22+0.5 AI 22-0.5 AI 22-1.5
22U 1/2U EX-RH OR IN-LH AE22U+4.5 AE22U+3.5 AE22U+2.5 AE22U AE22U+0.5 AE22U-0.5 AE22U-1.5
22U 1/2U EX-LH OR IN-RH AI 22U+4.5 AI 22U+3.5 AI 22U+2.5 AI 22U AI 22U+0.5 AI 22U-0.5 AI 22U-1.5
27 5/8 EX-RH OR IN-LH AE27+4.5 AE27+3.5 AE27+2.5 AE27 AE27+0.5 AE27-0.5 AE27-1.5
27 5/8 EX-LH OR IN-RH AI 27+4.5 AI 27+3.5 AI 27+2.5 AI 27 AI 27+0.5 AI 27-0.5 AI 27-1.5
27U 5/8U EX-RH OR IN-LH AE27U+4.5 AE27U+3.5 AE27U+2.5 AE27U AE27U+0.5 AE27U-0.5 AE27U-1.5
27U 5/8U EX-LH OR IN-RH AI 27U+4.5 AI 27U+3.5 AI 27U+2.5 AI 27U AI 27U+0.5 AI 27U-0.5 AI 27U-1.5
30 mm (1.18 )
1.5 mm (16 TPI)
20 x 1.5
30
®
A02-20
Anvils and Anvil Kits
Ordering Code Contents
KA16 AE16+4.5 AE16+3.5 AE16+2.5 AE16+0.5 AE16-1.5
AI 16+4.5 AI 16+3.5 AI 16+2.5 AI 16+0.5 AI 16-1.5
KA22 AE22+4.5 AE22+3.5 AE22+2.5 AE22+0.5 AE22-1.5
AI 22+4.5 AI 22+3.5 AI 22+2.5 AI 22+0.5 AI 22-1.5
KA22U AE22U+4.5 AE22U+3.5 AE22U+2.5 AE22U+0.5 AE22U-1.5
AI 22U+4.5 AI 22U+3.5 AI 22U+2.5 AI 22U+0.5 AI 22U-1.5
KA27 AE27+4.5 AE27+2.5 AE27-1.5
AI 27+4.5 AI 27+2.5 AI 27-1.5
KA27U AE27U+4.5 AE27U+2.5 AE27U-1.5
AI 27U+4.5 AI 27U+2.5 AI 27U-1.5
Anvil Kits
5 AE and 5 AI anvils with various helix angles
®
Thread Turning Kits
A02-21
Miniature & Ultra-Miniature Kits
Ordering Code No. of
Inserts
Contents
Type Inserts Boring Bar Key
KU60M - BXC ULTRA 10 06 IR A60 BXC SIR 0005 H06 K6
KM60M - BXC MINI 10 08 IR A60 BXC SIR 0007 K08 K8
Standard Kits
INSERTS
16 ER A60 P25C
16 ER G60 P25C
16 ER 0.75 ISO P25C
16 ER 1.0 ISO P25C
16 ER 1.25 ISO P25C
16 ER 1.5 ISO P25C
16 ER 1.75 ISO P25C
16 ER 2.0 ISO P25C
16 ER 2.5 ISO P25C
16 ER 3.0 ISO P25C
TOOLHOLDERS
SER 2020 K16
KEY
K16
SCREW
S16
INSERTS
16 IR A60 P25C
16 IR G60 P25C
16 IR 0.75 ISO P25C
16 IR 1.0 ISO P25C
16 IR 1.25 ISO P25C
16 IR 1.5 ISO P25C
16 IR 1.75 ISO P25C
16 IR 2.0 ISO P25C
16 IR 2.5 ISO P25C
16 IR 3.0 ISO P25C
TOOLHOLDERS
SIR 0020 P16
KEY
K16
SCREW
S16
If a larger toolholder with a 25 mm shank is required, add to the kit 25. For example: KIG - 25
BMA grade is also available. For example: KEG - BMA
Threading Kits are a versatile solution
for users that cut a variety of thread
types in limited quantity and do not want
to sacrice thread quality.
External ISO Kit
Ordering Code: KEG
Internal ISO Kit
Ordering Code: KIG
®
Thread Turning Kits
A02-22
Inserts’ Kits
Standard Inserts’ Kits
Type B Kits
Type B threading inserts.
A combination of ground prole and
sintered chip-breaker threading inserts.
BMA Grade: Sub-Micron carbide grade
with TiAlN multi-layer Coating.
16 ER B 1.0 ISO BMA-2 Pcs
16 ER B 1.25 ISO BMA-2 Pcs
16 ER B 1.5 ISO BMA-2 Pcs
16 ER B 1.75 ISO BMA-2 Pcs
16 ER B 2.0 ISO BMA-2 Pcs
16 ER 1.0 ISO-2 Pcs
16 ER 1.25 ISO-2 Pcs
16 ER 1.5 ISO-2 Pcs
16 ER 1.75 ISO-2 Pcs
16 ER 2.0 ISO-2 Pcs
EXTERNAL ISO KIT
KEMB - BMA
EXTERNAL ISO KIT
16 IR B 1.0 ISO BMA-2 Pcs
16 IR B 1.25 ISO BMA-2 Pcs
16 IR B 1.5 ISO BMA-2 Pcs
16 IR B 1.75 ISO BMA-2 Pcs
16 IR B 2.0 ISO BMA-2 Pcs
16 IR 1.0 ISO-2 Pcs
16 IR 1.25 ISO-2 Pcs
16 IR 1.5 ISO-2 Pcs
16 IR 1.75 ISO-2 Pcs
16 IR 2.0 ISO-2 Pcs
INTERNAL ISO KIT
KIMB - BMA
INTERNAL ISO KIT
IN-RH
EX-RH
BMA
BLU
HBA
BMA
BLU
HBA
Ordering Code: KEM Ordering Code: KIM
®
Thread Turning Kits
A02-23
A practical and convenient combination
kit for Ultra Miniature Threading and
Boring. It enables Boring and Threading
of mini bores as small as
6 mm diameter (1/4”)
with just one deep reaching
Carbide shank ultra mini Boring Bar.
BMA - Coated carbide grade for medium to high cutting speeds
BXC - Coated carbide grade for low cutting speed - 40 to 90 m/min
CB - Carbide shank boring bar with coolant bore
Ordering Code Contents
Threading Insert Turning Inserts Boring Bar Key
KC6TM 06 IR A60 BXC 06 IR TURN BMA SIR 0005 H06CB K6
10 Pcs 10 Pcs
Threading & Boring Combination Kit
®
Thread Turning Kits
A02-24
®
A03-1
A unique line of 2 sided inserts including 6 cutting edges, a cost saving tool.
Contents: Contents:
Product Identication 2
Partial Prole 60º 3
Partial Prole 55º 3
ISO 4
UN 4
Whitworth 55º 5
NPT 5
Heavy Duty Thread Turning Toolholders - External 6
Heavy Duty Thread Turning Toolholders - Internal 6
Advantages of DSI-Thread Turning Inserts
Increased productivity thanks to the six
cutting edges.
U-Style inserts for a wide range of full or
partial prole standard threads.
Same insert for right hand or left hand thread.
Saving on tooling costs.
Unique anti-vibration anvil designed for clamping
the insert and supporting the cutting edge.
Simple insert’s mounting and cutting edge
indexing.
Heavy duty toolholders designed specially for
this line.
Double Sided Thread
Turning Inserts & Toolholders
A03
Demonstration
Page: Page:
®
DSI Thread Turning Inserts
A03-2
Product Identication
DSI Ordering Code
16U
S E R 2020 16UK
R/L 1.5 6ISO BMA
E
E=External
I = Internal
R = Right Hand
L = Left Hand
Inserts with 6
cutting edges
Grade:
MXC
BMA
Pitch
mm:
1.5-5.0
inch - TPI:
16-5
Full Proles:
ISO
UN
WHIT
NPT
Partial Proles:
G60 G55
AG60 AG55
N60 N55
Clamping
Method
S = Screw
Shank Cross Section:
External toolholders
square shank
2020= 20 mm x 20 mm
Internal toolholders &
boring bars round shank
0020 = Diam. of 20 mm
E = External
I = Internal
R = Right Hand
L = Left Hand
Length of
Toolholders:
K = 125 mm
M = 150 mm
P = 170 mm
R = 200 mm
B: with internal
coolant bore
6 - for DSI
Thread Turning
Insert
6
®
DSI Thread Turning Inserts
A03-3
Partial Prole 60°
Partial Prole 55°
Pitch
Range
mm
Pitch
Range
TPI
L I.C.
in
EXTERNAL
Ordering Code
INTERNAL
Ordering Code X Y T
1.75 - 3.0 14-8 16U 3/8U 16U ER/L G60-6 16U IR/L G60-6 1.4 7.1 4.5
0.5 - 3.0 48-8 16U 3/8U 16U ER/L AG60-6 16U IR/L AG60-6 1.4 7.1 4.5
3.5 - 5.0 7-5 16U 3/8U 16U ER/L N60-6 16U IR/L N60-6 1.2 7.3 4.5
Pitch
Range
mm
Pitch
Range
TPI
L I.C.
in
EXTERNAL
Ordering Code
INTERNAL
Ordering Code X Y T
1.75 - 3.0 14-8 16U 3/8U 16U ER/L G55-6 16U IR/L G55-6 1.4 7.1 4.5
0.5 - 3.0 48-8 16U 3/8U 16U ER/L AG55-6 16U IR/L AG55-6 1.4 7.1 4.5
3.5 - 5.0 7-5 16U 3/8U 16U ER/L N55-6 16U IR/L N55-6 1.2 7.3 4.5
Available grades: BMA or MXC
Available grades: BMA or MXC
Order example: 16U ER/L G60-6 BMA
For carbide grade and cutting speed see page A04-2 and 3
®
DSI Thread Turning Inserts
A03-4
ISO
Pitch
mm
L I.C.
in
EXTERNAL
Ordering Code
INTERNAL
Ordering Code X Y T
1.5 16U 3/8U 16U ER/L 1.5 ISO-6 16U IR/L 1.5 ISO-6 1.6 6.9 4.5
1.75 16U 3/8U 16U ER/L 1.75 ISO-6 16U IR/L 1.75 ISO-6 1.6 6.9 4.5
2.0 16U 3/8U 16U ER/L 2.0 ISO-6 16U IR/L 2.0 ISO-6 1.6 6.9 4.5
2.5 16U 3/8U 16U ER/L 2.5 ISO-6 16U IR/L 2.5 ISO-6 1.6 6.9 4.5
3.0 16U 3/8U 16U ER/L 3.0 ISO-6 16U IR/L 3.0 ISO-6 1.6 6.9 4.5
3.5 16U 3/8U 16U ER/L 3.5 ISO-6 16U IR/L 3.5 ISO-6 1.6 6.9 4.5
4.0 16U 3/8U 16U ER/L 4.0 ISO-6 16U IR/L 4.0 ISO-6 1.6 6.9 4.5
4.5 16U 3/8U 16U ER/L 4.5 ISO-6 16U IR/L 4.5 ISO-6 1.6 6.9 4.5
5.0 16U 3/8U 16U ER/L 5.0 ISO-6 16U IR/L 5.0 ISO-6 1.6 6.9 4.5
Pitch
TPI
L I.C.
in
EXTERNAL
Ordering Code
INTERNAL
Ordering Code X Y T
16 16U 3/8U 16U ER/L 16 UN-6 16U IR/L 16 UN-6 1.6 6.9 4.5
14 16U 3/8U 16U ER/L 14 UN-6 16U IR/L 14 UN-6 1.6 6.9 4.5
13 16U 3/8U 16U ER/L 13 UN-6 16U IR/L 13 UN-6 1.6 6.9 4.5
12 16U 3/8U 16U ER/L 12 UN-6 16U IR/L 12 UN-6 1.6 6.9 4.5
11.5 16U 3/8U 16U ER/L 11.5 UN-6 16U IR/L 11.5 UN-6 1.6 6.9 4.5
11 16U 3/8U 16U ER/L 11 UN-6 16U IR/L 11 UN-6 1.6 6.9 4.5
10 16U 3/8U 16U ER/L 10 UN-6 16U IR/L 10 UN-6 1.6 6.9 4.5
916U 3/8U 16U ER/L 9 UN-6 16U IR/L 9 UN-6 1.6 6.9 4.5
816U 3/8U 16U ER/L 8 UN-6 16U IR/L 8 UN-6 1.6 6.9 4.5
716U 3/8U 16U ER/L 7 UN-6 16U IR/L 7 UN-6 1.6 6.9 4.5
616U 3/8U 16U ER/L 6 UN-6 16U IR/L 6 UN-6 1.6 6.9 4.5
516U 3/8U 16U ER/L 5 UN-6 16U IR/L 5 UN-6 1.6 6.9 4.5
UN - Unied UNC, UNF, UNEF, UNS
Available grades: BMA or MXC
Order example: 16U ER/L 1.75 ISO-6 BMA
Available grades: BMA or MXC
For carbide grade and cutting speed see page A04-2 and 3
®
DSI Thread Turning Inserts
A03-5
Whitworth 55° BSW, BSF, BSP, BSB
Pitch
TPI
L I.C.
in
EXTERNAL
Ordering Code
INTERNAL
Ordering Code X Y T
14 16U 3/8U 16U ER/L 14 NPT-6 16U IR/L 14 NPT-6 1.6 6.9 4.5
11.5 16U 3/8U 16U ER/L 11.5 NPT-6 16U IR/L 11.5 NPT-6 1.6 6.9 4.5
816U 3/8U 16U ER/L 8 NPT-6 16U IR/L 8 NPT-6 1.6 6.9 4.5
Pitch
TPI
L I.C.
in
EXTERNAL
Ordering Code
INTERNAL
Ordering Code X Y T
16 16U 3/8U 16U ER/L 16 W-6 16U IR/L 16 W-6 1.6 6.9 4.5
14 16U 3/8U 16U ER/L 14 W-6 16U IR/L 14 W-6 1.6 6.9 4.5
12 16U 3/8U 16U ER/L 12 W-6 16U IR/L 12 W-6 1.6 6.9 4.5
11 16U 3/8U 16U ER/L 11 W-6 16U IR/L 11 W-6 1.6 6.9 4.5
10 16U 3/8U 16U ER/L 10 W-6 16U IR/L 10 W-6 1.6 6.9 4.5
916U 3/8U 16U ER/L 9 W-6 16U IR/L 9 W-6 1.6 6.9 4.5
816U 3/8U 16U ER/L 8 W-6 16U IR/L 8 W-6 1.6 6.9 4.5
716U 3/8U 16U ER/L 7 W-6 16U IR/L 7 W-6 1.6 6.9 4.5
616U 3/8U 16U ER/L 6 W-6 16U IR/L 6 W-6 1.6 6.9 4.5
516U 3/8U 16U ER/L 5 W-6 16U IR/L 5 W-6 1.4 7.2 4.5
NPT
Available grades: BMA or MXC
Order example: 16U ER/L 9 W-6 BMA
Available grades: BMA or MXC
For carbide grade and cutting speed see page A04-2 and 3
®
A03-6
DSI Thread Turning Toolholders
External
Internal with coolant bore
Heavy Duty Thread Turning Toolholders
Ordering Code
Right Hand H B L F Insert
Screw
Anvil
Screw
Torx
Key
RH
Anvil
LH
Anvil
SER 2020 K16U-6 20 20 125 20 S16 A16 K16 AER 16U-6 AEL 16U-6
SER 2520 M16U-6 25 20 150 20 S16 A16 K16 AER 16U-6 AEL 16U-6
Ordering Code
Right Hand D Min.
bore dia. L F Insert
Screw
Anvil
Screw
Torx
Key
RH
Anvil
LH
Anvil
SIR 0020 P16UB-6 20 24 170 14.9 S16 A16 K16 AIR 16U-6 AIL 16U-6
SIR 0025 R16UB-6 25 29 200 17.4 S16 A16 K16 AIR 16U-6 AIL 16U-6
For
LEFT HAND
toolholders specify SI
L
instead of SI
R
For
LEFT HAND
toolholders specify SE
L
instead of SE
R
®
A04-1
Contents: Page:
Contents: Contents:
Carbide Grade Selection 2
Type B inserts 2
Recommended cutting speed 3
Conversion of Cutting Speed to Rotational Speed 4
Number of passes and depth of cut per pass
for multitooth insert 4
Number of threading passes selection
for single point inserts 5
Thread Turning Methods 5
Important Points about Carmex Threading Inserts 6
Flank Clearance Angle 6
Anvil Change Recommendation 7
Thread Turning - Step by Step 8-9
Troubleshooting 9
Threading Inserts Standards 10
Thread Turning
Technical Section
A
04
Page: Page:
®
Thread Turning Technical Section
A04-2
Carbide Grade Selection
Choose the Carmex grade specically formulated for your application from the following list:
Coated Grades
PVD triple layer coated sub-micron grade for stainless steels, cast iron, titanium, non ferrous
metals and most of the high temperature alloys.
Extra-ne sub-micron grade with high toughness, for optimized performance on hardened steels
and cast iron up to 62HRc, titanium alloys and super alloys (hastelloy, inconel and nickel based
alloys).
PVD TiAlN coated sub-micrograin grade for stainless steels and exotic materials at medium to high
cutting speeds.
PVD TiN coated grade for treated and hard alloy steels (25 HRc & up) at medium to low cutting
speeds.
PVD TiN coated micrograin for free cutting untreated alloy steels (below 30 HRc), for stainless
steels and cast iron.
PVD TiN coated grade for low cutting speed.
Works well with wide range of stainless steels.
BMA
(P20-P40)
(K20-K30)
HBA
P25C
(P15-P35)
MXC
(K10-K20)
(P10-P25)
BLU
(M10-M20)
(K05-K20)
(N10-N20)
(S10-S20)
BXC
(P30-P50)
(K25-K40)
Type B - Threading Inserts
A combination of ground prole, and sintered chip-breaker threading inserts.
Unlike most other manufacturers inserts, this combination ensures a consistent
high quality thread, with precise shape and dimensions.
Two different unique styles of chip-breaker were designed to suit the different
specific requirements of Internal threads and External threads.
All of Carmex Type B inserts are made of BMA Sub-Micrograin grade.
Grade availability per inserts size
Note:
Due to our unique and specialized production techniques, Carmex coated inserts provide superior cutting
performance and exceptionally long tool life.
P30*
K20*
Carbide grade for carbon and cast steels, works well at medium to low cutting speeds.
Carbide grade for non ferrous metals, aluminum and cast iron.
(P20-P30)
(K10-K30)
Uncoated Grades
* Upon request
(H10-H25)
(S10-S25)
Grade HBA BLU BMA P25C MXC BXC P30 K20
Insert
sizes
11, 16,
22, 27
11, 16,
22
06, 08,
11, 16,
22, 27,
33U,
11, 16,
22, 27,
33U
11, 16,
22, 27,
33U
06, 08
11, 16,
22, 27,
33U
06, 08
11, 16, 22,
27, 33U
Type-B
11, 16
Type-B
11, 16
®
Thread Turning Technical Section
A04-3
Recommended cutting speed (m/min) for thread turning inserts
ConditionMaterial
ISO
Standard P30K20BXCMXCP25CBMABLUHBA
50-130
70-150100-180
100-180120-180
110-210
Annealed<0.25%C
Non-Alloy Steel
and Cast Steel,
Free Cutting Steel
P
Annealed≥0.25%C
Quenched
& Tempered
<0.55%C
Annealed≥0.55%C
Quenched
& Tempered
50-80
60-9070-120
70-120
80-13090-140
Annealed
Low Alloy Steel and Cast
Steel (less than 5% alloying
elements) Quenched
& Tempered
40-50
50-6055-70
50-60
60-8070-90
Annealed
High Alloy Steel, Cast Steel,
and Tool Steel Quenched
& Tempered
50-8050-8060-90
60-90
90-130
110-160
Ferritic /
Martensitic
Stainless Steel
and Cast Steel
M
Martensitic
Austenitic
60-9080-110
100-130120-150
Ferritic /
Pearlitic
Cast Iron Nodular (GGG)
K
Pearlitic
65-8590-100
120-130140-150
Ferritic
Grey Cast Iron (GG) Pearlitic
60-8580-100
100-130110-140
Ferritic
Malleable Cast Iron Pearlitic
100-400
200-400
150-400200-400
250-500
Not
Cureable
Aluminum-Wrought Alloy
N
Cured
110-300
200-500
150-350200-500
280-500
Not
Cureable
<=12% Si
Aluminum-Cast,
Alloyed Cured
High
Temperature
>12% Si
90-150
150-250
110-180150-250
190-350
Free
Cutting
>1% Pb
Copper Alloys Brass
Electrolytic
Copper
110-150
100-200
150-210200-300
Duroplastics,
Fiber Plastics
Non Metallic Hard
Rubber
25-6030-6520-80
Annealed
Fe based
High Temp. Alloys,
Super Alloys
S
Cured
Annealed
Ni or Co
based Cured
Cast
35-4535-4540-5030-60
Alpha
+Beta Alloys
Cured
Titanium Alloys
35-4540-5030-60
Hardened
45-50 HRc
Hardened Steel
H
Hardened
51-55 HRc
Hardened
56-62 HRc
25-3530-4020-50
CastChilled Cast Iron
15-2520-3020-40
HardenedCast Iron
®
Thread Turning Technical Section
A04-4
Conversion of Cutting Speed to Rotational Speed
Number of passes and depth of cut per pass for multitooth insert
Conversion of a selected
cutting speed to rotational
speed is calculated by the
following formula:
30 mm
Pitch
mm
Insert Size No. of
Teeth Ordering Code No. of
Passes
Depth of Cut per pass
L I.C. (in) 1 2 3 4
ISO
External
1.00 16 3/8 316 ER 1.0 ISO 3M 2 0.38 0.25
1.50 16 3/8 216 ER 1.5 ISO 2M 3 0.42 0.30 0.20
1.50 22 1/2 322 ER 1.5 ISO 3M 2 0.55 0.37
2.00 22 1/2 222 ER 2.0 ISO 2M 3 0.57 0.40 0.28
2.00 22 1/2 322 ER 2.0 ISO 3M 2 0.76 0.49
3.00 27 5/8 227 ER 3.0 ISO 2M 4 0.59 0.51 0.42 0.32
ISO
Internal
1.00 16 3/8 316 IR 1.0 ISO 3M 2 0.33 0.25
1.50 16 3/8 216 IR 1.5 ISO 2M 3 0.38 0.29 0.20
1.50 22 1/2 322 IR 1.5 ISO 3M 2 0.50 0.37
2.00 22 1/2 222 IR 2.0 ISO 2M 3 0.52 0.37 0.26
2.00 22 1/2 322 IR 2.0 ISO 3M 2 0.70 0.45
3.00 27 5/8 227 IR 3.0 ISO 2M 4 0.58 0.46 0.39 0.30
16 16 3/8 216 ER 16 UN 2M 3 0.44 0.31 0.22
UN 16 22 1/2 322 ER 16 UN 3M 2 0.58 0.39
External 12 22 1/2 222 ER 12 UN 2M 3 0.59 0.42 0.30
12 22 1/2 322 ER 12 UN 3M 2 0.78 0.52
8 27 5/8 227 ER 8 UN 2M 4 0.62 0.54 0.45 0.35
UN
Internal
16 16 3/8 216 IR 16 UN 2M 3 0.42 0.28 0.22
16 22 1/2 322 IR 16 UN 3M 2 0.55 0.37
12 22 1/2 222 IR 12 UN 2M 3 0.53 0.38 0.31
12 22 1/2 322 IR 12 UN 3M 2 0.74 0.48
8 27 5/8 227 IR 8 UN 2M 4 0.63 0.50 0.40 0.30
Whitworth
55°
External
14 16 3/8 216 ER 14 W 2M 3 0.52 0.37 0.27
14 22 1/2 322 ER 14 W 3M 2 0.70 0.46
11 22 1/2 222 ER 11 W 2M 3 0.67 0.47 0.34
Whitworth
55°
Internal
14 16 3/8 216 IR 14 W 2M 3 0.52 0.37 0.27
14 22 1/2 322 IR 14 W 3M 2 0.70 0.46
11 22 1/2 222 IR 11 W 2M 2 0.67 0.47 0.34
14 16 3/8 216 ER 14 NPT 2M 3
NPT
External
11.5 22 1/2 222 ER 11.5 NPT 2M 4 0.54 0.47 0.37 0.30
11.5 27 5/8 327 ER 11.5 NPT 3M 4 0.76 0.54 0.38
8 27 5/8 227 ER 8 NPT 2M 4 0.81 0.60 0.55 0.45
14 16 3/8 216 IR 14 NPT 2M 3
NPT
Internal
11.5 22 1/2 222 IR 11.5 NPT 2M 4 0.54 0.47 0.37 0.30
11.5 27 5/8 327 IR 11.5 NPT 3M 4 0.76 0.54 0.38
8 27 5/8 227 IR 8 NPT 2M 4 0.81 0.60 0.55 0.45
API Round
External
10 22 1/2 222 ER 10 APIRD 2M 3 0.60 0.50 0.31
10 27 5/8 327 ER 10 APIRD 3M 2 1.00 0.41
8 27 5/8 227 ER 8 APIRD 2M 3 0.80 0.60 0.41
API Round
Internal
10 22 1/2 222 IR 10 APIRD 2M 3 0.60 0.50 0.31
10 27 5/8 327 IR 10 APIRD 3M 2 1.00 0.41
8 27 5/8 227 IR 8 APIRD 2M 3 0.80 0.60 0.41
V=120 m/min
1000 120 1274
1000
30
®
Thread Turning Technical Section
A04-5
Number of threading passes selection for single point inserts
Pitch: mm
TPI
0.5
48
0.8
32
1.0
24
1.25
20
1.5
16
1.75
14
2.0
12
2.5
10
3.0
8
4.0
6
6.0
4
Number of
Passes 3-6 4-7 4-9 6-10 5-11 9-12 6-13 7-15 8-17 10-20 11-22
1. For most standard applications the middle of the range is a good starting point.
2. For most materials, the tougher the material, the higher the number of cutting passes you should select.
3. As a general rule of thumb, fewer passes are better than more speed.
NOTES:
Thread Turning Methods
®
Thread Turning Technical Section
A04-6
Important Points about Carmex
Threading Inserts
Flank Clearance Angle
The Insert relief
angle of a standard
Carmex external
toolholder is 10˚; for an
internal toolholder it is 15˚.
This 5º dierence is
to provide additional
necessary radial clearance.
In most thread forms
internal and external
threads have dierent
depth and radii, thus
tools are not
interchangeable
1.
2.
Our built-in relief angles
ensure automatic insert
ank angle clearance.
3.
Proles of Carmex
internal & external
threading inserts
are precision ground
to ensure accurate
thread geometry
when used in their
corresponding
toolholders.
Using internal inserts
with an external holder
will result in distortion of angle
and insert geometry.
Insert and toolholder
should always match.
An IN-RH insert must be
used with an IN-RH
toolholder.
No mismatch is allowed.
4.
5.
®
Thread Turning Technical Section
A04-7
Anvil Change Recommendation
As can be seen from the chart, some Pitch to Diameter combinations require an anvil change. If change is
required, use AE anvils for EX-RH and IN-LH toolholders and AI anvils for IN-RH and EX-LH toolholders.
As can be seen from the chart, most applications do not require an anvil change. If change is required, use AE
anvils for EX-RH and IN-LH toolholders and AI anvils for IN-RH and EX-LH toolholders.
As can be seen from the chart, most applications require an anvil change. In most cases a negative anvil is
required. Use AE anvils for EX-RH and IN-LH toolholders and AI anvils for IN-RH and EX-LH toolholders.
ACME
STUB ACME
TRAPEZ (DIN 103)
ROUND (DIN 405)
PARTIAL PROFILE 60°
PARTIAL PROFILE 55°
ISO
UN
WHIT.
NPT
BSPT
AMERICAN
BUTTRESS
SAGENGEWINDE
(DIN 513)
Correct
Wrong
®
Thread Turning Technical Section
A04-8
Thread Turning - Step by Step
EXAMPLES:
Example No. 1:
Example No. 2:
In most cases the above mentioned 6 steps would be the steps needed to ensure a good thread. When cutting more
complicated threads such as TRAPEZ, ACME, BUTTRESS or SAGE, it is advisable to check the eect of the thread
“HELIX ANGLE” on the “RESULTANT FLANK CLEARANCE” . If is smaller than 2°, an anvil change is required.
Step 1:
Step 2:
Step 3:
Step 4:
Step 5:
Step 6:
Step 1:
Step 2:
Step 3:
Step 4:
Step 5:
Step 6:
Choose Thread Turning Method from page A04-5
Usually, an IN-RH Toolholder and Insert will be chosen,
however, in this particular case we prefer to pull the metal
chips while thread turning outward, thus we chose to work
with IN-LH Insert & Toolholder
Choose Insert from page A01-11: 16 IL 12 UN
Choose Toolholder from page A02-8: SIL 0025 R16
Note: since we thread cut IN-RH thread outward with an
IN-LH tool, do not forget to replace the standard anvil
(supplied with the holder) with a negative anvil AE16-1.5
Choose Insert Grade from selection on page A04-2
Our choice for Brass is Grade K20
Choose Thread Turning Speed from chart on page A04-3,
we chose 150 m/min
Rotational Speed calculation:
Choose Number of Threading passes from table
on page A04-5, we chose 9 passes
Choose Thread Turning Method
from page A04-5, we chose EX - RH Insert & Toolholder
Choose Insert from page A01-7: 16 ER 1.5 ISO
Choose Toolholder from page A02-3: SER 2020 K16
Choose Insert Grade from selection on page A04-2
Our choice for Alloy Steel is Grade P25C
Choose Thread Turning Speed from chart on page A04-3,
we chose 100 m/min
Rotational Speed calculation:
Choose Number of Threading passes
from table on page A04-5, we chose 8 passes
Step 1 : Choose Thread Turning Method from page A04-5
Step 2 : Choose Insert
Step 3 : Choose Toolholder
Step 4 : Choose Insert Grade
Step 5 : Choose Thread Turning Speed
Step 6 : Choose Number of Threading Passes
Step 7 : Find Thread Helix Angle
Step 8 : Choose Correct Anvil
100 1000
30 1065
1254
150
38.1
1000
ISO
1.5 mm
30mm
®
Thread Turning Technical Section
A04-9
Example No. 3:
Troubleshooting
Step 1:
Step 2:
Step 3:
Step 4:
Step 5:
Step 6:
Step 7:
Step 8:
Choose Thread Turning Method from page A04-5
We chose EX-RH Insert & Toolholder.
Choose Insert from page A01-31: 16 ER 12 ABUT
Choose Toolholder from page A02-3: SER 2525 M16
Choose Insert Grade from selection on page A04-2
Our choice for Stainless Steel is Grade BMA
Choose Thread Turning Speed from chart on page A04-3
We chose 120 m/min.
Rotational Speed calculation:
Choose Number of Threading passes
from table on page A04-5. We chose 13 passes
Find Thread Helix Angle: on page A02-19 for Pitch of 12 TPI and
40 Diameter Helix Angle as shown in the chart is 1º
Choose correct Anvil: As can be seen from the chart on
page A04-7, for AMERICAN BUTTRESS Thread, for 12 TPI and 40
Diameter a negative anvil AE16-1.5 should replace the standard
anvil supplied with the toolholder
1. Use a tougher carbide grade
2. Eliminate tool overhang
3. Check if insert is correctly
clamped
4. Eliminate vibration
1. Reduce cutting speed
2. Apply coolant uid
3. Use a harder carbide grade
1. Increase cutting speed
2. Use a tougher carbide grade
Stainless Steel 304
Replacing the standard anvil
with an anvil with negative
angle will eliminate side rubbing
Anvil chosen:
AE16-1.5
EX-RH. AMERICAN BUTTRESS
12 TPI on 40 mm diameter.
Chipping Crater Wear Build-up Edge
Thermal Cracking Deformation Fracture
1. Reduce cutting speed
2. Apply coolant uid
3. Use a tougher carbide grade
1. Use a harder carbide grade
2. Reduce cutting speed
3. Reduce depth of cut
4. Apply coolant uid
1. Use a tougher carbide grade
2. Reduce depth of cut
3. Index insert sooner
4. Check machine and tool stability
120 1000 954
40
RPM
®
Thread Turning Technical Section
A04-10
Threading Inserts Standards
DIN: Deutsches Institut für Normung
ANSI: American National Standards Institute
API: American Petroleum Institute
B.S.: British Standards
ISO: International Organisation for Standardization
MIL-S: Military Specication
NPT: American National Standard Taper Pipe Thread
NPTF: National Standard Taper Fuel:Dryseal USA
PAC: Pacic Asia Connection
NPS: Straight thread,same as NPT without taper
NPSM: Free-Fitting Mechanical Joints
Thread Prole Standard Thread Class
ISO DIN 13 6g / 6H
UN ANSI B1.1-1989 2A / 2B
WHITWORTH B.S. 84: 1956 Medium Class
NPT ANSI B1.20.1-1983 -
NPTF ANSI B1.20.3-1976 -
NPS ANSI B1.20.1-1983 -
NPSM ANSI B1.20.1-1983 -
BSPT B.S. 21: 1957 -
DIN 477 DIN 477 -
ACME ANSI B1.5-1988 3G (EXT), 3G / 2G (INT)
STUB ACME ANSI B1.5-1988 2G
TRAPEZ DIN 103 7e / 7H
ROUND DIN 405 Class 7
UNJ MIL-S-8879C 3A / 3B
MJ ISO 5855 4h/6h, 4H/5H
AMERICAN BUTTRESS ANSI B1.9-1973 Class 2
SAGENGEWINDE DIN 513 -
PG DIN 40430 -
V-0.040 API Spec7 -
V-0.038R API Spec7 -
V-0.050 API Spec7 -
V-0.055 API Spec7 -
API ROUND API Spec Standard 5B -
EXTREME – LINE CASING API Spec Standard 5B -
BUTTRESS CASING API Spec Standard 5B -
VAM VAM -
HUGHES HUGHES -
PAC PAC -
®
Grooving Tools
A05-1
A combination of ground prole and sintered chip - breaker
Advantages:
Same Toolholder for Grooving and Threading
Minimum Investment in Tooling
Three Cutting Edges
Precision Ground
Contents: Page: Contents: Page:
Grooving Inserts 2
Grooving Inserts for Snap Ring 2
Product identication 3
Grooving Kits 3
Technical Section 4
Grooving Tools
A05
®
Grooving Tools
A05-2
Grooving Inserts
Order example: 16 ER/IL 1.20 BXC
* The inserts should be used with our standard threading toolholders
* The anvil must be changed to AE 16-0 or AI 16-0 before using size 16 mm (3/8”) inserts
* Size 16 internal holders without anvil can’t be used
Order example: 16ER/IL R1.20 BXC
* The inserts should be used with our standard threading toolholders
* The anvil must be changed to AE 16-0 or AI 16-0 before using size 16 mm (3/8”) inserts
* Size 16 internal holders without anvil can’t be used
Same insert can be used
for EX.RH and for IN.LH.
ER / IL IR / EL
External & Internal
Same insert can be used
for IN.RH and for EX.LH.
Grooving Inserts for Snap Ring
Carbide Grade: BXC
External & Internal
Partial Prole Inserts
ER / IL IR / EL
R
0.04 TI.C.
in
L
mm
Ordering Code Ordering Code
ER/IL Inserts Anvil IR/EL Inserts Anvil
0.5 1.4 3/8 16 16 ER/IL R0.50 AE 16 - 0 16 IR/EL R0.50 AI 16 - 0
0.6 1.6 3/8 16 16 ER/IL R0.60 AE 16 - 0 16 IR/EL R0.60 AI 16 - 0
0.9 2.0 3/8 16 16 ER/IL R0.90 AE 16 - 0 16 IR/EL R0.90 AI 16 - 0
1.0 2.0 3/8 16 16 ER/IL R1.00 AE 16 - 0 16 IR/EL R1.00 AI 16 - 0
1.1 2.15 3/8 16 16 ER/IL R1.10 AE 16 - 0 16 IR/EL R1.10 AI 16 - 0
1.2 2.25 3/8 16 16 ER/IL R1.20 AE 16 - 0 16 IR/EL R1.20 AI 16 - 0
W
0.02 TI.C.
in
L
mm
Ordering Code Ordering Code
ER/IL Inserts Anvil IR/EL Inserts Anvil
0.50 1.4 1/4 11 11 ER/IL 0.50 -11 IR/EL 0.50 -
0.60 1.4 1/4 11 11 ER/IL 0.60 -11 IR/EL 0.60 -
0.70 1.4 1/4 11 11 ER/IL 0.70 -11 IR/EL 0.70 -
0.80 1.4 1/4 11 11 ER/IL 0.80 -11 IR/EL 0.80 -
1.00 1.4 1/4 11 11 ER/IL 1.00 -11 IR/EL 1.00 -
1.20 1.4 1/4 11 11 ER/IL 1.20 -11 IR/EL 1.20 -
0.50 1.4 3/8 16 16 ER/IL 0.50 AE 16-0 16 IR/EL 0.50 AI 16-0
1.00 1.4 3/8 16 16 ER/IL 1.00 AE 16-0 16 IR/EL 1.00 AI 16-0
1.20 1.6 3/8 16 16 ER/IL 1.20 AE 16-0 16 IR/EL 1.20 AI 16-0
1.40 1.8 3/8 16 16 ER/IL 1.40 AE 16-0 16 IR/EL 1.40 AI 16-0
1.70 2.0 3/8 16 16 ER/IL 1.70 AE 16-0 16 IR/EL 1.70 AI 16-0
1.95 2.0 3/8 16 16 ER/IL 1.95 AE 16-0 16 IR/EL 1.95 AI 16-0
2.25 2.25 3/8 16 16 ER/IL 2.25 AE 16-0 16 IR/EL 2.25 AI 16-0
Same insert can be used
for EX.RH and for IN.LH.
Same insert can be used
for IN.RH and for EX.LH.
®
Grooving Tools
A05-3
16 ER / IL 1.0 BXC 1 unit
16 ER / IL 1.2 BXC 1 unit
16 ER / IL 1.4 BXC 1 unit
16 ER / IL 1.7 BXC 1 unit
16 ER / IL 1.95 BXC 1 unit
16 ER / IL 2.25 BXC 1 unit
ANVIL AE 16 - 0 1 unit
16 IR / EL 1.0 BXC 1 unit
16 IR / EL 1.2 BXC 1 unit
16 IR / EL 1.4 BXC 1 unit
16 IR / EL 1.7 BXC 1 unit
16 IR / EL 1.95 BXC 1 unit
16 IR / EL 2.25 BXC 1 unit
ANVIL AI 16 - 0 1 unit
Grooving Kits
ER / IL INSERT
KGRO - EXTERNAL
IR / EL INSERT
KGRO - INTERNAL
Product Identication
Grooving Inserts Ordering Codes
E = External
I = Internal R = Radius Width mm
0.50-2.25
Carbide
Grade:
BXC
BMA
R = Right Hand
L = Left Hand
L
11
16
I.C.
1/4”
3/8”
16 ER IL 1.0 BMA
A05-4
Technical Section
®
Technical Section
Cutting Speeds for Grooving Tools
Carbide Grades:
BXC (P30 - P50, K25 - K40)
PVD TiN coated grade for low cutting speed. Works well with a wide range of
stainless steels.
BMA (P20 - P40, K20 - K30)
PVD TiAlN coated sub-micrograin grade for stainless steels and exotic
materials at medium to high cutting speeds.
For grooving small bores see pages A06-22 to 30
ISO
Standard Materials Cutting Speed m/min
P
Low & Medium Carbon Steel 20-100
High Carbon Steel 30- 80
Alloy Steels and Treated Steels 40- 90
MStainless Steels 30- 80
Cast Steels 30- 90
KCast Iron 30- 90
NNon-Ferrous and Aluminum 20-200
®
Tiny Tools
A06-1
Solid Carbide tools for working in small bores
These tools are made for the high-tech, medical and small component industry. All tools include
through coolant enabling the cooling uid to reach the cutting edge eciently, for easy chip
removal and smooth cutting operations.
Contents: Contents:
Tiny Bars 2-31
Product Identification 2
MTR Boring Bars 3-4
CBR Proling and Boring Bars 5
CMR Multi-Task Tiny Bars 6
MXR Back Turning Bars 7
MPR Profiling and Boring Bars 8-9
MUR Profiling, 90˚ Face Cutting Bars 10
MQR Profiling and Boring Bars 11
MIR Threading Bars 12-18
MDR Thread Relief, Chamfering and Grooving Bars 19
MCR Chamfering and Boring Bars 20
MWR Chamfering and Profiling Bars 21
MGR Grooving Bars 22-23
MKR Full Radius Grooving Bars 24
MFR Face Grooving Bars 25
MFR Face Grooving Bars with Chip Former 26
MFL Face Grooving Bars 27
MVR Deep Face Grooving Bars 28
MZR Face Grooving Bars 29
MZL Face Grooving Bars 30
HK Broaching Tools 31
Tiny Toolholders 32-41
Product Identification 32
Tiny Toolholders 32-33
Tiny Toolholders for Star Swiss machines 34
CIM Clamping System 35-38
Tiny Toolholders Square Shank 39-41
Tiny Tools Kits 42
Technical Section 43-46
Tiny Tools
A
06
Demonstration
Page: Page:
®
Tiny Tools
A06-2
Product Identication
Tiny Bars Ordering Codes
M T R 3 -CR0.2 L10 BXC
T = Boring
P = Proling & Boring
Q = Proling & Boring
I = Threading
D = Thread Relief
C = Chamfering
G = Grooving
K = Full Radius Grooving
F = Face Grooving
Z = Face Grooving
X = Back Turning
U = Proling
W = Chamfering & Proling
V = Deep Face Grooving
M = Multi task tool
B = Chip Breaker
Boring
R0.2 = Nose Radius 0.2 mm
Threading
Partial Prole: A60, A55,
Full Prole: ISO, UN, NPT, ACME, TR
Grooving
B1.0 = 1.0 mm
B1.5 = 1.5 mm
B2.0 = 2.0 mm
3 = 3.0 mm
4 = 4.0 mm
5 = 5.0 mm
6 = 6.0 mm
7 = 7.0 mm
8 = 8.0 mm
10 =
10.0 mm
Chip Former
Neck Length
R = Right Hand
L = Left Hand
K20
BXC
BMK
*TNX
M
C L5 = 5 mm
L10 = 10 mm
L15 = 15 mm
L22 = 22 mm
L35 = 35 mm
= Tiny Bars
Bar Diameter
* Available only for CBR bars
®
Tiny Tools
A06-3
MTR Bars Boring
For additional holders see page A06-32 to 41
D Ordering Code L L1 RFMin.
Dia. Holder
3.0
MTR 1 R0 L6 39 6 0 0.5 1.0
MTR 1 R0.05 L4 39 4 0.05 0.5 1.0 SIM ... H3
MTR 1 R0.05 L6 39 6 0.05 0.5 1.0
3.0 MTR 1.2 R0 L7 39 7 0 0.6 1.2 SIM ... H3
MTR 1.2 R0 L9 39 9 0 0.6 1.2
3.0 MTR 1.5 R0 L6 39 6 0 0.7 1.5 SIM ... H3
MTR 1.5 R0.1 L6 39 6 0.10 0.7 1.5
3.0
MTR 2 R0 L10 39 10 0 0.8 2.1
SIM ... H3
MTR 2 R0.05 L5 39 5 0.05 0.8 2.1
MTR 2 R0.05 L10 39 10 0.05 0.8 2.1
MTR 2 R0.1 L10 39 10 0.10 0.8 2.1
MTR 2 R0.1 L15 39 15 0.10 0.8 2.1
MTR 2 R0.15 L5 39 5 0.15 0.8 2.1
MTR 2 R0.15 L10 39 10 0.15 0.8 2.1
4.0
MTR 2.5 R0 L10 51 10 0 1.0 2.5
SIM ... H4MTR 2.5 R0.1 L10 51 10 0.10 1.0 2.5
MTR 2.5 R0.1 L15 51 15 0.10 1.0 2.5
3.0
MTR 3 R0.05 L10 39 10 0.05 1.3 3.1
SIM ... H3
MTR 3 R0.05 L15 39 15 0.05 1.3 3.1
MTR 3 R0.1 L10 39 10 0.10 1.3 3.1
MTR 3 R0.1 L15 39 15 0.10 1.3 3.1
MTR 3 R0.2 L10 39 10 0.20 1.3 3.1
MTR 3 R0.2 L15 39 15 0.20 1.3 3.1
MTR 4 R0.05 L15 51 15 0.05 1.7 4.1
SIM ... H4
MTR 4 R0.05 L22 51 22 0.05 1.7 4.1
MTR 4 R0.1 L10 51 10 0.10 1.7 4.1
MTR 4 R0.1 L15 51 15 0.10 1.7 4.1
4.0 MTR 4 R0.1 L22 51 22 0.10 1.7 4.1
MTR 4 R0.2 L10 51 10 0.20 1.7 4.1
MTR 4 R0.2 L15 51 15 0.20 1.7 4.1
MTR 4 R0.2 L22 51 22 0.20 1.7 4.1
MTR 4 R0.2 L30 62 30 0.20 1.7 4.1
Grade P M K N S H
K20
BXC
BMK
First choice Alternative
®
Tiny Tools
A06-4
MTR Bars Boring
Order example: MTR 4 R0.2 L15 BXC
For L.H. bars specify MTL instead of MTR
For additional holders see page A06-32 to 41
D Ordering Code L L1 RFMin
Dia. Holder
5.0
MTR 5 R0.05 L15 51 15 0.05 2.1 5.1
MTR 5 R0.1 L15 51 15 0.10 2.1 5.1
SIM ... H5
MTR 5 R0.1 L22 51 22 0.10 2.1 5.1
MTR 5 R0.1 L30 76 30 0.10 2.1 5.1
MTR 5 R0.2 L10 51 10 0.20 2.1 5.1
MTR 5 R0.2 L15 51 15 0.20 2.1 5.1
MTR 5 R0.2 L22 51 22 0.20 2.1 5.1
MTR 5 R0.2 L30 76 30 0.20 2.1 5.1
MTR 5 R0.2 L40 76 40 0.20 2.1 5.1
6.0
MTR 6 R0.05 L15 51 15 0.05 2.8 6.1
SIM ... H6
MTR 6 R0.05 L22 51 22 0.05 2.8 6.1
MTR 6 R0.1 L15 51 15 0.10 2.8 6.1
MTR 6 R0.1 L22 51 22 0.10 2.8 6.1
MTR 6 R0.2 L15 51 15 0.20 2.8 6.1
MTR 6 R0.2 L22 51 22 0.20 2.8 6.1
MTR 6 R0.2 L30 58 30 0.20 2.8 6.1
MTR 6 R0.2 L35 76 35 0.20 2.8 6.1
MTR 6 R0.2 L40 76 40 0.20 2.8 6.1
7.0 MTR 7 R0.2 L22 62 22 0.20 3.3 7.1 SIM ... H7
MTR 7 R0.2 L30 62 30 0.20 3.3 7.1
8.0
MTR 8 R0.2 L15 64 15 0.20 3.8 8.1
SIM ... H8MTR 8 R0.2 L22 64 22 0.20 3.8 8.1
MTR 8 R0.2 L35 76 35 0.20 3.8 8.1
10.0 MTR 10 R0.2 L35 73 35 0.20 4.8 10.1 SIM ... H10
®
Tiny Tools
A06-5
D Ordering Code L L1 RH F Min.
Dia. Holder
4.0 CBR 4 R0.2 L10 51 10 0.2 0.4 1.8 4.1 SIM ... H4
CBR 4 R0.2 L15 51 15 0.2 0.4 1.8 4.1
5.0 CBR 5 R0.2 L15 51 15 0.2 0.8 2.3 5.1 SIM ... H5
CBR 5 R0.2 L22 51 22 0.2 0.8 2.3 5.1
6.0 CBR 6 R0.2 L15 51 15 0.2 1.0 2.8 6.1 SIM ... H6
CBR 6 R0.2 L22 51 22 0.2 1.0 2.8 6.1
Min.Dia.
Detail A
Grade P M K N S H
TNX
CBR Bars Proling and Boring
With advanced Chip Breaker
Chip evacuation is obtained thanks to advanced Chip
Breaker and the internal coolant through the tool,
pushing the chips out of the hole.
Excellent solution for machining stainless steels,
super alloys and other “difcult” materials that
create curly chips around the tool and the application.
Can be used also as general purpose for a wide range of materials.
Order example: CBR 5 R0.2 L15 TNX
For L.H. bars specify CBL instead of CBR
For additional holders see page A06-32 to 41
First choice Alternative
®
Tiny Tools
A06-6
Order example: CMR 6 R0.2 L12 BMK
For L.H. bars specify CML instead of CMR
* The minimum diameter the tool can produce from full material
For additional holders see page A06-32 to 41
CMR Multi-Task Tiny Bars
Multi-Task Tiny Tool CMR for Boring, Turning, Facing and Chamfering with a single tool
D Ordering Code L L1 RF C Hole Dia.* Holder
4.0 CMR 4 R0.1 L10 51 10 0.1 1.8 1.1 4.0 SIM...H4
CMR 4 R0.1 L15 51 15 0.1 1.8 1.1 4.0
5.0 CMR 5 R0.2 L10 51 10 0.2 2.1 1.3 5.0 SIM...H5
CMR 5 R0.2 L15 51 15 0.2 2.1 1.3 5.0
6.0 CMR 6 R0.2 L12 58 12 0.2 2.8 1.5 6.0 SIM...H6
CMR 6 R0.2 L18 58 18 0.2 2.8 1.5 6.0
Grade P M K N S H
BMK
Demonstration
First choice Alternative
®
Tiny Tools
A06-7
MXR Bars Back Turning
Order example: MXR 4 R0.15 L15 BXC
For L.H. bars specify MXL instead of MXR
For additional holders see page A06-32 to 41
D Ordering Code L L1 B RH F Min.
Dia. Holder
4.0 MXR 4 R0.1 L10 51 10 1.3 0.10 0.5 1.3 3.1 SIM ... H4
4.0 MXR 4 R0.15 L10 51 10 1.3 0.15 0.8 1.7 4.1 SIM ... H4
MXR 4 R0.15 L15 51 15 1.3 0.15 0.8 1.7 4.1
5.0 MXR 5 R0.2 L15 51 15 1.5 0.20 1.0 2.3 5.1 SIM ... H5
MXR 5 R0.2 L22 51 22 1.5 0.20 1.0 2.3 5.1
6.0 MXR 6 R0.2 L15 51 15 1.5 0.20 1.8 2.8 6.1 SIM ... H6
MXR 6 R0.2 L22 51 22 1.5 0.20 1.8 2.8 6.1
Grade P M K N S H
K20
BXC
BMK
Alternative
First choice Alternative
®
Tiny Tools
A06-8
MPR Bars Proling and Boring
For additional holders see page A06-32 to 41
D Ordering Code L L1 RH F Min.
Dia. Holder
3.0 MPR 1 R0.05 L4 39 4 0.05 0.2 0.5 1.0 SIM ... H3
MPR 1 R0.05 L8 39 8 0.05 0.2 0.5 1.0
3.0 MPR 1.2 R0.1 L5 39 5 0.10 0.3 0.6 1.2 SIM ... H3
MPR 1.2 R0.1 L9 39 9 0.10 0.3 0.6 1.2
3.0
MPR 1.5 R0.05 L10 39 10 0.05 0.3 0.7 1.5
SIM ... H3MPR 1.5 R0.1 L6 39 6 0.10 0.3 0.7 1.5
MPR 1.5 R0.1 L10 39 10 0.10 0.3 0.7 1.5
3.0
MPR 2 R0.05 L10 39 10 0.05 0.5 0.8 2.1
MPR 2 R0.1 L10 39 10 0.10 0.5 0.8 2.1
MPR 2 R0.15 L5 39 5 0.15 0.5 0.8 2.1 SIM ... H3
MPR 2 R0.15 L10 39 10 0.15 0.5 0.8 2.1
MPR 2 R0.15 L15 39 15 0.15 0.5 0.8 2.1
4.0 MPR 2.5 R0.1 L10 51 10 0.10 0.6 1.0 2.5 SIM ... H4
MPR 2.5 R0.1 L15 51 15 0.10 0.6 1.0 2.5
MPR 3 R0.05 L10 39 10 0.05 0.7 1.3 3.1
MPR 3 R0.05 L15 39 15 0.05 0.7 1.3 3.1
MPR 3 R0.1 L10 39 10 0.10 0.7 1.3 3.1
MPR 3 R0.1 L15 39 15 0.10 0.7 1.3 3.1
3.0 MPR 3 R0.1 L22 47 22 0.10 0.7 1.3 3.1 SIM ... H3
MPR 3 R0.2 L10 39 10 0.20 0.7 1.3 3.1
MPR 3 R0.2 L15 39 15 0.20 0.7 1.3 3.1
MPR 3 R0.2 L22 47 22 0.20 0.7 1.3 3.1
MPR 4 R0.1 L10 51 10 0.10 0.8 1.7 4.1
MPR 4 R0.1 L15 51 15 0.10 0.8 1.7 4.1
MPR 4 R0.1 L22 51 22 0.10 0.8 1.7 4.1
4.0 MPR 4 R0.2 L10 51 10 0.20 0.8 1.7 4.1 SIM ... H4
MPR 4 R0.2 L15 51 15 0.20 0.8 1.7 4.1
MPR 4 R0.2 L22 51 22 0.20 0.8 1.7 4.1
MPR 4 R0.2 L30 62 30 0.20 0.8 1.7 4.1
Grade P M K N S H
K20
BXC
BMK
First choice Alternative
®
Tiny Tools
A06-9
MPR Bars Proling and Boring
Order example: MPR 4 R0.2 L15 BXC
For L.H. Bars specify MPL instead of MPR
For additional holders see page A06-32 to 41
D Ordering Code L L1 RH F Min. Dia. Holder
5.0
MPR 5 R0.1 L22 51 22 0.10 1.2 2.1 5.1
SIM ... H5
MPR 5 R0.1 L30 76 30 0.10 1.2 2.1 5.1
MPR 5 R0.2 L10 51 10 0.20 1.2 2.1 5.1
MPR 5 R0.2 L15 51 15 0.20 1.2 2.1 5.1
MPR 5 R0.2 L22 51 22 0.20 1.2 2.1 5.1
MPR 5 R0.2 L30 76 30 0.20 1.2 2.1 5.1
MPR 5 R0.2 L40 76 40 0.20 0.9 2.1 5.1
6.0
MPR 6 R0.2 L10 51 10 0.20 1.4 2.8 6.1
SIM ... H6
MPR 6 R0.2 L15 51 15 0.20 1.4 2.8 6.1
MPR 6 R0.2 L22 51 22 0.20 1.4 2.8 6.1
MPR 6 R0.2 L30 76 30 0.20 1.4 2.8 6.1
MPR 6 R0.2 L40 76 40 0.20 1.0 2.8 6.1
MPR 7 R0.2 L22 62 22 0.20 1.5 3.3 7.1
7.0 MPR 7 R0.2 L30 62 30 0.20 1.5 3.3 7.1 SIM ... H7
MPR 7 R0.2 L35 62 35 0.20 1.5 3.3 7.1
MPR 8 R0.2 L15 64 15 0.20 1.6 3.8 8.1
8.0 MPR 8 R0.2 L22 64 22 0.20 1.6 3.8 8.1 SIM ... H8
MPR 8 R0.2 L35 76 35 0.20 1.6 3.8 8.1
10.0 MPR 10 R0.2 L35 73 35 0.20 2.0 4.8 10.1 SIM ... H10
Alternative
®
Tiny Tools
A06-10
MUR Bars Proling, 90˚ Face Cutting
Order example: MUR 5 R0.15 L15 BXC
For L.H. bars specify MUL instead of MUR
For additional holders see page A06-32 to 41
D Ordering Code L L1 RH F Min.
Dia. Holder
3.0 MUR 3 R0.05 L10 39 10 0.05 0.4 1.3 3.1 SIM ... H3
MUR 3 R0.05 L15 39 15 0.05 0.4 1.3 3.1
4.0 MUR 4 R0.1 L10 51 10 0.10 0.5 1.7 4.1 SIM ... H4
MUR 4 R0.1 L15 51 15 0.10 0.5 1.7 4.1
5.0 MUR 5 R0.15 L15 51 15 0.15 0.7 2.1 5.1 SIM ... H5
MUR 5 R0.15 L22 51 22 0.15 0.7 2.1 5.1
6.0 MUR 6 R0.15 L15 51 15 0.15 0.9 2.8 6.1 SIM ... H6
MUR 6 R0.15 L22 51 22 0.15 0.9 2.8 6.1
8.0 MUR 8 R0.2 L22 64 22 0.20 1.1 3.8 8.1 SIM ... H8
Grade P M K N S H
K20
BXC
BMK
First choice Alternative
®
Tiny Tools
A06-11
MQR Bars Proling and Boring
Order example: MQR 5 R0.2 L15 BXC
For L.H. bars specify MQL instead of MQR
For additional holders see page A06-32 to 41
D Ordering Code L L1 RH F Min.
Dia. Holder
3.0 MQR 3 R0.1 L10 39 10 0.10 0.6 1.3 3.1 SIM ... H3
MQR 3 R0.1 L15 39 15 0.10 0.6 1.3 3.1
4.0
MQR 4 R0.1 L22 51 22 0.10 0.8 1.8 4.1
SIM ... H4
MQR 4 R0.2 L10 51 10 0.20 0.8 1.8 4.1
MQR 4 R0.2 L15 51 15 0.20 0.8 1.8 4.1
MQR 4 R0.2 L22 51 22 0.20 0.8 1.8 4.1
5.0 MQR 5 R0.2 L15 51 15 0.20 1.0 2.3 5.1 SIM ... H5
MQR 5 R0.2 L22 51 22 0.20 1.0 2.3 5.1
MQR 6 R0.2 L15 51 15 0.20 1.4 2.8 6.1
6.0 MQR 6 R0.2 L22 51 22 0.20 1.4 2.8 6.1 SIM ... H6
MQR 6 R0.2 L30 58 30 0.20 1.4 2.8 6.1
8.0 MQR 8 R0.2 L22 64 22 0.20 1.6 3.8 8.1 SIM ... H8
MQR 8 R0.2 L27 64 27 0.20 2.0 3.8 8.1
Grade P M K N S H
K20
BXC
BMK
Alternative
First choice Alternative
®
Tiny Tools
A06-12
MIR Bars Threading
Partial Profile 55°
Partial Profile 60°
Order example: MIR 5 L15 A60 BXC
For L.H. bars specify MIL instead of MIR
For additional holders see page A06-32 to 41
Order example: MIR 5 L15 A55 BXC
D Ordering Code Pitch Range L L1 αFMin.
Dia. Holder
mm TPI
3.0 MIR 3 L15 A55 0.5 - 1.0 48 - 24 39 15 55 1.4 3.2 SIM ... H3
4.0 MIR 4 L15 A55 0.5 - 1.0 48 - 24 51 15 55 1.8 4.1 SIM ... H4
5.0 MIR 5 L15 A55 0.5 - 1.25 48 - 20 51 15 55 2.3 5.1 SIM ... H5
MIR 5 L22 A55 0.5 - 1.25 48 - 20 51 22 55 2.3 5.1
6.0 MIR 6 L15 A55 0.5 - 1.5 48 - 16 51 15 55 2.6 6.0 SIM ... H6
MIR 6 L22 A55 0.5 - 1.5 48 - 16 51 22 55 2.6 6.0
D Ordering Code Pitch Range L L1 αFMin.
Dia. Holder
mm TPI
3.0 MIR 1 L5 A60 0.25 - 0.35 100 - 72 39 4.8 60 0.55 1.2 SIM ... H3
MIR 1.5 L6 A60 0.35 - 0.45 72 - 56 39 6.3 60 0.65 1.4
3.0 MIR 2 L8 A60 0.45 - 0.7 56 - 32 39 8 60 1.0 2.1 SIM ... H3
3.0 MIR 3 L15 A60 0.7 - 1.0 32 - 24 39 15 60 1.4 3.2 SIM ... H3
4.0 MIR 4 L17 A60 0.35 - 0.45 72 - 56 51 17 60 1.8 4.1 SIM ... H4
MIR 4 L15 A60 0.8 - 1.0 32 - 24 51 15 60 1.8 4.1
5.0 MIR 5 L15 A60 1.0 - 1.25 24 - 20 51 15 60 2.3 5.1 SIM ... H5
MIR 5 L22 A60 1.0 - 1.25 24 - 20 51 22 60 2.3 5.1
6.0 MIR 6 L15 A60 1.0 - 1.5 24 - 16 51 15 60 2.6 6.0 SIM ... H6
MIR 6 L22 A60 1.0 - 1.5 24 - 16 51 22 60 2.6 6.0
8.0 MIR 8 L22 A60 1.0 - 2.0 24 - 13 64 22 60 3.6 8.0 SIM ... H8
Grade P M K N S H
K20
BXC
BMK
First choice Alternative
®
Tiny Tools
A06-13
MIR Bars Threading
Full Profile - ISO 60°
Full Profile - UN 60°
Order example: MIR 5 L15 1.0 ISO BXC
Order example: MIR 4 L15 36 UN BXC
For L.H. bars specify MIL instead of MIR
For additional holders see page A06-32 to 41
D Ordering Code Pitch
mm
M
Coarse
M
Fine L L1 αFMin.
Dia. Holder
3.0 MIR 3 L10 0.5 ISO 0.5 M3 M3.5 39 10 60 1.0 2.4 SIM ... H3
MIR 3 L15 0.5 ISO 0.5 M4 39 15 60 1.4 3.2
3.0 MIR 3 L15 0.7 ISO 0.7 M4 39 15 60 1.4 3.2 SIM ... H3
MIR 3 L15 0.75 ISO 0.75 M4.5 39 15 60 1.4 3.2
MIR 4 L15 0.5 ISO 0.5 M5 51 15 60 1.8 4.1
4.0 MIR 4 L15 0.75 ISO 0.75 M5 51 15 60 1.8 4.1 SIM ... H4
MIR 4 L15 0.8 ISO 0.8 M5 51 15 60 1.8 4.1
5.0 MIR 5 L15 1.0 ISO 1.0 M6, M7 M8 51 15 60 2.2 4.9 SIM ... H5
6.0 MIR 6 L22 1.25 ISO 1.25 M8, M9 M10 51 22 60 2.8 6.1 SIM ... H6
MIR 6 L22 1.5 ISO 1.5 M10, M11 51 22 60 2.8 6.1
D Ordering Code Pitch
TPI UNC UNF UNEF UNS L L1 αFMin.
Dia. Holder
3.0 MIR 3 L10 32 UN 32 6 39 10 60 1.0 2.7 SIM...H3
3.0 MIR 3 L15 32 UN 32 8 10 39 15 60 1.4 3.2 SIM...H3
MIR 3 L15 36 UN 36 8 10 39 15 60 1.4 3.2
4.0 MIR 4 L15 36 UN 36 12 51 15 60 1.8 4.1 SIM...H4
MIR 4 L15 32 UN 32 12 51 15 60 1.8 4.1
5.0 MIR 5 L15 28 UN 28 1/4 51 15 60 2.2 4.9 SIM...H5
MIR 5 L18 20 UN 20 1/4 51 18 60 2.3 5.0
6.0 MIR 6 L18 24 UN 24 5/16 51 18 60 2.8 6.5 SIM...H6
MIR 6 L18 18 UN 18 5/6 3/8 51 18 60 2.8 6.2
Grade P M K N S H
K20
BXC
BMK
Alternative First choice Alternative
®
Tiny Tools
A06-14
D
mm Ordering Code Thread
Size L L1 αF Min. Dia. Holder
3.0 MIR 3 L15 32 UNJ 8-32 UNJC 39 15 60 1.4 3.2 SIM...H3
5.0 MIR 5 L15 28 UNJ 1/4-28 UNJF 51 15 60 2.2 4.9 SIM...H5
MIR 5 L18 20 UNJ 1/4-20 UNJC 51 18 60 2.3 5.0 SIM...H5
D Ordering Code Thread
Size L L1 αF Min. Dia. Holder
3.0 MIR 3 L15 0.7 MJ MJ4x0.7 39 15 60 1.4 3.2 SIM ... H3
4.0 MIR 4 L15 0.8 MJ MJ5x0.8 51 15 60 1.8 4.1 SIM ... H4
5.0 MIR 5 L15 1.0 MJ MJ6x1.0 51 15 60 2.2 4.9 SIM ... H5
MIR Bars Threading
Full Profile - MJ 60°
Full Profile - UNJ 60°
Grade P M K N S H
K20
BXC
BMK
Full Prole
Order example: MIR 3 L15 32 UNJ BXC
For L.H. bars specify MIL instead of MIR
For additional holders see page A06-32 to 41
Order example: MIR 4 L15 0.8 MJ BXC
First choice Alternative
®
Tiny Tools
A06-15
MIR Bars Threading
Grade P M K N S H
K20
BXC
BMK
Full Profile - G 55° BSP
Full Profile - Whitworth 55° BSW
D Ordering Code Thread
Size L L1 αFMin.
Dia. Holder
6.0 MIR 6 L17 28 W 1/16-28 BSP 51 17 55 2.8 6.5 SIM ... H6
MIR 6 L17 19 W 1/4-19 BSP 51 17 55 2.8 7.0
D Ordering Code Thread
Size L L1 αFMin.
Dia. Holder
5.0 MIR 5 L17 20 W 1/4-20 BSW 51 17 55 2.0 4.7 SIM ... H5
Order example: MIR 6 L17 28 W BMK
For L.H. bars specify MIL instead of MIR
For additional holders see page A06-32 to 41
Alternative First choice Alternative
®
Tiny Tools
A06-16
MIR Bars Threading
Full Profile - NPT 60°
Acme
Order example: MIR 6 L 20 14 ACME BXC
For L.H. bars specify MIL instead of MIR
For additional holders see page A06-32 to 41
Grade P M K N S H
K20
BXC
BMK
Order example: MIR 6 L15 27 NPT BXC
D Ordering Code Pitch
TPI
Thread
Size L L1 αFMin.
Dia. Holder
6.0 MIR 6 L15 27 NPT 27 1/16 x 27 NPT 51 15 60 2.8 5.9 SIM ... H6
1/8 x 27 NPT
D Ordering Code Pitch
TPI
Thread
Size L L1 αFMin.
Dia. Holder
4.0 MIR 4 L15 16 ACME 16 1/4 x 16 51 15 29 1.8 4.6 SIM ... H4
6.0 MIR 6 L20 14 ACME 14 5/16 x 14 51 20 29 2.8 6.0 SIM ... H6
7.0 MIR 7 L22 12 ACME 12 3/8 x 12
7/16 x 12 62 22 29 3.3 7.2 SIM ... H7
8.0 MIR 8 L30 10 ACME 10 1/2 x 10 76 30 29 3.8 10.0 SIM ... H8
10.0 MIR 10 L35 8 ACME 85/8 x 8 73 35 29 4.8 12.5 SIM ... H10
10.0 MIR 10 L45 6 ACME 63/4 x 6
7/8 x 6 105 45 29 4.8 14.6 SIM ... H10
10.0 MIR 10 L52 5 ACME 5 1x5 105 52 29 4.8 20.0 SIM ... H10
First choice Alternative
®
Tiny Tools
A06-17
MIR Bars Threading
Stub Acme
D Ordering Code Pitch
TPI
Thread
Size L L1 αFMin.
Dia. Holder
4.0 MIR 4 L15 16 STACME 16 1/4 x 16 51 15 29 1.8 5.2 SIM ... H4
6.0 MIR 6 L20 14 STACME 14 5/16 x 14 51 20 29 2.8 6.6 SIM ... H6
7.0 MIR 7 L22 12 STACME 12 3/8 x 12
7/16 x 12 62 22 29 3.3 8.1 SIM ... H7
8.0 MIR 8 L30 10 STACME 10 1/2 x 10 76 30 29 3.8 11.0 SIM ... H8
10.0 MIR 10 L35 8 STACME 85/8 x 8 73 35 29 4.8 13.8 SIM ... H10
10.0 MIR 10 L45 6 STACME 63/4 x 6
7/8 x 6 105 45 29 4.8 16.3 SIM ... H10
Grade P M K N S H
K20
BXC
BMK
Order example: MIR 7 L22 12 STACME K20
For additional holders see page A06-32 to 41
Alternative
First choice Alternative
®
Tiny Tools
A06-18
MIR Bars Threading
Trapez - DIN 103
Order example: MIR 10 L35 3 TR BXC
For L.H. bars specify MIL instead of MIR
For additional holders see page A06-32 to 41
D Ordering Code Pitch
mm
Thread
Size L L1 αFMin.
Dia. Holder
6.0 MIR 6 L22 1.5 TR 1.5
TR 8 x 1.5
TR 9 x 1.5
TR10 x 1.5
51 22 30 2.8 6.4 SIM ... H6
7.0 MIR 7 L25 2 TR 2
TR 9 x 2
TR10 x 2
TR11 x 2
TR12 x 2
62 25 30 3.2 6.9 SIM ... H7
10.0 MIR 10 L35 2 TR 2
TR14 x 2
TR16 x 2
TR18 x 2
TR20 x 2
73 35 30 4.8 11.0 SIM ... H10
7.0 MIR 7 L35 3 TR 3TR11 x 3
TR12 x 3 62 35 30 3.3 7.5 SIM ... H7
10.0 MIR 10 L35 3 TR 3
TR14 x 3
TR22 x 3
TR24 x 3
TR26 x 3
TR28 x 3
73 35 30 4.8 10.5 SIM ... H10
10.0 MIR 10 L45 4 TR 4
TR16 x 4
TR18 x 4
TR20 x 4
105 45 30 4.8 11.5 SIM ... H10
10.0 MIR 10 L55 5 TR 5
TR22 x 5
TR24 x 5
TR28 x 5
105 55 30 4.8 11.0 SIM ... H10
Grade P M K N S H
K20
BXC
BMK
First choice Alternative
®
Tiny Tools
A06-19
MDR Bars Thread Relief, Chamfering and Grooving
D Ordering Code L L1 B RH F Min.
Dia. Holder
4.0 MDR 4 R0.5 L18 51 18 1.5 0.5 0.8 1.8 4.1 SIM ... H4
5.0 MDR 5 R0.5 L24 51 24 1.5 0.5 1.2 2.3 5.1 SIM ... H5
6.0 MDR 6 R0.5 L27 58 27 1.5 0.5 1.4 2.8 6.1 SIM ... H6
Order example: MDR 5 R0.5 L24 BXC
For L.H. bars specify MDL instead of MDR
For additional holders see page A06-32 to 41
Grade P M K N S H
K20
BXC
BMK
Alternative
First choice Alternative
®
Tiny Tools
A06-20
MCR Bars Chamfering and Boring
D Ordering Code L L1 RH H1 F Min.
Dia. Holder
3.0 MCR 3 R0.2 L10 39 10 0.2 0.7 0.3 1.3 3.1 SIM ... H3
4.0 MCR 4 R0.2 L15 51 15 0.2 0.8 0.4 1.7 4.1 SIM ... H4
5.0 MCR 5 R0.2 L15 51 15 0.2 1.2 0.7 2.1 5.1 SIM ... H5
6.0 MCR 6 R0.2 L15 51 15 0.2 1.4 0.7 2.8 6.1 SIM ... H6
7.0 MCR 7 R0.2 L20 62 20 0.2 1.5 0.8 3.3 7.1 SIM ... H7
Order example: MCR 4 R0.2 L15 BXC
For L.H. bars specify MCL instead of MCR
For additional holders see page A06-32 to 41
Grade P M K N S H
K20
BXC
BMK
First choice Alternative
®
Tiny Tools
A06-21
MWR Bars Chamfering and Proling
D Ordering Code L L1 RαβFMin.
Dia. Holder
6.0
MWR 6 R0.2 A90 51 15 0.2 45° 45° 2.3 1.0
SIM ... H6
MWR 6 R0.2 A60 51 15 0.2 60° 30° 2.3 1.0
* MWR 6 R0.4 A90 51 22 0.4 45° 45° 2.3 6.0
* MWR 6 R0.4 A60 51 22 0.4 60° 30° 2.3 6.0
Order example: MWR 6 R0.2 A90 BXC
For L.H. bars specify MWL instead of MWR
*Can be used also for boring
For additional holders see page A06-32 to 41
Grade P M K N S H
K20
BXC
BMK
Alternative
First choice Alternative
®
Tiny Tools
A06-22
D Ordering Code L L1 BH F Min.
Dia. Holder
mm in
4.0 MGR 2 B0.5 L10 51 10 0.5 .020 0.5 0.9 2.1 SIM ... H4
3.0 MGR 3 B0.5 L10 39 10 0.5 .020 0.5 1.3 3.1 SIM ... H3
MGR 3 B0.7 L10 39 10 0.7 .028 0.6 1.3 3.1
4.0
MGR 4 B0.5 L10 51 10 0.5 .020 0.5 1.7 4.1
SIM ... H4
MGR 4 B0.5 L15 51 15 0.5 .028 0.5 1.7 4.1
MGR 4 B0.7 L10 51 10 0.7 .028 0.6 1.7 4.1
MGR 4 B0.79 L15 51 15 0.79 .031 0.9 1.7 4.1
MGR 4 B0.79 L22 51 22 0.79 .031 0.9 1.7 4.1
MGR 4 B1.0 L10 51 10 1.0 .039 1.0 1.7 4.1
MGR 4 B1.0 L15 51 15 1.0 .039 1.0 1.7 4.1
MGR 4 B1.0 L22 51 22 1.0 .039 1.0 1.7 4.1
MGR 4 B1.5 L10 51 10 1.5 .059 1.0 1.7 4.1
MGR 4 B1.5 L15 51 15 1.5 .059 1.0 1.7 4.1
MGR 4 B1.5 L22 51 22 1.5 .059 1.0 1.7 4.1
5.0
MGR 5 B0.79 L15 51 15 0.79 .031 1.0 2.3 5.1
SIM ... H5
MGR 5 B0.79 L22 51 22 0.79 .031 1.0 2.3 5.1
MGR 5 B1.0 L15 51 15 1.0 .039 1.2 2.3 5.1
MGR 5 B1.0 L22 51 22 1.0 .039 1.2 2.3 5.1
MGR 5 B1.19 L15 51 15 1.19 .047 1.2 2.3 5.1
MGR 5 B1.19 L22 51 22 1.19 .047 1.2 2.3 5.1
MGR 5 B1.5 L15 51 15 1.5 .059 1.2 2.3 5.1
MGR 5 B1.5 L22 51 22 1.5 .059 1.2 2.3 5.1
MGR 5 B1.59 L15 51 15 1.59 .063 1.2 2.3 5.1
MGR 5 B1.59 L22 51 22 1.59 .063 1.2 2.3 5.1
MGR 5 B2.0 L15 51 15 2.0 .079 1.2 2.3 5.1
MGR 5 B2.0 L22 51 22 2.0 .079 1.2 2.3 5.1
MGR Bars Grooving
Grade P M K N S H
K20
BXC
BMK
For additional holders see page A06-32 to 41 First choice Alternative
®
Tiny Tools
A06-23
Order example: MGR 5 B1.5 L15 BXC
For L.H. bars specify MGL instead of MGR
For additional holders see page A06-32 to 41
Tolerance: B±0.025 mm/.001”
D Ordering Code L L1 BH F Min.
Dia. Holder
mm in
6.0
MGR 6 B1.0 L15 51 15 1.0 .039 1.4 2.8 6.1
SIM ... H6
MGR 6 B1.0 L22 51 22 1.0 .039 1.4 2.8 6.1
MGR 6 B1.5 L15 51 15 1.5 .059 1.4 2.8 6.1
MGR 6 B1.5 L22 51 22 1.5 .059 1.4 2.8 6.1
MGR 6 B2.0 L15 51 15 2.0 .079 1.4 2.8 6.1
MGR 6 B2.0 L22 51 22 2.0 .079 1.4 2.8 6.1
6.0
MGR 6 B0.79 L17 51 17 0.79 .031 1.8 2.8 6.1
SIM ... H6
MGR 6 B0.79 L23 51 23 0.79 .031 1.8 2.8 6.1
MGR 6 B1.0 L17 51 17 1.0 .039 1.8 2.8 6.1
MGR 6 B1.19 L17 51 17 1.19 .047 1.8 2.8 6.1
MGR 6 B1.19 L23 51 23 1.19 .047 1.8 2.8 6.1
MGR 6 B1.5 L17 51 17 1.5 .059 1.8 2.8 6.1
MGR 6 B1.5 L23 51 23 1.5 .059 1.8 2.8 6.1
MGR 6 B1.59 L17 51 17 1.59 .063 1.8 2.8 6.1
MGR 6 B1.59 L23 51 23 1.59 .063 1.8 2.8 6.1
MGR 6 B2.0 L17 51 17 2.0 .079 1.8 2.8 6.1
MGR 6 B2.0 L23 51 23 2.0 .079 1.8 2.8 6.1
7.0
MGR 7 B1.0 L15 62 15 1.0 .039 2.5 3.3 7.1
SIM ... H7
MGR 7 B1.0 L22 62 22 1.0 .039 2.5 3.3 7.1
MGR 7 B1.0 L30 62 30 1.0 .039 2.5 3.3 7.1
MGR 7 B1.19 L22 62 22 1.19 .047 2.5 3.3 7.1
MGR 7 B1.19 L30 62 30 1.19 .047 2.5 3.3 7.1
MGR 7 B1.5 L15 62 15 1.5 .059 2.5 3.3 7.1
MGR 7 B1.5 L22 62 22 1.5 .059 2.5 3.3 7.1
MGR 7 B1.5 L30 62 30 1.5 .059 2.5 3.3 7.1
MGR 7 B1.59 L22 62 22 1.59 .063 2.5 3.3 7.1
MGR 7 B1.59 L30 62 30 1.59 .063 2.5 3.3 7.1
MGR 7 B2.0 L15 62 15 2.0 .079 2.5 3.3 7.1
MGR 7 B2.0 L22 62 22 2.0 .079 2.5 3.3 7.1
MGR 7 B2.0 L30 62 30 2.0 .079 2.5 3.3 7.1
8.0
MGR 8 B1.0 L22 64 22 1.0 .039 1.7 3.8 8.1
SIM ... H8
MGR 8 B1.5 L22 64 22 1.5 .059 1.7 3.8 8.1
MGR 8 B2.0 L15 64 15 2.0 .079 2.6 3.8 8.1
MGR 8 B2.0 L22 64 22 2.0 .079 2.6 3.8 8.1
MGR 8 B2.38 L15 64 15 2.38 .094 2.6 3.8 8.1
MGR 8 B2.38 L22 64 22 2.38 .094 2.6 3.8 8.1
MGR Bars Grooving
Alternative
®
Tiny Tools
A06-24
MKR Bars Full Radius Grooving
Order example: MKR 5 R1.0 L15 BXC
For L.H. bars specify MKL instead of MKR
For additional holders see page A06-32 to 41
D Ordering Code L L1 RW H F Min.
Dia. Holder
4.0
MKR 4 R0.5 L10 51 10 0.50 1.0 1.0 1.7 4.1
SIM ... H4
MKR 4 R0.5 L15 51 15 0.50 1.0 1.0 1.7 4.1
MKR 4 R0.75 L10 51 10 0.75 1.5 1.0 1.7 4.1
5.0
MKR 5 R0.5 L15 51 15 0.50 1.0 1.2 2.3 5.1
SIM ... H5
MKR 5 R0.75 L15 51 15 0.75 1.5 1.2 2.3 5.1
MKR 5 R1.0 L15 51 15 1.00 2.0 1.2 2.3 5.1
MKR 5 R1.0 L22 51 22 1.00 2.0 1.2 2.3 5.1
6.0
MKR 6 R0.5 L15 51 15 0.50 1.0 1.6 2.8 6.1
SIM ... H6
MKR 6 R0.75 L15 51 15 0.75 1.5 1.6 2.8 6.1
MKR 6 R1.0 L15 51 15 1.00 2.0 1.6 2.8 6.1
MKR 6 R1.0 L23 51 23 1.00 2.0 1.8 2.8 6.1
7.0
MKR 7 R0.5 L22 62 22 0.50 1.0 2.5 3.3 7.1
MKR 7 R0.75 L22 62 22 0.75 1.5 2.5 3.3 7.1 SIM ... H7
MKR 7 R1.0 L22 62 22 1.00 2.0 2.5 3.3 7.1
Grade P M K N S H
K20
BXC
BMK
Tolerance: R±0.025 mm First choice Alternative
®
Tiny Tools
A06-25
MFR Bars Face Grooving
Order example: MFR 5 B1.0 L22 BXC
For additional holders see page A06-32 to 41
D Ordering Code L L1 RB T F Min.
Dia. Holder
4.0
MFR 4 B0.5 L15 51 15 0.05 0.5 1.2 1.95 5.0
SIM ... H4
MFR 4 B0.75 L15 51 15 0.1 0.75 1.2 1.95 5.0
MFR 4 B1.0 L15 51 15 0.1 1.0 1.5 1.95 5.0
MFR 4 B1.5 L15 51 15 0.1 1.5 2.8 1.95 5.0
MFR 4 B1.5 L17 51 17 0.1 1.5 3.5 1.95 5.0
MFR 4 B2.0 L17 51 17 0.1 2.0 5.0 1.95 5.0
5.0
MFR 5 B0.5 L22 51 22 0.05 0.5 1.2 2.45 6.0
SIM ... H5
MFR 5 B0.75 L22 51 22 0.1 0.75 1.2 2.45 6.0
MFR 5 B1.0 L22 51 22 0.1 1.0 1.5 2.45 6.0
MFR 5 B1.0 L23 51 23 0.1 1.0 2.5 2.45 6.0
MFR 5 B1.5 L22 51 22 0.1 1.5 2.5 2.45 6.0
MFR 5 B1.5 L23 51 23 0.1 1.5 3.5 2.45 6.0
MFR 5 B2.0 L22 51 22 0.1 2.0 3.8 2.45 6.0
MFR 5 B2.0 L23 51 23 0.1 2.0 5.0 2.45 6.0
MFR 6 B1.0 L22 51 22 0.1 1.0 1.5 2.95 8.0
MFR 6 B1.5 L22 51 22 0.1 1.5 2.5 2.95 8.0
6.0 MFR 6 B2.0 L22 51 22 0.1 2.0 3.0 2.95 8.0 SIM ... H6
MFR 6 B2.5 L22 51 22 0.1 2.5 4.8 2.95 8.0
MFR 6 B3.0 L30 58 30 0.1 3.0 6.0 2.95 8.0
8.0 MFR 8 B2.5 L22 64 22 0.1 2.5 3.5 3.95 10.0 SIM ... H8
Grade P M K N S H
K20
BXC
BMK
Alternative
First choice Alternative
®
Tiny Tools
A06-26
MFR Bars Face Grooving with Chip Former
D Ordering Code L L1 RB T F Min.
Dia. Holder
4.0 MFR 4 B1.5 L15-C 51 15 0.1 1.5 2.8 1.95 5.0 SIM ... H4
5.0 MFR 5 B1.5 L22-C 51 22 0.1 1.5 2.5 2.45 6.0 SIM ... H5
MFR 5 B2.0 L22-C 51 22 0.1 2.0 3.8 2.45 6.0
6.0
MFR 6 B1.5 L22-C 51 22 0.1 1.5 2.5 2.95 8.0
SIM ... H6MFR 6 B2.0 L22-C 51 22 0.1 2.0 3.0 2.95 8.0
MFR 6 B3.0 L22-C 51 22 0.1 3.0 6.0 2.95 8.0
Grade P M K N S H
K20
BXC
BMK
Order example: MFR 5 B2.0 L22-C BXC
For L.H. bars specify MFL instead of MFR
For additional holders see page A06-32 to 41
First choice Alternative
®
Tiny Tools
A06-27
MFL Bars Face Grooving
Grade P M K N S H
K20
BXC
BMK
D Ordering Code L L1 RB T F Min.
Dia. Holder
4.0
MFL 4 B0.5 L15 51 15 0.05 0.5 1.2 1.75 5.0
SIM ... H4
MFL 4 B0.75 L15 51 15 0.10 0.75 1.2 1.75 5.0
MFL 4 B1.0 L15 51 15 0.10 1.0 1.5 1.75 5.0
MFL 4 B1.5 L15 51 15 0.10 1.5 2.8 1.75 5.0
MFL 4 B1.5 L17 51 17 0.10 1.5 3.5 1.75 5.0
MFL 4 B2.0 L17 51 17 0.10 2.0 5.0 1.75 5.0
5.0
MFL 5 B0.5 L22 51 22 0.05 0.5 1.2 2.25 6.0
SIM ... H5
MFL 5 B0.75 L22 51 22 0.10 0.75 1.2 2.25 6.0
MFL 5 B1.0 L22 51 22 0.10 1.0 1.5 2.25 6.0
MFL 5 B1.0 L23 51 23 0.10 1.0 2.5 2.25 6.0
MFL 5 B1.5 L22 51 22 0.10 1.5 2.5 2.25 6.0
MFL 5 B1.5 L23 51 23 0.10 1.5 3.5 2.25 6.0
MFL 5 B2.0 L22 51 22 0.10 2.0 3.8 2.25 6.0
MFL 5 B2.0 L23 51 23 0.10 2.0 5.0 2.25 6.0
MFL 6 B1.0 L22 51 22 0.10 1.0 1.5 2.75 8.0
MFL 6 B1.5 L22 51 22 0.10 1.5 2.5 2.75 8.0
6.0 MFL 6 B2.0 L22 51 22 0.10 2.0 3.0 2.75 8.0 SIM ... H6
MFL 6 B2.5 L22 51 22 0.10 2.5 4.8 2.75 8.0
MFL 6 B3.0 L30 58 30 0.10 3.0 6.0 2.75 8.0
8.0 MFL 8 B2.5 L22 64 22 0.10 2.5 3.5 3.75 10.0 SIM ... H8
Order example: MFL 4 B2.0 L17 BMK
For additional holders see page A06-32 to 41
Alternative
First choice Alternative
®
Tiny Tools
A06-28
MVR Bars
Deep Face Grooving - with 2 coolant bores
Order example: MVR 6 B2.0 L22 BXC
For L.H. bars specify MVL instead of MVR
For additional holders see page A06-32 to 41
D Ordering Code L L1 B F Min.
Dia. Holder
6.0
MVR 6 B2.0 L10 64 10 2.0 1.1 10.0
SIM ... H6
MVR 6 B2.0 L15 64 15 2.0 1.1 12.0
MVR 6 B2.0 L22 64 22 2.0 1.1 12.0
MVR 6 B2.5 L15 64 15 2.5 1.4 10.0
MVR 6 B2.5 L22 64 22 2.5 1.4 12.0
MVR 6 B3.0 L22 64 22 3.0 1.6 10.0
8.0 MVR 8 B3.0 L27 64 27 3.0 1.6 15.0 SIM ... H8
MVR 8 B3.0 L43 80 43 3.0 1.6 15.0
8.0 MVR 8 B4.0 L43 80 43 4.0 2.1 20.0 SIM ... H8
Grade P M K N S H
K20
BXC
BMK
First choice Alternative
®
Tiny Tools
A06-29
MZR Bars Face Grooving
Order example: MZR 5 R0.5 L22 BXC
For additional holders see page A06-32 to 41
D Ordering Code L L1 RW T F Min.
Dia. Holder
4.0 MZR 4 R0.5 L15 51 15 0.50 1.0 1.2 1.95 5.0 SIM ... H4
MZR 4 R0.75 L15 51 15 0.75 1.5 1.5 1.95 5.0
MZR 5 R0.5 L22 51 22 0.50 1.0 1.2 2.45 6.0
5.0 MZR 5 R0.75 L22 51 22 0.75 1.5 1.5 2.45 6.0 SIM ... H5
MZR 5 R1.0 L22 51 22 1.00 2.0 2.5 2.45 6.0
MZR 6 R0.5 L22 51 22 0.50 1.0 1.2 2.95 8.0
6.0 MZR 6 R0.75 L22 51 22 0.75 1.5 1.5 2.95 8.0 SIM ... H6
MZR 6 R1.0 L22 51 22 1.00 2.0 2.5 2.95 8.0
Grade P M K N S H
K20
BXC
BMK
Alternative
First choice Alternative
®
Tiny Tools
A06-30
MZL Bars Face Grooving
Order example: MZL 5 R0.5 L22 BXC
For additional holders see page A06-32 to 41
D Ordering Code L L1 RW T F Min.
Dia. Holder
4.0 MZL 4 R0.5 L15 51 15 0.50 1.0 1.2 1.75 5.0 SIM ... H4
MZL 4 R0.75 L15 51 15 0.75 1.5 1.5 1.75 5.0
MZL 5 R0.5 L22 51 22 0.50 1.0 1.2 2.25 6.0
5.0 MZL 5 R0.75 L22 51 22 0.75 1.5 1.5 2.25 6.0 SIM ... H5
MZL 5 R1.0 L22 51 22 1.00 2.0 2.5 2.25 6.0
MZL 6 R0.5 L22 51 22 0.50 1.0 1.2 2.75 8.0
6.0 MZL 6 R0.75 L22 51 22 0.75 1.5 1.5 2.75 8.0 SIM ... H6
MZL 6 R1.0 L22 51 22 1.00 2.0 2.5 2.75 8.0
Grade P M K N S H
K20
BXC
BMK
First choice Alternative
®
Tiny Tools
A06-31
Product Identication - Ordering Codes
Min. Bore Dia.
1 = 1.2 - 1.6 mm
2 = 2.2 mm
3 = 2.9 mm
4 = 3.9 mm
5 = 4.9 mm
Socket Size
S12 = 1.2 - 1.6 mm
S16 = 1.6 - 2.3 mm
S23 = 2.3 - 2.9 mm
S30 = 3.0 - 4.0 mm
S40 = 4.0 - 5.0 mm
S50 = 5.0 - 8.0 mm
Maximum
Cutting depth
L2= 2.3 - 2.5 mm
L4 = 4.0 mm
L5 = 5.5 mm
L6 = 6.5 mm
L9 = 9.5 mm
Hexagon
Keys
Grade
HK S30 BMK3 L5
Order example: HK 1 S12 L2 BMK
For additional holders see page A06-32 to 41
S = Socket Size
HK Broaching Tools for Hexagon Keys
D S Ordering Code L L1 RFMin.
Dia. Holder
4.0 1.2-1.6 HK 1 S12 L2 51 2.3 0.05 0.10 1.2 SIM…H4
1.6-2.3 HK 1 S16 L2 51 2.5 0.05 0.10 1.6
5.0
2.3-2.9 HK 2 S23 L4 51 4.0 0.05 1.35 2.2
SIM…H53.0-4.0 HK 3 S30 L5 51 5.5 0.05 1.35 2.9
4.0-5.0 HK 4 S40 L6 51 6.5 0.10 1.35 3.9
7.0 5.0-8.0 HK 5 S50 L9 62 9.5 0.10 1.35 4.9 SIM…H7
Grade P M K N S H
BMK
Demonstration
Alternative
First choice Alternative
®
Tiny Tools
A06-32
Tiny Tools Toolholders
Product Identication - Ordering Codes
Internal Coolant
S S0020 H3
Clamping
Method
S = Screw
I
I = Internal
M
M = Tiny Bars
Swiss Type
Bar Diameter
3 = 3.0 mm
4 = 4.0 mm
5 = 5.0 mm
6 = 6.0 mm
7 = 7.0 mm
8 = 8.0 mm
10
= 10.0 mm
Shank Cross Section
Metric
0012 = 12 mm
0016 = 16 mm
0020 = 20 mm
0022 = 22 mm
0025 = 25 mm
D1 Ordering Code D d L Key Clamping Screw Adjusting Screw
3.0
SIM 0012 H3 12 12 88 K16, K25 S24 S35
SIM 0016 H3S 16 20 75 K25 S25 S35S
SIM 0016 H3 16 20 88 K25 S25 S35
SIM 0020 H3 20 20 88 K25 S25 S35
SIM 0022 H3 22 22 88 K25 S25 S35
SIM 0022 H3K 22 22 120 K25 S25 S55
SIM 0025 H3M 25 25 150 K25 S25 -
®
Tiny Tools
A06-33
D1 Ordering Code D d L Key Clamping
Screw
Adjusting
Screw
3.0 SIM 0025 H3 25 10.8 62 K25 S25 S35M
4.0 SIM 0025 H4 25 10.8 62 K25 S25 S35M
5.0 SIM 0025 H5 25 10.8 62 K25 S25 S35M
6.0 SIM 0025 H6 25 10.8 62 K25 S25 S35M
7.0 SIM 0025 H7 25 10.8 62 K25 S25 S35M
8.0 SIM 0025 H8 25 10.8 62 K25 S25 S35M
Internal Coolant
Adjusting screw
D1 Ordering Code D d L Key Clamping Screw Adjusting Screw
4.0
SIM 0012 H4 12 12 88 K16, K25 S24 S35
SIM 0016 H4S 16 20 75 K25 S25 S35S
SIM 0016 H4 16 20 88 K25 S25 S35
SIM 0020 H4 20 20 88 K25 S25 S35
SIM 0022 H4 22 22 88 K25 S25 S35
SIM 0022 H4K 22 22 120 K25 S25 S55
SIM 0025 H4M 25 25 150 K25 S25 -
5.0
SIM 0012 H5 12 12 88 K16, K25 S24 S35
SIM 0016 H5S 16 20 75 K25 S25 S35S
SIM 0016 H5 16 20 88 K25 S25 S35
SIM 0020 H5 20 20 88 K25 S25 S35
SIM 0022 H5 22 22 88 K25 S25 S35
SIM 0022 H5K 22 22 120 K25 S25 S55
SIM 0025 H5M 25 25 150 K25 S25 -
6.0
SIM 0012 H6 12 14 88 K16, K25 S24 S35
SIM 0016 H6S 16 20 75 K25 S25 S35S
SIM 0016 H6 16 20 88 K25 S25 S35
SIM 0020 H6 20 20 88 K25 S25 S35
SIM 0022 H6 22 22 88 K25 S25 S35
SIM 0022 H6K 22 22 120 K25 S25 S55
SIM 0025 H6M 25 25 150 K25 S25 -
7.0
SIM 0016 H7 16 20 88 K25 S25 S35
SIM 0020 H7 20 20 88 K25 S25 S35
SIM 0022 H7 22 22 88 K25 S25 S35
8.0
SIM 0016 H8 16 20 88 K25 S25 S35
SIM 0020 H8 20 20 88 K25 S25 S35
SIM 0022 H8 22 22 88 K25 S25 S35
10.0
SIM 0016 H10 16 20 88 K25 S25S S35
SIM 0020 H10 20 20 88 K25 S25S S35
SIM 0022 H10 22 22 88 K25 S25 S35
®
Tiny Tools
A06-34
Tiny Tools Toolholders for Star Swiss machines
Carmex has developed a unique external turning holder for the sub-spindle on CNC
Swiss type lathes.
D1 Ordering Code D d L L1 L2 dp key Clamping
Screw
3.0 SIM 22S H3 22 16 40 18 25 4/6 K16, K25 S24P
3.0 SIM 22S H3-L 22 16 50 28 25 4/6 K16, K25 S24P
4.0 SIM 22S H4 22 16 40 18 25 4/6 K16, K25 S24P
4.0 SIM 22S H4-L 22 16 50 28 25 4/6 K16, K25 S24P
5.0 SIM 22S H5 22 16 40 18 25 4/6 K16, K25 S24M
5.0 SIM 22S H5-L 22 16 50 28 25 4/6 K16, K25 S24M
6.0 SIM 22S H6 22 16 40 18 25 4/6 K16, K25 S24M
6.0 SIM 22S H6-L 22 16 50 28 25 4/6 K16, K25 S24M
7.0 SIM 22S H7 22 20 40 18 25 4/6 K25 S25
8.0 SIM 22S H8 22 20 40 18 25 4/6 K25 S25
8.0 SIM 22S H8-L 22 20 50 28 25 4/6 K25 S25
10.0 SIM 22S H10 22 20 40 18 25 4/6 K25 S25S
10.0 SIM 22S H10-L 22 20 50 28 25 4/6 K25 S25S
The Tiny tool can be gripped
in two directions, allows a
turning operation on X and Y
axis.
®
Tiny Tools
A06-35
The new innovative CIM clamping system provides high precision and repeatability of the Tiny Tools
cutting edge, as well as fast and easy tool exchange without removing the holder.
The CIM system includes an internal tool indexing mechanism which index the tool in the correct
orientation, as well as strong and rigid collet clamping for high stability.
No screws required
Enable fast and accurate exchange of the Tiny Tool inside the machine without removing
the CIM holder from the machine, or additional tool setup.
Holders with three clamping ats on the shank for maximum exibility.
Fits standard and special Carmex Tiny Tools
Internal coolant through the CIM holder and the Tiny Tool pointing to the cutting edge.
CIM-Fast Clamping System
CIM – Toolholder
Product Identication - Ordering Codes
CIM 0016 H4
Clamping
System
C = Collet
Tiny Tools,
Bar Diameter
4 = 4.0 mm
5 = 5.0 mm
6 = 6.0 mm
Shank Cross Section
Metric Version
16 = Ø16 mm
20 = Ø20 mm
Inch Version
0625 = Ø.625”
0750 = Ø.75”
®
Tiny Tools
A06-36
D1 Ordering Code D L L1 L2 B H
4.0 CIM 0016 H4 16 88 22 58 22 36
CIM 0020 H4 20 88 22 58 22 36
5.0 CIM 0016 H5 16 88 22 58 22 36
CIM 0020 H5 20 88 22 58 22 36
6.0 CIM 0016 H6 16 88 22 58 22 36
CIM 0020 H6 20 88 22 58 22 36
D1 mm Ordering Code D" L" L1" L2" B" H"
4.0 CIM 0625 H4 5/8 3.5 .87 2.3 .87 1.4
CIM 0750 H4 3/4 3.5 .87 2.3 .87 1.4
5.0 CIM 0625 H5 5/8 3.5 .87 2.3 .87 1.4
CIM 0750 H5 3/4 3.5 .87 2.3 .87 1.4
6.0 CIM 0625 H6 5/8 3.5 .87 2.3 .87 1.4
CIM 0750 H6 3/4 3.5 .87 2.3 .87 1.4
Metric Version
Inch Version
Spare parts
Clamping nut Wrench key Adjusting screw Adjusting screw key Coolant supply
connector
CN19 WK19 S35 K25 P-M6-4
* P-M6-6 also available
Adjusting Screw
®
Tiny Tools
A06-37
CIM – clamping system details
Wrench key
Clamping Nut
Build in Collet
Indexing Mechanism
Tool Holder
Tiny Tool
Coolant connector
®
Tiny Tools
A06-38
General instructions for use
The CIM toolholder system is designed for a fast and simple way of achieving correct indexing of Tiny Tools
inside the machine.
Following is a recommended procedure for the rst use:
1. Adjust the rear stopper screw according the tool required over-hang.
Insert the Tiny Tool into the collet and push it gently until it passes the internal indexing mechanism.
Adjust the rear stopper screw according the required overhang (do not set the nal tool orientation).
That procedure should be done only once and outside the machine.
2. Remove the Tiny Tool from the CIM toolholder and mount the holder on the machine.
Clamp it well and it is ready to use. At that point the clamping nut should be screwed on the toolholder
collet by hand and remain open.
3. Insert the Tiny Tool into the CIM collet and push it inside gently until you will hear a click.
Rotate the tool by hand clock wise and counter clock wise until you hear a click and the indexing
mechanism set the tool to center.
4. Close the nut by the wrench key.
In that point the tool is ready to use.
For a tool replacement, open the collet with the wrench key, replace the tool, close the collet and continue
working.
®
Tiny Tools
A06-39
Tiny Tools Toolholders - Square Shank
for internal machining
D1 Ordering Code H B L1 L Hc Bc H1 Key Clamping
Screw
3.0 SEMV 1010 H3 10 10 24 110 10 5 14.7 K16 S24
SEMV 1212 H3 12 12 24 110 12 6 16.7 K16 S24
4.0 SEMV 1010 H4 10 10 36 110 10 5 15.2 K16 S24
SEMV 1212 H4 12 12 36 110 12 6 17.2 K16 S24
5.0 SEMV 1010 H5 10 10 36 110 10 5 15.7 K16 S24
SEMV 1212 H5 12 12 36 110 12 6 17.7 K16 S24
6.0 SEMV 1010 H6 10 10 33 110 10 5 16.2 K16 S24
SEMV 1212 H6 12 12 33 110 12 6 18.2 K16 S24
S 1212 H5
Clamping
Method
S = Screw
E
E = External
Square
Shank
M V
M = Tiny Vertical
Bar Diameter
H3 = 3.0 mm
H4 = 4.0 mm
H5 = 5.0 mm
H6 = 6.0 mm
Shank Cross Section
1010 = 10x10 mm
1212 = 12x12 mm
Product Identication - Ordering Codes
®
Tiny Tools
A06-40
S 1616 H5
Clamping
Method
S = Screw
E
E = External
Square
Shank
M R
M = Tiny
Bars / Tools Right Hand
Bar Diameter
3 = 3.0 mm
4 = 4.0 mm
5 = 5.0 mm
6 = 6.0 mm
Shank Cross Section
1212 = 12x12 mm
1616 = 16x16 mm
Product Identication - Ordering Codes
Clamping
Screw
KeyH1LcHcL1LB1BHOrdering CodeD1
S25K25207121688201212SEM R 1212 H3
3.0 S25K252471616120241616SEM R 1616 H3
S25K25207121688201212SEM R 1212 H4
4.0 S25K252471616120241616SEM R 1616 H4
S25K25207121688201212SEM R 1212 H5
5.0 S25K252471616120241616SEM R 1616 H5
S25SK25207121688201212SEM R 1212 H6
6.0 S25SK252471616120241616SEM R 1616 H6
Right hand version
®
Tiny Tools
A06-41
Connecting thread M6
Clamping screws
* Optional
SE M K 1216 H3 S
E = External
Square Shank with
Knee
M = Tiny Bars Swiss Type
Clamping Method
S = Screw
Bar Diameter
3 = 3.0 mm
4 = 4.0 mm
5 = 5.0 mm
6 = 6.0 mm
Shank Cross Section
0816 = 8 x 16 mm
1016 = 10 x 16 mm
1216 = 12 x 16 mm
Product Identication - Ordering Codes
D1 Ordering Code B L L1 L2 H h h1 d max. *dp Key Clamping
Screw
SEMK 0816 H3S 16 100 17 25 46 8 16 26 4/6 K25
3.0 SEMK 1016 H3S 16 100 17 25 46 10 18 26 4/6 K25 S25
SEMK 1216 H3S 16 100 17 25 46 12 20 26 4/6 K25
SEMK 0816 H4S 16 100 17 25 58 8 16 26 4/6 K25
4.0 SEMK 1016 H4S 16 100 17 25 58 10 18 26 4/6 K25 S25
SEMK 1216 H4S 16 100 17 25 58 12 20 26 4/6 K25
SEMK 0816 H5S 16 100 17 25 58 8 16 26 4/6 K25
5.0 SEMK 1016 H5S 16 100 17 25 58 10 18 26 4/6 K25 S25
SEMK 1216 H5S 16 100 17 25 58 12 20 26 4/6 K25
SEMK 0816 H6S 16 100 17 25 58 8 16 26 4/6 K25
6.0 SEMK 1016 H6S 16 100 17 25 58 10 18 26 4/6 K25 S25
SEMK 1216 H6S 16 100 17 25 58 12 20 26 4/6 K25
®
Tiny Tools
A06-42
Face Grooving
Grooving
Tiny Tools Kits
MTR 4 R0.2 L10
MPR 4 R0.2 L10
MIR 4 L15 A60
MCR 4 R0.2 L15
MGR 4 B1.5 L10
MFR 4 B1.0 L15
SIM 0020 H4
K25
KT4-20 KT5-20
MTR 5 R0.2 L15
MPR 5 R0.2 L15
MIR 5 L15 A60
MCR 5 R0.2 L15
MGR 5 B1.5 L15
MFR 5 B1.0 L22
SIM 0020 H5
K25
Boring
Proling
Threading
Chamfering
Grooving
Face Grooving
Holder
Key
Order example: KT4-20
Also available are kits with a
16 mm or 22 mm shank diameter bar holder.
Order example: KT4-16
Boring
Threading
Proling & Boring
Chamfering & Boring
®
Tiny Tools
A06-43
Technical Section
Carbide Grades:
BXC (P30 - P50, K25 - K40)
PVD TiN coated grade for low cutting speed.
Works well with a wide range of stainless steels.
BMK (K10 - K20)
Sub-micron grade with advanced PVD triple coating. Extremely high heat
resistant and smooth cutting operation, for high performance, and normal machining conditions.
General purpose for all materials.
K20 (K10 - K30)
Uncoated Carbide grade for non ferrous metals, aluminum and cast iron.
TNX
New advanced carbide grade
TNX
for higher feeds and high performance, at medium to high cutting
speed. Extra ne grain size with high hardness and toughness combined with triple layer reddish
coating, provides high edge stability and better chip ow. Available only for CBR bars.
Cutting speed for Tiny Tools
Recommended Feed Rate: 0.01 - 0.03 mm/rev
For CMR Tiny Tools see page A06-45
Cutting Speed m/min
Condition
Material
ISO
Stan-
dard
TNX
K20BMKBXC
36 - 8030 - 8025 - 70
Annealed<%0.25C
Non-Alloy steel
and cast steel,
free cutting steel
P
Annealed≥%0.25C
Quenched and tempered< %0.55C
Annealed≥%0.55C
Quenched and tempered≥%0.55C
30 - 5025 - 5020 - 40
Annealed
Low alloy steel and cast steel
(less than %5 alloying elements) Quenched and tempered
30 - 5025 - 5020 - 40
Annealed
High alloy steel, cast steel, and
tool steel Quenched and tempered
36 - 6030 - 6025 - 40
Ferritic/martensitic
Stainless steel and cast steel
MMartensitic
Austenitic
36 - 8030 - 8025 - 60
Ferritic/pearlitic
Cast iron nodular (GGG)
K
Pearlitic
36 - 8030 - 8030 - 70
Ferritic
Grey cast iron (GG) Pearlitic
24 - 5020 - 5020 - 40
Ferritic
Malleable cast iron Pearlitic
72 - 12030 - 5060 - 12050 - 100
Not cureable
Aluminum-wrought alloy
N
Cured
60 - 9020 - 4050 - 9040 - 80
Not cureable ≤%12 Si
Aluminum- cast,
alloyed Cured
High temperature >%12 Si
36 - 7020 - 4030 - 7030 - 60
Free cutting>%1 Pb
Copper alloys Brass
Electrolytic copper
20 - 4040 - 80
Duroplastics, ber plastics
Non metalic Hard rubber
18 - 4015 - 4015 - 30
Annealed
Fe based
High temp.
alloys,
Super alloys
S
Cured
Annealed
Ni or Co based Cured
Cast
12 - 3010 - 3010 - 30Alpha+beta alloys curedTitanium, Titanium alloys
18 - 4014 - 4010 - 30
Hardened 45-50 HRc
Hardened steel
HHardened 51-55 HRc
Hardened 56-62 HRc
12 - 3010 - 3010 - 30CastChilled cast iron
12 - 2010 - 2010 - 20HardenedCast iron
®
Tiny Tools
A06-44
Threading Passes
Pitch: mm
TPI
0.5
48
0.7
36
0.8
32
1.0
24
1.25
20
1.5
16
2-5
14-5
Number of Passes 6 - 12 7 - 14 7 - 16 8 - 18 8 - 20 10 - 22 20 - 38
Carmex is introducing a new and innovative Multi-Task Tiny Tool CMR for Boring, Turning, Facing
and Chamfering with a single tool.
The unique design enables machining of the material without the need for a pilot hole.
The new tool shortens the machining cycle time and the number of tools required - providing
High Productivity.
Eective through coolant hole with a spiral ute, evacuates the chips out of the hole
uninterruptedly.
Unique chip breaker and ute design.
To use with standard SIM toolholders on Swiss Type or CNC lathe machines.
Available in BMK Grade only.
CMR Carmex Multi-Task Tiny Tools
Working Method
The tool penetrates the work piece and produces the hole compliant with the minimum diameter
the tool allows.
The tool can penetrate the material in one pass or several passes depending
on the work piece material, coolant pressure, machine power etc.
The hole can be enlarged by multi radial passes.
Drilling/Boring into solid material
Turning, Facing, Proling
Chamfering
The tool is equipped with an additional cutting edge, which is located across the main
front edge. This allows production of an additional 45° chamfer on the work piece without the need to stop
the spindle or processing operation.
Rear view of the
cutting chamfer
®
Tiny Tools
A06-45
Cutting Data
Coolant uid
Dry machining should not be performed under any circumstances.
It is necessary to use an internal coolant in all applications.
Oil or Emulsion lubricants are recommended for best performance.
In the event of low coolant pressure, adding an external coolant can improve the tool
operation.
The cooling stream is designed to provide three benets:
1. Cooling the cutting edge of the tool, and the contact area.
2. Pushing the chip away from the tool quickly, thereby reducing wear of the edge.
3. Helping to break the chip into smaller pieces and evacuating them from the cutting area.
CMR General Recommendations
Recommended Feed Rate: 0.01 - 0.03 mm/rev
Cutting Speed m/minMaterial
ISO
Standard
20 - 75
Low and Medium Carbon Steels <0.55%C
P20 - 75
High Carbon Steels ≥0.55%C
20 - 60
Alloy Steels, Treated Steels
20 - 60
Stainless Steels - Free Cutting
M20 - 50
Stainless Steels - Austenitic
20 - 70
Cast Steels
20 - 90
Cast Iron
K
40 - 150
Aluminum ≤12%Si, Copper
N20 - 100
Aluminum >12% Si
40 - 150
Synthetics, Duroplastics, Thermoplastics
15 - 60
Nickel Alloys, Titanium Alloys
S
60 - 70
Hardened Steels
H
®
Tiny Tools
A06-46
Cutting Data
Material Tensile Strength (N/mm2)Feed rate (mm/min) In-feed per stroke (mm)
400-650 7000-9000 0.06-0.09
700-850 5000-6500 0.04-0.07
900-1000 4000-5500 0.03-0.05
1100-1200 3000-4500 0.02-0.04
The cutting data above is an initial recommendation and depends on the machine condition, workpiece
prole and the application clamping
A relief groove is highly recommended, if not possible a gradual volume decrease
should be made at the end of the broaching groove
The HK tool must be positioned outside of the hole/groove before each stroke
After setup and rst stroke, we recommend to observe the tool and the application to
make sure no collision occurred
Working Demo
HK Broaching Tools for Hexagon Keys
The HK broaching system have been developed to machine internal keyways inside blind or
through holes, using CNC machines.
To use with Carmex standard SIM Bar Holders
The holder can be located directly in the turret or
the machine spindle
Holder with rear clamping screw for full support
during operation
Available in BMK Grade only.
®
Swiss-Line
A07-1
Advantages
Carbide grade: BLU-Sub-Micron grade with advanced PVD triple layer coating delivering high heat
resistance and smooth cutting operation.
Carbide shank toolholder provides excellent
vibration resistance.
Long reach.
Through coolant.
For threading, grooving, boring and chamfering.
Quick indexing.
Typical Applications:
Long threads or applications requiring over-hang.
Enables production of threads with large pitch/prole.
Threading, grooving, boring, proling and chamfering - It’s
possible to oer most of the Tiny Tools proles on the insert.
Contents: Page: Contents: Page:
Product Identication 2
Partial Prole 60° 3
Partial Prole 55° 3
Full Prole - ISO 4
Full Prole - UN 4
Acme 5
Trapez - DIN 103 5
Chamfering 6
Grooving 7
Grooving, Circlip Ring Grooves DIN 471/472 8
Full Radius Grooving 8
Back Turning 9
Boring and Proling 9
Boring, Proling and Facing 10
Face grooving 11
Face grooving, Full radius 12
Carbide Shank Toolholders 13
Steel Toolholders 14
Technical Section 14
Vertical Inserts and Toolholders for threading, chamfering, grooving and turning
Mini Tools A07
®
Mini Tools
A07-2
I = Internal
C = Chamfer
G = Grooving
K = Full Radius Grooving
X = Back Turning
FI = Face grooving Internal
FE = Face grooving External
ZI = Face grooving (Full radius)
Internal
ZE = Face grooving (Full radius)
External
PR = Proling right hand tool
QR = Boring and Proling 47° R.H.
H14 = Groove Depth
Teeth Depth
A22/ A47 = prole
angle
Insert Size
T8
T10
Carbide Grade
Thread Prole
Partial 60° & 55°
ISO UN
Acme, Trapez
W10 = Groove Width
R06 = Teeth Radius
Product Identication - Ordering Codes
T10 A60 BLUI
Inserts
Toolholders
Clamping
Method
S = Screw
Length of
Toolholder
J = 110
K = 125
M = 150
S 0012 L40 J 10 C
T
C =
carbide
shank
0008 = 8 mm
0012 = 12 mm
0016 = 16 mm
Shank
Diameter
08 = 8 mm
15 = 15 mm
20 = 20 mm
40 = 40 mm
Length of
Neck
Insert Size
08 = T8
10 = T10
®
Mini Tools
A07-3
Partial Prole 60°
Partial Prole 55°
Same insert for internal and external thread
Same insert for internal and external thread
Insert
Type Ordering Code Pitch Range
mm
Pitch Range
TPI
D
min F Y
T8 T8 G55 1.25-1.5 19-18 9.1 4.8 1.0
T8 U55 1.75-2.0 16-14 8.7 4.4 1.2
T10 T10 G55 1.25-2.0 19-14 12.4 7.2 1.2
Insert
Type Ordering Code Pitch Range
mm
Pitch Range
TPI
D
min F Y
T8
T8 A60 Int 0.5-0.75
Ex 0.4- 0.75
56-32
64-32 8.0 3.7 0.6
T8 G60 Int 1.0-1.25
Ex 0.8- 1.0
28-20
32-28 8.4 4.1 0.8
T10
T10 A60 Int 0.5-0.8
Ex 0.4-0.8
56-28
64-32 11.6 6.4 0.6
T10 G60 Int 1.0-2.0
Ex 0.8-1.75
28-13
32-15 12.3 7.1 1.3
T10 D60 Int 2.0-3.0
Ex 1.75-2.5
13-8
15-10 13.1 7.9 1.5
D min. Y
F
Order example: T8 G60 BLU
®
Mini Tools
A07-4
UN
Inserts for internal thread
Insert
Type Ordering Code Pitch
TPI Nominal size UNC UNF UNEF D
min F Y
T8
T8 I 32UN 32 7/16, 1/2 3/8 8.3 4.0 0.6
T8 I 28UN 28 3/8 7/16, 1/2 8.3 4.0 0.7
T8 I 24UN 24 3/8 8.3 4.0 0.7
T8 I 20UN 20 3/8 7/16, 1/2 8.2 3.9 0.9
T8 I 16UN 16 7/16, 1/2 8.7 4.4 1.0
T8 I 14UN 14 7/16 8.8 4.5 1.2
T8 I 13UN 13 1/2 8.8 4.5 1.3
T10
T10 I 20UN 20 9/16, 5/8, 11/16 3/4 12.0 6.8 0.9
T10 I 18UN 18 9/16, 5/8 12.0 6.8 1.0
T10 I 16UN 16 9/16, 5/8, 11/16 3/4 12.0 6.8 1.1
T10 I 14UN 14 7/8 12.1 6.9 1.2
T10 I 12UN 12 5/8, 11/16, 3/4 9/16 12.1 6.9 1.4
T10 I 11UN 11 5/8 12.5 7.3 1.5
T10 I 10UN 10 3/4 12.6 7.4 1.5
ISO
Inserts for internal thread
Full Prole
Insert
Type Ordering Code Pitch
mm
M
coarse
M
ne
D
min F Y
T8
T8 I 0.5 ISO 0.5 M8.5 8.0 3.6 0.5
T8 I 0.75 ISO 0.75 M9 8.1 3.8 0.6
T8 I 1.0 ISO 1.0 M9 8.0 3.7 0.7
T8 I 1.25 ISO 1.25 M10 8.2 3.9 0.8
T8 I 1.5 ISO 1.5 M10 M12 8.4 4.1 1.0
T8 I 1.75 ISO 1.75 M12 - 8.6 4.3 1.1
T8 I 2.0 ISO 2.0 M14 M17 8.8 4.5 1.3
T10
T10 I 0.5 ISO 0.5 M12 11.3 6.1 0.5
T10 I 0.75 ISO 0.75 M12 11.3 6.1 0.6
T10 I 1.0 ISO 1.0 M13 11.7 6.5 0.7
T10 I 1.5 ISO 1.5 M14 11.7 6.5 1.0
T10 I 2.0 ISO 2.0 M16 M17 12.0 6.8 1.3
T10 I 2.5 ISO 2.5 M18, M20 - 12.6 7.4 1.4
T10 I 3.0 ISO 3.0 M24 M28 12.6 7.4 1.6
D min.
Full Prole
Y
F
Order example: T10 I 0.5 ISO BLU
®
Mini Tools
A07-5
Acme
Inserts for internal thread
Insert
Type Ordering Code Pitch TPI Thread size D
min F Y
T8 T8 I 10 ACME 10 1/2-10 10.1 5.5 1.3
T10 T10 I 8 ACME 85/8-8 12.7 7.3 1.6
T10 I 6 ACME 63/4-6 14.8 7.9 2.0
Trapez - DIN103
Inserts for internal thread
Insert
Type Ordering Code Pitch mm Thread size D
min F Y
T8 T8 I 2TR 2Tr12x2, Tr14x2 10.0 4.8 1.0
T8 I 3TR 3 Tr14x3 11.0 5.8 1.5
T10
T10 I 2TR 2Tr16x2, Tr18x2, Tr20x2 14.0 7.0 1.0
T10 I 3TR 3 Tr22x3 19.0 7.9 1.5
*T10 I 4TR 4Tr16x4, Tr18x4 12.0 6.7 2.0
*To use with T10 toolholders version B
D min.
Y
D min.
Y
FF
Order example: T10 I 6 ACME BLU
®
Mini Tools
A07-6
D min. W
α
F
H
Chamfering
Same insert for right and left hand chamfers
Insert
Type Ordering Code W H
max αD
min F
T8 T8 C90 0.2 1.4 90° 8.8 4.5
T10 T10 C90 0.2 1.8 90° 12.7 7.5
Order example: T8 C90 BLU
®
Mini Tools
A07-7
D min.
W
R0.1
F
H
Grooving
Insert
Type Ordering Code WRH
max
D
min F
mm inch
T8
T8 G W08 H20 0.79 .031 0.1 2.0 9.4 5.1
T8 G W10 H20 1.0 .039 0.1 2.0 9.4 5.1
T8 G W12 H20 1.19 .047 0.1 2.0 9.4 5.1
T8 G W15 H20 1.5 .059 0.1 2.0 9.4 5.1
T8 G W16 H20 1.59 .063 0.1 2.0 9.4 5.1
T8 G W20 H20 2.0 .079 0.1 2.0 9.4 5.1
T8 G W24 H20 2.38 .094 0.1 2.0 9.4 5.1
T8 G W25 H20 2.5 .098 0.1 2.0 9.4 5.1
T8 G W30 H20 3.0 .118 0.1 2.0 9.4 5.1
T10
T10 G W08 H28 0.79 .031 0.1 2.8 13.4 7.9
T10 G W10 H14 1.0 .039 0.1 1.4 12.3 7.1
T10 G W10 H23 1.0 .039 0.1 2.3 13.1 7.9
T10 G W12 H28 1.19 .047 0.1 2.8 13.4 7.9
T10 G W15 H14 1.5 .059 0.1 1.4 12.3 7.1
T10 G W15 H23 1.5 .059 0.1 2.3 13.1 7.9
*T10 G W15 H40 1.5 .059 0.1 4.0 13.5 7.9
T10 G W16 H28 1.59 .063 0.1 2.8 13.4 7.9
T10 G W20 H14 2.0 .079 0.1 1.4 12.3 7.1
T10 G W20 H23 2.0 .079 0.1 2.3 13.1 7.9
*T10 G W20 H40 2.0 .079 0.1 4.0 13.5 7.9
T10 G W24 H28 2.38 .094 0.1 2.8 13.4 7.9
T10 G W25 H23 2.5 .098 0.1 2.3 13.1 7.9
*T10 G W25 H40 2.5 .098 0.1 4.0 13.5 7.9
T10 G W30 H23 3.0 .118 0.1 2.3 13.1 7.9
*T10 G W30 H40 3.0 .118 0.1 4.0 13.5 7.9
*To use with T10 toolholders version B
Tolerance: W±0.02 mm/.001”
Order example: T10 G W08 H28 BLU
®
Mini Tools
A07-8
D min.
W
F
H
Insert
Type Ordering Code W
± 0.02 RH
max
D
min F
T8
T8 K R04 H10 0.8 0.4 1.0 8.4 4.1
T8 K R06 H10 1.2 0.6 1.0 8.4 4.1
T8 K R09 H10 1.8 0.9 1.0 8.4 4.1
T10
T10 K R04 H22 0.8 0.4 2.2 13.1 7.9
*T10 K R04 H40 0.8 0.4 4.0 13.5 7.9
T10 K R06 H22 1.2 0.6 2.2 13.1 7.9
*T10 K R06 H40 1.2 0.6 4.0 13.5 7.9
T10 K R09 H22 1.8 0.9 2.2 13.1 7.9
*T10 K R09 H40 1.8 0.9 4.0 13.5 7.9
T10 K R10 H22 2.0 1.0 2.2 13.1 7.9
*T10 K R10 H40 2.0 1.0 4.0 13.5 7.9
Insert
Type Ordering Code Nom` groove
width
W
+0.03 RH
max
D
min F
T8
TD8 G W07 H12 0.7 0.73 0 1.2 8.8 4.3
TD8 G W08 H13 0.8 0.83 0 1.3 8.9 4.4
TD8 G W09 H18 0.9 0.93 0 1.8 9.4 4.9
TD8 G W12 H18 1.1 1.20 0 1.8 9.4 4.9
TD8 G W14 H18 1.3 1.40 0 1.8 9.4 4.9
TD8 G W17 H18 1.6 1.70 0 1.8 9.4 4.9
T10
TD10 G W07 H12 0.7 0.73 0 1.2 11.9 6.4
TD10 G W08 H13 0.8 0.83 0 1.3 12.0 6.5
TD10 G W09 H15 0.9 0.93 0 1.5 12.2 6.7
TD10 G W12 H28 1.1 1.20 0 2.8 13.4 7.9
TD10 G W14 H28 1.3 1.40 0 2.8 13.4 7.9
TD10 G W17 H28 1.6 1.70 0 2.8 13.4 7.9
Grooving, Circlip Ring Grooves
DIN 471/472
*To use with T10 toolholders version B
Full Radius Grooving
Order example: TD10 G W17 H28 BLU
R
W
H
F
D min.
®
Mini Tools
A07-9
D min.
R
F
H
1.5
30˚
Back Turning
Boring and Proling
Insert
Type Ordering Code α R H D
min F
T8
T8 PR R01 A22 22⁰ 0.1 1.0 9.2 5.0
T8 PR R02 A22 22⁰ 0.2 1.0 9.2 5.0
T8 QR R01 A47 47⁰ 0.1 1.9 9.2 5.0
T8 QR R02 A47 47⁰ 0.2 1.9 9.2 5.0
Insert
Type Ordering Code RH
max
D
min F
T8 T8 X R02 H20 0.2 2.0 9.4 5.1
T10
T10 X R02 H23 0.2 2.3 13.1 7.9
*T10 X R02 H35 0.2 3.5 13.5 7.9
T10 X R04 H23 0.4 2.3 13.1 7.9
*To use with T10 toolholders version B
D min.
R
H
α
3˚
F
Order example: T8 PR R01 A22 BLU
®
Mini Tools
A07-10
R
H
Y
F
D min.
α
8˚
Boring, Proling and Facing
Insert
Type Ordering Code α β R H Y D
min F
T10
T10 PR R01 A22 22⁰ 8⁰ 0.1 1.9 0.9 12.9 7.7
T10 PR R02 A22 22⁰ 8⁰ 0.2 1.9 0.9 12.9 7.7
T10 QR R01 A47 47⁰ 3⁰ 0.1 2.6 0.4 12.9 7.7
T10 QR R02 A47 47⁰ 3⁰ 0.2 2.6 0.4 12.9 7.7
Order example: T10 PR R01 A22 BLU
®
Mini Tools
A07-11
H
Dmin.
R0.2
W
F
H
R0.2
F
W
D min. ØMin.Bore
Face grooving
Internal
Insert
Type Ordering Code W
±0.02
H
max
D
min F
T10
T10 FI W10 H15 1.0 1.5
14.0 8.0
T10 FI W15 H25 1.5 2.5
T10 FI W20 H30 2.0 3.0
T10 FI W20 H50 2.0 5.0
T10 FI W25 H30 2.5 3.0
T10 FI W25 H50 2.5 5.0
T10 FI W30 H30 3.0 3.0
T10 FI W30 H50 3.0 5.0
H
R0.2
W
F
Dmin.
External
Insert
Type Ordering Code W
±0.02
H
max
D
min F
T10
T10 FE W10 H15 1.0 1.5
12.0 8.0
T10 FE W15 H25 1.5 2.5
T10 FE W20 H30 2.0 3.0
T10 FE W20 H50 2.0 5.0
T10 FE W25 H30 2.5 3.0
T10 FE W25 H50 2.5 5.0
T10 FE W30 H30 3.0 3.0
T10 FE W30 H50 3.0 5.0
ØMin.Bore
Order example: T10 FI W30 H50 BLU
®
Mini Tools
A07-12
ØMin.Bore
D min.
H
W
F
R
Face grooving, Full radius
Internal
External
Insert
Type Ordering Code W
±0.02 RH
max
D
min F
T10
T10 ZI R05 H15 1.0 0.5 1.5
14.0 8.0
T10 ZI R08 H25 1.6 0.8 2.5
T10 ZI R10 H30 2.0 1.0 3.0
T10 ZI R125 H30 2.5 1.25 3.0
T10 ZI R15 H30 3.0 1.5 3.0
Insert
Type Ordering Code W
±0.02 RH
max
D
min F
T10
T10 ZE R05 H15 1.0 0.5 1.5
12.0 8.0
T10 ZE R08 H25 1.6 0.8 2.5
T10 ZE R10 H30 2.0 1.0 3.0
T10 ZE R125 H30 2.5 1.25 3.0
T10 ZE R15 H30 3.0 1.5 3.0
Order example: T10 ZI R05 H15 BLU
R
H
F
W
ØMin.Bore
D min.
®
Mini Tools
A07-13
Carbide Shank Toolholders
With through coolant
Insert
Type Ordering Code D D1 L1 L Insert
Screw Torx Key Toolholder
Version
T10
ST 0010 L29 H10C 10 8.8 29 100 S11 K11 B
ST 0010 L40 J10C 10 8.8 40 110 S11 K11 B
ST 0010 M10C 10 10.0 - 150 S11 K11 A
ST 0012 L37 J10C 12 8.8 37 110 S11 K11 B
ST 0012 L40 J10C 12 10.0 40 110 S11 K11 A
ST 0012 L50 K10C 12 8.8 50 125 S11 K11 B
ST 0012 L55 K10C 12 10.0 55 125 S11 K11 A
Insert
Type Ordering Code D D1 L1 L Insert
Screw Torx Key
T8
ST 0008 L20 F08C 8 7 20 80 S5 K5
ST 0008 L30 G08C 8 7 30 95 S5 K5
ST 0008 L40 H08C 8 7 40 105 S5 K5
Version A
Version B
D
D
D
D1
L1
L
L
L
D1
D1
L1
L1
Order example: ST 0012 L37 J10C
®
Mini Tools
A07-14
Technical Section
Threading Passes
Cutting Data
Pitch: mm
TPI
0.5
48
0.7
36
0.8
32
1.0
24
1.25
20
1.5
16
2-5
14-5
Number of Passes 6-12 7-14 7-16 8-18 8-20 10-22 20-38
ISO Materials Cutting Speed
m/min
Recommended feed
rate mm/rev
P
Low and Medium Carbon Steels <0.55%C 25 - 70
Grooving: 0.01-0.03
Back turning: 0.03-0.10
Face grooving: 0.01-0.08
Chamfering: 0.02-0.08
High Carbon Steels ≥0.55%C 20 - 50
Alloy Steels, Treated Steels 15 - 30
MStainless Steels - Free Cutting 25 - 70
Stainless Steels - Austenitic 20 - 40
Cast Steels 30 - 70
KCast Iron 15 - 30
N
Aluminum ≤12%Si, Copper 30 - 90
Aluminum >12% Si 20 - 70
Synthetics, Duroplastics, Thermoplastics 20 - 70
SNickel Alloys, Titanium Alloys 20 - 50
HHardened Steel 45 - 50HRc 10 - 40
Steel Toolholders
Insert
Type Ordering Code D D1 L1 L Insert Screw Torx Key
T10
ST 0012 L25 E10 12 10 25 70 S11 K11
ST 0016 L25 G10 16 10 25 90 S11 K11
ST 0016 L35 H10 16 10 35 100 S11 K11
D1
L1
L
D
Carbide Grades
PVD triple layer coated Sub-Micron grade for Steel, Stainless Steels, Titanium and hard
materials.
BLU
®
Swiss-Line
A08-1
Contents: Page: Contents: Page:
Introduction 2
Polygon Inserts and Toolholders 2-15
Product Identification - Inserts 3
Grooving and Turning 4
Grooving, Circlip Ring Grooves 5
Grooving and Profiling (full radius) 6
Parting O and Grooving 7-8
Back Turning 9
Front Turning 9
Threading - Partial Profile 60° 10
Threading - Partial Profile 55° 10
Threading - ISO metric 60° Full Prole 11
Threading - UN unified 60° Full Prole 11
External Toolholders 12-13
Product Identification - Toolholders 12
External Toolholders with Internal Coolant 13
Working Method 14
Technical Section - Polygon Swiss Line 15
3 Cutting Edges Swiss Line Inserts and Toolholders 16-30
Product Identification –Inserts 17
16 mm Inserts and Toolholders 18
Grooving 18
Grooving, Circlip Ring Grooves 18
External Toolholders 19
Technical Section -
3 Cutting Edges Swiss Line Inserts (16 mm) 20
19,20 mm Inserts and Toolholders 21
Grooving and Turning 21
Grooving and Proling (full radius) 22
Par ting O 23
Back Turning 24
Front Turning 24
Threading - Partial Prole 60° 25
Threading - Partial Prole 55° 25
Threading - ISO metric 60° - Full Prole 26
Threading - UN unified 60° - Full Prole 26
External Toolholders 27-28
Product Identification – Toolholders 27
Slim Holders 28
Working Method: Grooving –
Parting O – Turning – Proling – Threading 29
Technical Section -
3 Cutting Edges Swiss Line Inserts (19,20 mm) 30
6 Cutting edges G6 Turning Inserts and Toolholders
31-40
Product Identication - Inserts 32
Grooving 33
Grooving, Circlip Ring Grooves 34
Grooving and Profiling (full radius) 34
Parting O and Grooving 35
Back Turning 36
Front Turning 36
Threading - Partial Prole 60° 37
Threading - Partial Prole 55° 37
Threading - ISO metric 60° Full Prole 38
Threading - UN unified 60° Full Prole 38
External Toolholders 39
Product Identication - Toolholders 39
Technical Section – G6 Inserts 40
Swiss-Line
A08
®
Swiss-Line
A08-2
Carmex extends the Swiss Line range by offering a new type of polygon inserts
and toolholders for external turning, grooving, parting and threading on
Swiss-Type machines. Specially designed for small parts machining.
Polygon Inserts and Toolholders
Carbide grades: BLU, GX7, K20
High precision ground inserts.
All inserts can be used with same toolholders.
A combination of the latest carbide and coating technologies
guarantees maximum tool life and improved productivity.
Compatible with a wide range of materials.
Coated holders provide abrasive resistance.
Features
Swiss-Line
Swiss style lathes are becoming a popular alternative to large lathes and machining
centers in many companies.
Carmex offers a large and versatile product line of inserts and toolholders,
developed for automatic and Swiss style lathes.
Designed for economic production of parting, grooving, proling threading and
chamfering.
®
Swiss-Line
A08-3
Product Identication - Ordering Codes
Polygon Inserts
R = Full Radius
P = Parting
B = Back Turning
F = Front Turning
T = Threading
Width
W05 = 0.5 mm
W07 = 0.75 mm
Radius
R04 = 0.4 mm
R05 = 0.5 mm
A30 = 30°
Threading
A60 = 60° thread
A55 = 55° thread
Depth
T15 = 1.5 mm
T25 = 2.5 mm
T43 = 4.3 mm
T58 = 5.8 mm
T80 = 8.0 mm
R = Right Hand Cutting
L = Left Hand Cutting
RR = Right Hand Cutting
Right version
RL = Right Hand Cutting
Left version
LR = Left Hand Cutting
Right version
LL = Left Hand Cutting
Left version
RN = Right Hand Cutting
Neutral version
LN = Left Hand Cutting
Neutral version
Insert Size
L = 25, 40 mm
G = Swiss Groove
G25 W07R T25 BLU
Carbide Grade:
BLU = PVD triple coating
GX7= New generation
of grade and coating
K20 = Uncoated
®
Swiss-Line
A08-4
Grooving and Turning
For L.H, specify G25 L instead of G25 R
* Available for insert size G25... only
GX7*BLUK20
P
M
K
N
S
≤58 HRc≤45 HRc
H
R
TYPx2 W
T
Insert
Size L Ordering Code W ± 0.02 T max RFeed
mm/rev
25
G25 R W05 T15 0.5 1.5 0 0.01-0.06
G25 R W07 T25 0.75 2.5 0 0.02-0.07
G25 R W10 T27 1.0 2.7 0.05 0.02-0.09
G25 R W12 T30 1.2 3.0 0.05 0.02-0.10
G25 R W15 T38 1.5 3.8 0.05 0.02-0.12
G25 R W20 T38 2.0 3.8 0.05 0.02-0.13
G25 R W25 T38 2.5 3.8 0.05 0.02-0.14
40 G40 R W30 T80 3.0 8.0 0.05 0.02-0.14
G40 R W40 T80 4.0 8.0 0.05 0.02-0.14
Right Version
L
Right hand cutting
Alternative
First choice Alternative
®
Swiss-Line
A08-5
Grooving, Circlip Ring Grooves
For L.H, specify GD25 L instead of GD25 R
Nom`= nominal
Insert
Size L Ordering Code
Nom`
groove
width
W-0.05 T max RFeed
Inch/rev
25
GD25 R W05 T16 0.50 0.57 1.6 0 0.01-0.06
GD25 R W06 T17 0.60 0.67 1.7 0 0.01-0.06
GD25 R W07 T19 0.70 0.77 1.9 0 0.02-0.07
GD25 R W08 T22 0.80 0.87 2.2 0 0.02-0.09
GD25 R W09 T24 0.90 0.97 2.4 0 0.02-0.09
GD25 R W12 T31 1.10 1.24 3.1 0.05 0.02-0.10
GD25 R W14 T33 1.30 1.44 3.3 0.05 0.02-0.12
GD25 R W17 T33 1.60 1.74 3.3 0.05 0.02-0.13
GD25 R W19 T39 1.85 1.99 3.9 0.05 0.02-0.13
GD25 R W22 T45 2.15 2.29 4.5 0.05 0.02-0.14
GD25 R W27 T55 2.65 2.79 5.5 0.05 0.02-0.14
DIN 471/472
Right Version
R
TYPx2 W
T
L
GX7BLUK20
P
M
K
N
S
≤58 HRc≤45 HRc
H
Right hand cutting
Alternative First choice Alternative
®
Swiss-Line
A08-6
Grooving and Proling (full radius)
For L.H, specify GR25 L instead of GR25 R
Insert
Size L Ordering Code R±0.03 T max Feed
mm/rev
25
GR25 R R02 T15 0.25 1.5 0.01-0.06
GR25 R R04 T25 0.40 2.5 0.02-0.07
GR25 R R05 T27 0.50 2.7 0.02-0.09
Right Version
T
R
L
GX7BLUK20
P
M
K
N
S
≤58 HRc≤45 HRc
H
Right hand cutting
First choice Alternative
®
Swiss-Line
A08-7
Parting O and Grooving
For L.H, specify GP25 LR instead of GP25 RR
GP25 LL instead of GR25 RL
GP25 LN instead of GR25 RN
W W W
T TT
RNRR RL
α α
Insert
Size L Ordering Code W αº T max Feed
mm/rev
25
GP25 RR W05 T30 0.5 15 3.0 0.02-0.06
GP25 RL W05 T30 0.5 15 3.0 0.02-0.06
GP25 RN W05 T30 0.5 0 3.0 0.02-0.06
GP25 RR W07 T43 0.7 15 4.3 0.02-0.08
GP25 RL W07 T43 0.7 15 4.3 0.02-0.08
GP25 RN W07 T43 0.7 0 4.3 0.02-0.08
GP25 RR W08 T50 0.8 15 5.0 0.02-0.08
GP25 RL W08 T50 0.8 15 5.0 0.02-0.08
GP25 RN W08 T50 0.8 0 5.0 0.02-0.08
GP25 RR W10 T58 1.0 15 5.8 0.02-0.13
GP25 RL W10 T58 1.0 15 5.8 0.02-0.13
GP25 RN W10 T58 1.0 0 5.8 0.02-0.13
GP25 RR W12 T58 1.2 15 5.8 0.02-0.13
GP25 RL W12 T58 1.2 15 5.8 0.02-0.13
GP25 RN W12 T58 1.2 0 5.8 0.02-0.13
GP25 RR W15 T58 1.5 15 5.8 0.02-0.13
GP25 RL W15 T58 1.5 15 5.8 0.02-0.13
GP25 RN W15 T58 1.5 0 5.8 0.02-0.13
GP25 RR W18 T58 1.8 15 5.8 0.02-0.13
GP25 RL W18 T58 1.8 15 5.8 0.02-0.13
GP25 RN W18 T58 1.8 0 5.8 0.02-0.13
GP25 RR W20 T58 2.0 15 5.8 0.02-0.13
GP25 RL W20 T58 2.0 15 5.8 0.02-0.13
GP25 RN W20 T58 2.0 0 5.8 0.02-0.13
GP25 RR W20 T75 2.0 15 7.5 0.02-0.10
GP25 RL W20 T75 2.0 15 7.5 0.02-0.10
GP25 RN W20 T75 2.0 0 7.5 0.02-0.10
GP25 RR W25 T58 2.5 15 5.8 0.04-0.13
GP25 RL W25 T58 2.5 15 5.8 0.04-0.13
GP25 RN W25 T58 2.5 0 5.8 0.04-0.13
Right Version
L
GX7BLUK20
P
M
K
N
S
≤58 HRc≤45 HRc
H
Right hand cutting
Alternative First choice Alternative
®
Swiss-Line
A08-8
For L.H, specify GP25 LR instead of GP25 RR
GP25 LL instead of GR25 RL
GP25 LN instead of GR25 RN
Insert
Size L Ordering Code W αº T max Feed
mm/rev
40
GP40 RR W15 T80 1.5 15 8.0 0.03-0.08
GP40 RL
W15 T80 1.5 15 8.0 0.03-0.08
GP40 RN W15 T80 1.5 0 8.0 0.03-0.08
GP40 RR W18 T95 1.8 15 9.5 0.03-0.08
GP40 RL
W18 T95 1.8 15 9.5 0.03-0.08
GP40 RN W18 T95 1.8 0 9.5 0.03-0.08
GP40 RR W20 T110 2.0 15 11.0 0.03-0.08
GP40 RL
W20 T110 2.0 15 11.0 0.03-0.08
GP40 RN W20 T110 2.0 0 11.0 0.03-0.08
GP40 RR W25 T130 2.5 15 13.0 0.03-0.08
GP40 RL
W25 T130 2.5 15 13.0 0.03-0.08
GP40 RN W25 T130 2.5 0 13.0 0.03-0.08
GP40 RR W30 T130 3.0 15 13.0 0.03-0.08
GP40 RL
W30 T130 3.0 15 13.0 0.03-0.08
GP40 RN W30 T130 3.0 0 13.0 0.03-0.08
BLUK20
P
M
K
N
S
≤45 HRc
H
Parting O and Grooving
Right Version
W W W
T TT
RNRR RL
α α
L
Right hand cutting
First choice Alternative
®
Swiss-Line
A08-9
For L.H, specify GF25 L instead of GF25 R
For L.H, specify GB25 L instead of GB25 R
T
R
Insert
Size L Ordering Code ৠ᧠R WT
max B H Feed
mm/rev
25
GB25 R A30 R03 30 15 0.03 3.0 4.0 0.5 8.0 0.05-0.12
GB25 R A30 R10 30 15 0.10 3.0 4.0 0.5 8.0 0.05-0.12
GB25 R A30 R20 30 15 0.20 3.0 4.0 0.5 8.0 0.05-0.12
Insert
Size L Ordering Code T
max RFeed
mm/rev
25
GF25 R T40 4.0 0.05 0.05-0.12
GF25 R T40 R10 4.0 0.10 0.05-0.12
GF25 R T70 7.0 0.05 0.05-0.08
Front Turning
Right Version
Right Version
BLUK20
P
M
K
N
S
≤45 HRc
H
BLUK20
P
M
K
N
S
≤45 HRc
H
DETAIL A
B
T
W
H
R
ß
α
L
L
Right hand cutting
Right hand cutting
Back Turning
Alternative First choice Alternative
®
Swiss-Line
A08-10
For L.H, specify GT25 L instead of GT25 R
For L.H, specify GT25 L instead of GT25 R
Threading - Partial Prole 60°
Threading - Partial Prole 55°
Y
8
Insert
Size L Ordering Code Pitch Range Y
mm TPI
25 GT25 R A60 0.25-0.8 100-32 0.7
GT25 R G60 1.0-3.0 24-8 1.6
Insert
Size L Ordering Code Pitch Range Y
mm TPI
25 GT25 R A55 0.5-1.5 48-16 1.0
GT25 R G55 1.75-3.0 14-8 1.6
Right Version
BLUK20
P
M
K
N
S
≤45 HRc
H
BLUK20
P
M
K
N
S
≤45 HRc
H
L
Right hand cutting
Right hand cutting
First choice Alternative
®
Swiss-Line
A08-11
For L.H, specify GT25 L instead of GT25 R
For L.H, specify GT25 L instead of GT25 R
Threading - ISO metric 60˚ Full Prole
Threading - UN unied 60˚ Full Prole
Insert
Size L Ordering Code Pitch mm Y
25
GT25 R 0.5ISO 0.5 0.6
GT25 R 0.6ISO 0.6 0.6
GT25 R 0.7ISO 0.7 0.7
GT25 R 0.75ISO 0.75 0.7
GT25 R 0.8ISO 0.8 0.7
GT25 R 1.0ISO 1.0 0.8
GT25 R 1.25ISO 1.25 1.0
GT25 R 1.5ISO 1.5 1.1
Insert
Size L Ordering Code Pitch TPI Y
25
GT25 R 56UN 56 0.6
GT25 R 40UN 40 0.7
GT25 R 32UN 32 0.7
GT25 R 24UN 24 0.8
Right Version
8
BLUK20
P
M
K
N
S
≤45 HRc
H
BLUK20
P
M
K
N
S
≤45 HRc
H
L
Right hand cutting
Right hand cutting
External thread
External thread
Alternative First choice Alternative
®
Swiss-Line
A08-12
Product Identif
ication - Ordering Codes
External Toolholders
R = Right Hand
L = Left Hand Length of
Toolholders
K = 125 mm
E = External
B= Internal
Coolant
PG = Polygon Swiss
Toolholder
PG E B R K1010
Shank Cross Section
1010 = 10 x 10 mm
For L.H, specify PGE L instead of PGE R
Insert
Size Ordering Code B H L1 L F F1
Insert
Screw
Torx+
Key
Torx+
25
PGER 0808 K 8 8 8 125 10 10 S26PD K11P
PGER 1010 K 10 10 8 125 10 10 S26PD K11P
PGER 1212 K 12 12 8 125 12 12 S26PD K11P
PGER 1616 K 16 16 8 125 16 16 S26PD K11P
PGER 2020 K 20 20 8 125 20 20 S26PD K11P
40
PGER 1010 K40 10 10 13 125 10 10 S26PD K11P
PGER 1212 K40 12 12 13 125 12 12 S26PD K11P
PGER 1616 K40 16 16 13 125 16 16 S26PD K11P
PGER 2020 K40 20 20 13 125 20 20 S26PD K11P
PGER 2525 M40 25 25 13 150 25 25 S26PD K11P
F1
L1
B
FH
L
Right Version
Right hand cutting
®
Swiss-Line
A08-13
External Toolholders
with internal coolant
For L.H, specify PGE L B instead of PGE R B
Insert
Size Ordering Code B H L1 L2 L F F1
Insert
Screw
Torx+
Key
Torx+
*Coolant
connector
25
PGERB 1010 K 10 10 8 30 125 10 10 S26PD K11P Ø4 / Ø6
PGERB 1212 K 12 12 8 30 125 12 12 S26PD K11P Ø4 / Ø6
PGERB 1616 K 16 16 8 30 125 16 16 S26PD K11P Ø4 / Ø6
* Coolant pipe diameter
Right Version
Right hand cutting
®
Swiss-Line
A08-14
Parting o
Grooving
Back Turning
Front Turning
* Parting o with
laydown insert
Grooving
(full radius)
Threading
Working Method
* Available upon request (grooving, parting, threading)
®
Swiss-Line
A08-15
Polygon Swiss Line
K20
Uncoated Sub-Micron carbide grade for Aluminum and non-ferrous materials, Stainless Steels and
Titanium.
PVD triple layer coated Sub-Micron grade for Steel, Stainless Steels, Titanium and hard materials.
BLU
Cutting Speed m/min
Materials
ISO
Standard GX7*BLUK20
70-16080-150-Low & Medium Carbon Steels <0.55%C
P60-13070-120-High Carbon Steels ≥0.55%C
40-10040-80-Alloy Steels, Treated Steels
60-140 60-120 30-80Stainless Steel-Free Cutting
M30-12030-9020-70Stainless Steel-Austenitic
50-14050-12030-80Cast Steels
60-14060-13050-120Cast Iron
K
--120-250Aluminum ≤12%Si, Copper
N--90-200Aluminum >12%Si
--70-150Synthetics, Duroplastics, Thermoplastics
30-9030-7020-50Nickel Alloys, Titanium Alloys
S
20-7020-50-Hardened Steel, 45-50HRc
H
20-60--Hardened Steel, 50-58HRc
Carbide Grades
Cutting Data
New generation of PVD triple layer coated Sub-Micron grade for wide range of materials as:
Steel, Stainless Steels, Titanium and hard materials up to 58 HRc.
With high toughness for optimized performance.
GX7
* Available for grooving and parting o, with G25 insert size
®
Swiss-Line
A08-16
3 Cutting Edges Swiss Line
Inserts and Tool
holders
Swiss style lathes are becoming a popular alternative to large lathes and
machining centers in many companies
Carmex offers a large and versatile product line of inserts and toolholders,
developed for automatic and Swiss style lathes
Designed for economic production of parting, grooving, proling and chamfering
Advanced sub-micron grade (K10-K30) - a combination of strength,
toughness, wear resistance and edge sharpness
Advantages
Grounded cutting edges
Advanced and unique PVD triple coating, for high wear
and heat resistance
For most types of material, including Stainless Steels,
Titanium and Super Alloys
Three cutting edges
The insert can be indexed directly on the machine
Internal coolant to the cutting edge
®
Swiss-Line
A08-17
R = Full Radius
P = Parting
B = Back Turning
F = Front Turning
Width
W05 = 0.5 mm
W06 = 0.6 mm
Radius
R04 = 0.4 mm
R05 = 0.5 mm
A30 = 30°
Threading
A60 = 60° thread
A55 = 55° thread
Depth
T15 = 1.5 mm
T16 = 1.6 mm
T54 = 5.4 mm
T64 = 6.4 mm
R = Right Hand Cutting
L = Left Hand Cutting
RR = Right Hand Cutting
Right version
RL = Right Hand Cutting
Left version
LR = Left Hand Cutting
Right version
LL = Left Hand Cutting
Left version
RN = Right Hand Cutting
Neutral version
LN = Left Hand Cutting
Neutral version
Insert Size
L = 16/19/20
G = Swiss Groove
GT = Swiss Threading
Carbide Grade:
BLU = PVD triple coating
GX7= New generation
of grade and coating
K20 = Uncoated
G19 W05R T15 BLU
Inserts
Product Identication - Ordering Codes
®
Swiss-Line
A08-18
16 mm Inserts and Toolholders
Insert
Size L Ordering Code W ±0.02 T max RFeed mm/rev
Radial Axial
16
G16 R W05 T12 0.5 1.2 0.05 0.01-0.06 0.02-0.08
G16 R W10 T20 1.0 2.0 0.05 0.02-0.07 0.02-0.10
G16 R W15 T25 1.5 2.5 0.10 0.03-0.08 0.02-0.10
G16 R W20 T25 2.0 2.5 0.15 0.05-0.10 0.02-0.15
G16 R W25 T25 2.5 2.5 0.20 0.05-0.10 0.02-0.15
Insert
Size L Ordering Code
Nom`
groove
width
W-0.05 T max RFeed mm/rev
Radial Axial
16
G16 R W07 T20 0.7 0.77 2.0 0 0.01-0.06 0.02-0.08
G16 R W08 T20 0.8 0.87 2.0 0 0.01-0.06 0.02-0.08
G16 R W09 T25 0.9 0.97 2.5 0 0.02-0.07 0.02-0.10
G16 R W12 T25 1.1 1.24 2.5 0.05 0.02-0.07 0.02-0.10
G16 R W14 T25 1.3 1.44 2.5 0.05 0.03-0.08 0.02-0.10
G16 R W17 T25 1.6 1.74 2.5 0.05 0.03-0.08 0.02-0.10
For L.H, specify G16 L instead of G16 R
For L.H, specify G16 L instead of G16 R
Nom` = nominal
Right Version
GX7K20
P
M
K
N
S
≤58 HRc
H
GX7K20
P
M
K
N
S
≤58 HRc
H
Grooving
Grooving, Circlip Ring Grooves
DIN 471/472
Right hand cutting
Right hand cutting
First choice Alternative
®
Swiss-Line
A08-19
External Toolholders
For L.H, specify VGE L instead of VGE R
Ordering Code B H T L2 L F F1 F2
Insert
Screw
Torx+
Key
Torx+
VGER 0810 K 10 8 2.6 17 125 8 10 13 S16PS K16P
VGER 1010 K 10 10 2.6 17 125 10 10 13 S16PS K16P
VGER 1212 K 12 12 2.6 17 125 12 12 13 S16P K16P
VGER 1616 K 16 16 2.6 17 125 16 16 16 S16P K16P
Right Version
H
L
F
F2
L2
1.3
B
F1
T
Right hand cutting
Alternative
®
Swiss-Line
A08-20
K20
Uncoated Sub-Micron carbide grade for Aluminum and non-ferrous materials, Stainless Steels and
Titanium.
New generation of PVD triple layer coated Sub-Micron grade for wide range of materials as:
Steel, Stainless Steels, Titanium and hard materials up to 58 HRc.
With high toughness for optimized performance.
GX7
Cutting Speed m/min
Materials
ISO
Standard GX7K20
80-150-Low & Medium Carbon Steels <0.55%C
P70-120-High Carbon Steels ≥0.55%C
40-80-Alloy Steels, Treated Steels
60-12030-80Stainless Steel-Free Cutting
M30-9020-70Stainless Steel-Austenitic
50-12030-80Cast Steels
50-12050-120Cast Iron
K
-120-250Aluminum ≤12%Si, Copper
N-90-200Aluminum >12%Si
-70-150Synthetics, Duroplastics, Thermoplastics
30-7020-50Nickel Alloys, Titanium Alloys
S
20-50-Hardened Steel, 45-58HRc
H
Carbide Grades
Cutting Data
3 Cutting Edges Swiss Line Inserts (16 mm)
®
Swiss-Line
A08-21
19,20 mm Inserts and Toolholders
Insert
Size L Ordering Code W ±0.02 T max RFeed mm/rev
Radial Axial
19
G19 R W05 T15 0.5 1.5 0 0.01-0.06 0.02-0.10
G19 R W06 T16 0.6 1.6 0 0.01-0.06 0.02-0.10
G19 R W07 T17 0.75 1.7 0 0.01-0.06 0.02-0.10
G19 R W08 T18 0.8 2.0 0.05 0.01-0.06 0.02-0.10
G19 R W10 T22 1.0 2.5 0.05 0.02-0.07 0.02-0.10
G19 R W12 T24 1.2 3.0 0.05 0.02-0.07 0.02-0.10
G19 R W14 T28 1.4 3.0 0.05 0.03-0.08 0.02-0.10
G19 R W15 T30 1.5 3.0 0.05 0.03-0.08 0.02-0.10
G19 R W17 T34 1.7 4.0 0.05 0.04-0.09 0.02-0.20
20
G20 R W20 T40 2.0 4.0 0.1 0.05-0.10 0.02-0.20
G20 R W22 T45 2.25 5.0 0.1 0.05-0.10 0.02-0.20
G20 R W25 T50 2.5 6.0 0.1 0.05-0.10 0.02-0.20
G20 R W30 T60 3.0 6.0 0.1 0.05-0.10 0.02-0.20
L
R
W
T
For L.H, specify G19 L instead of G19 R
Right Version
BLUK20
P
M
K
N
S
≤45 HRc
H
Grooving and Turning
Right hand cutting
First choice Alternative
®
Swiss-Line
A08-22
Grooving and Proling
(full radius)
Insert
Size L Ordering Code R ±0.03 T max
Feed mm/rev
Radial Axial
19
GR19 R R02 T15 0.25 1.5 0.01-0.06 0.02-0.10
GR19 R R04 T18 0.40 2.0 0.01-0.06 0.02-0.10
GR19 R R05 T22 0.50 2.5 0.02-0.07 0.02-0.10
GR19 R R06 T26 0.60 3.0 0.02-0.07 0.02-0.10
GR19 R R08 T33 0.80 3.5 0.04-0.09 0.02-0.20
GR19 R R10 T40 1.00 4.0 0.05-0.10 0.02-0.20
20 GR20 R R12 T50 1.25 6.0 0.05-0.10 0.02-0.20
GR20 R R15 T60 1.50 6.0 0.05-0.10 0.02-0.20
L
R
T
For L.H, specify G19 L instead of G19 R
Right Version
BLUK20
P
M
K
N
S
≤45 HRc
H
Right hand cutting
First choice Alternative
®
Swiss-Line
A08-23
Parting O
Insert
Size L Ordering Code W αº T max Feed mm/rev
Radial
19
GP19 RR W10 T54 1.0 15 5.4
0.02-0.09
GP19 RL W10 T54 1.0 15 5.4
GP19 RN W10 T54 1.0 0 5.4
GP19 RR W12 T54 1.2 15 5.4
0.02-0.09
GP19 RL W12 T54 1.2 15 5.4
GP19 RN W12 T54 1.2 0 5.4
20
GP20 RR W15 T64 1.5 15 6.4
0.04-0.10
GP20 RL W15 T64 1.5 15 6.4
GP20 RN W15 T64 1.5 0 6.4
GP20 RR W18 T64 1.8 15 6.4
0.04-0.10GP20 RL W18 T64 1.8 15 6.4
GP20 RN W18 T64 1.8 0 6.4
GP20 RR W20 T64 2.0 15 6.4
0.05-0.12GP20 RL W20 T64 2.0 15 6.4
GP20 RN W20 T64 2.0 0 6.4
GP20 RR W25 T64 2.5 15 6.4
0.05-0.12GP20 RL W25 T64 2.5 15 6.4
GP20 RN W25 T64 2.5 0 6.4
GP20 RR W30 T64 3.0 15 6.4
0.05-0.12
GP20 RL W30 T64 3.0 15 6.4
GP20 RN W30 T64 3.0 0 6.4
W
RN
T
L
αα
W W
RR RL
T
RR, RL
RN
T
For L.H, specify GP19 LR instead of GP19 RR
GP19 LL instead of GP19 RL
GP19 LN instead of GP19 RN
Right Version
BLUK20
P
M
K
N
S
≤45 HRc
H
Right hand cutting
Alternative First choice Alternative
®
Swiss-Line
A08-24
Back Turning
Front Turning
Insert
Size L Ordering Code ৠ᧠R W H B T
max
Feed
mm/rev
19 GB19 R A30 30 12 0.1 3.4 4.3 0.5 5.4 0.05-0.15
20 GB20 R A30 30 12 0.1 3.4 4.3 0.5 6.4 0.05-0.15
Insert Size
LOrdering Code T
max
Feed
mm/rev
19 GF19 R T54 5.4 0.05-0.15
20 GF20 R T64 6.4 0.05-0.15
L
DETAIL A
B
H
W
T
R
ß
α
L
TT
R 0.1
For L.H, specify GB19 L instead of GB19 R
For L.H, specify GF19 L instead of GF19 R
Right Version
Right Version
BLUK20
P
M
K
N
S
≤45 HRc
H
BLUK20
P
M
K
N
S
≤45 HRc
H
Right hand cutting
Right hand cutting
First choice Alternative
®
Swiss-Line
A08-25
Threading - Partial Prole 60°
Insert
Size L mm TPI Ordering Code X Y
19
0.5-1.5 48-16 GT19 R A60 2.8 1.1
1.75-3.0 14-8 GT19 R G60 2.8 1.7
0.5-3.0 48-8 GT19 R AG60 2.8 1.7
External Thread
L
X
Y
For L.H, specify GT19 L instead of GT19 R
For L.H, specify GT19 L instead of GT19 R
Right Version
Right Version
Threading - Partial Prole 55°
Insert
Size L mm TPI Ordering Code X Y
19
0.5-1.5 48-16 GT19 R A55 2.8 1.0
1.75-3.0 14-8 GT19 R G55 2.8 1.7
0.5-3.0 48-8 GT19 R AG55 2.8 1.7
External Thread
L
X
Y
BLUK20
P
M
K
N
S
≤45 HRc
H
BLUK20
P
M
K
N
S
≤45 HRc
H
Right hand cutting
Right hand cutting
Alternative First choice Alternative
®
Swiss-Line
A08-26
Threading - ISO metric 60° Full Prole
Insert
Size L mm Ordering Code X Y
19
0.5 GT19 R 0.5 ISO 2.8 0.6
0.7 GT19 R 0.7 ISO 2.8 0.7
0.75 GT19 R 0.75 ISO 2.8 0.7
0.8 GT19 R 0.8 ISO 2.8 0.7
1.0 GT19 R 1.0 ISO 2.8 0.8
1.25 GT19 R 1.25 ISO 2.8 1.0
1.5 GT19 R 1.5 ISO 2.8 1.1
1.75 GT19 R 1.75 ISO 2.8 1.3
External Thread
Threading - UN unif
ied 60° Full Prole
Insert
Size L TPI Ordering Code X Y
19
72 GT19 R 72UN 2.8 0.4
56 GT19 R 56UN 2.8 0.6
40 GT19 R 40UN 2.8 0.7
32 GT19 R 32UN 2.8 0.7
24 GT19 R 24UN 2.8 0.8
20 GT19 R 20UN 2.8 1.0
External Thread
For L.H, specify GT19 L instead of GT19 R
For L.H, specify GT19 L instead of GT19 R
Right Version
Right Version
BLUK20
P
M
K
N
S
≤45 HRc
H
BLUK20
P
M
K
N
S
≤45 HRc
H
Right hand cutting
Right hand cutting
First choice Alternative
®
Swiss-Line
A08-27
For L.H, specify GE L instead of GE R
Product Identication - Ordering Codes
E = External Slim
Shank Cross Section Length of Toolholder
K = 125 mm
R = Right Hand
L =
Left Hand
G = Swiss Vertical
G E 1216R S K
1216 = 12 mm x 16 mm
Coolant through toolholders, for external turning in Swiss type lathes machines.
The high pressure coolant is directed towards the insert cutting edge, in order to
evacuate the chips created and avoid build up edge.
Includes a coolant connector for fast attachment on the machine.
* Coolant pipe diameter
** Without coolant
Coolant Connector
**
Ordering Code B H L1 L F F1 H1 Insert
Screw
Torx
Key
*Coolant
connector
**GER 0816 K 16 8 17 125 8 16 8 S21 K21 -
GER 1016 K 16 10 17 125 10 16 6 S21 K21 Ø4 / Ø6
GER 1216 K 16 12 17 125 12 16 4 S21 K21 Ø4 / Ø6
GER 1616 K 16 16 - 125 16 16 0 S21 K21 Ø4 / Ø6
GER 2020 K 20 20 - 125 20 20 0 S21 K21 Ø4 / Ø6
GER 2525 M 25 25 - 150 25 25 0 S21 K21 Ø4 / Ø6
Right Version
External Toolholders
Right hand cutting
Alternative
®
Swiss-Line
A08-28
Coolant Connector
Slim Holders
For cut o, when using sub-spindle
Ordering Code B=H L1 L2 L F F1 F2 H1 Insert
Screw
Torx
Key
*Coolant
connector
GERS 1010 K 10 17 11 125 10 10 10.0 6 S21XS K21 Ø4 / Ø6
GERS 1212 K 12 17 11 125 12 12 9.5 4 S21XS K21 Ø4 / Ø6
GERS 1616 K 16 - 11 125 16 16 9.5 0 S21XS K21 Ø4 / Ø6
GERS 2020 K 20 - 11 125 20 20 9.5 0 S21XS K21 Ø4 / Ø6
Right Version
For L.H, specify GELS instead of GERS
* Coolant pipe diameter
Right hand cutting
®
Swiss-Line
A08-29
Grooving - Parting O - Turning - Proling - Threading
Working Method
Demonstration
®
Swiss-Line
A08-30
K20
Uncoated Sub-Micron carbide grade for Aluminum and non-ferrous materials, Stainless Steels and
Titanium.
PVD triple layer coated Sub-Micron grade for Steel, Stainless Steels, Titanium and hard
materials.
BLU
Cutting Speed m/min
Materials
ISO
Standard BLUK20
80-150-Low & Medium Carbon Steels <0.55%C
P70-120-High Carbon Steels ≥0.55%C
40-80-Alloy Steels, Treated Steels
60-120 30-80Stainless Steel-Free Cutting
M30-9020-70Stainless Steel-Austenitic
50-12030-80Cast Steels
-50-120Cast Iron
K
-120-250Aluminum ≤12%Si, Copper
N-90-200Aluminum >12%Si
-70-150Synthetics, Duroplastics, Thermoplastics
30-7020-50Nickel Alloys, Titanium Alloys
S
20-50-Hardened Steel, 45-50HRc
H
Carbide Grades
Cutting Data
3 Cutting Edges Swiss Line Inserts (19,20 mm)
®
Swiss-Line
A08-31
For grooving, parting-o and threading
Strong and stable clamping due to the unique insert shape
Can be used with high machining parameters, and provides
high surface nish
Internal coolant provides the coolant liquid towards the cutting edge
Multi-function inserts for grooving, parting, turning and threading
Fits a large range of diameters from very small applications with
a thin wall up to 60 mm diameter
Benets
Features
Application
Carbide grades: BLU, K20
High productivity and cost efciency due to six cutting edges
One holder for all insert types - Maximum versatility
High precision thanks to the fully ground prole
6 Cutting Edges
G6
Turning Inserts
and Toolholders
Demonstration
®
Swiss-Line
A08-32
Product Identication - Ordering Codes
G6 Inserts
R = Full Radius
P = Parting
B = Back Turning
F = Front Turning
T = Threading
Width
W06 = 0.6 mm
W08 = 0.8 mm
Radius
R05 = 0.50 mm
R08 = 0.80 mm
A30 = 30°
Threading
A60 = 60° thread
A55 = 55° thread
Depth
T14 = 1.4 mm
T18 = 1.8 mm
T38 = 3.8 mm
R = Right Hand Cutting
L = Left Hand Cutting
RR = Right Hand Cutting
Right version
RL = Right Hand Cutting
Left version
LR = Left Hand Cutting
Right version
LL = Left Hand Cutting
Left version
RN = Right Hand Cutting
Neutral version
LN = Left Hand Cutting
Neutral version
Carbide Grade:
BLU = PVD triple coating
K20 = Uncoated
G6 = Swiss Groove
with 6 cutting edge
TG6= T type for
wider grooves
G6 W08R T14 BLU
®
Swiss-Line
A08-33
Grooving
For L.H, specify G6 L instead of G6 R
Insert
Type Ordering Code W±0.02 T max R Feed mm/rev
G6
G6 R W06 T11 0.6 1.1 0 0.01-0.06
G6 R W08 T14 0.8 1.4 0 0.02-0.07
G6 R W10 T18 1.0 1.8 0.05 0.02-0.09
G6 R W15 T33 1.5 3.3 0.05 0.02-0.12
G6 R W20 T38 2.0 3.8 0.10 0.02-0.13
G6 R W25 T38 2.5 3.8 0.10 0.02-0.14
TG6 TG6 R W30 T38 3.0 3.8 0.10 0.02-0.12
TG6 R W40 T38 4.0 3.8 0.10 0.02-0.12
BLUK20
P
M
K
N
S
≤45 HRc
H
Right hand cutting
Right Version
First choice Alternative
®
Swiss-Line
A08-34
Insert
Type Ordering Code
Nom`
groove
width
W-0.05 T max RFeed
mm/rev
G6
G6D R W12 T31 1.10 1.24 3.1 0.05 0.02-0.09
G6D R W14 T33 1.30 1.44 3.3 0.05 0.02-0.12
G6D R W17 T33 1.60 1.74 3.3 0.05 0.02-0.12
For L.H, specify G6R L instead of G6R R
Grooving, Circlip Ring Grooves
Insert
Type Ordering Code R±0.03 W T max Feed
mm/rev
G6
G6R R R05 T25 0.50 1.0 2.5 0.02-0.09
G6R R R08 T30 0.80 1.6 3.0 0.02-0.09
G6R R R10 T38 1.00 2.0 3.8 0.02-0.13
G6R R R12 T38 1.25 2.5 3.8 0.02-0.14
TG6 TG6R R R15 T38 1.5 3.0 3.8 0.02-0.12
TG6R R R20 T38 2.0 4.0 3.8 0.02-0.12
DIN 471/472
For L.H, specify G6D L instead of G6D R
Nom`= nominal
Right Version
BLUK20
P
M
K
N
S
≤45 HRc
H
BLUK20
P
M
K
N
S
≤45 HRc
H
Right hand cutting
Right hand cutting
Right Version
Grooving and Proling (full radius)
First choice Alternative
®
Swiss-Line
A08-35
Parting O and Grooving
For L.H, specify G6P LR instead of G6P RR
G6P LL instead of G6P RL
G6P LN instead of G6P RN
Insert
Type Ordering Code W αº T max Feed
mm/rev
G6
G6P RR W08 T38 0.8 15 3.8 0.02-0.09
G6P RL W08 T38 0.8 15 3.8 0.02-0.09
G6P RN W08 T38 0.8 0 3.8 0.02-0.09
G6P RR W10 T38 1.0 15 3.8 0.02-0.09
G6P RL W10 T38 1.0 15 3.8 0.02-0.09
G6P RN W10 T38 1.0 0 3.8 0.02-0.09
G6P RR W15 T38 1.5 15 3.8 0.02-0.13
G6P RL W15 T38 1.5 15 3.8 0.02-0.13
G6P RN W15 T38 1.5 0 3.8 0.02-0.13
G6P RR W20 T38 2.0 15 3.8 0.02-0.13
G6P RL W20 T38 2.0 15 3.8 0.02-0.13
G6P RN W20 T38 2.0 0 3.8 0.02-0.13
RR, RL
Right Version
BLUK20
P
M
K
N
S
≤45 HRc
H
Right hand cutting
Alternative First choice Alternative
®
Swiss-Line
A08-36
Front Turning
For L.H, specify G6B L instead of G6B R
For L.H, specify G6F L instead of G6F R
Insert
Type Ordering Code ৠ᧠R W H B T
max
Feed
mm/rev
G6 G6B R A30 30 12 0.1 2.6 3.8 0.5 3.8 0.05-0.12
Insert
Type Ordering Code T
max RFeed
mm/rev
G6 G6F R T38 3.8 0.1 0.05-0.12
Back Turning
Right Version
Right Version
BLUK20
P
M
K
N
S
≤45 HRc
H
BLUK20
P
M
K
N
S
≤45 HRc
H
Right hand cutting
Right hand cutting
First choice Alternative
®
Swiss-Line
A08-37
Insert
Type Ordering Code Pitch Range Y
mm TPI
G6
G6T R A55 0.5-1.5 48-16 0.8
G6T R G55 1.75-3.0 14-8 1.5
G6T R AG55 0.5-3.0 48-8 1.5
For L.H, specify G6T L instead of G6T R
For L.H, specify G6T L instead of G6T R
Threading - Partial Prole 60°
Threading - Partial Prole 55°
Insert
Type Ordering Code Pitch Range Y
mm TPI
G6
G6T R A60 0.5-1.5 48-16 0.8
G6T R G60 1.75-3.0 14-8 1.5
G6T R AG60 0.5-3.0 48-8 1.5
BLUK20
P
M
K
N
S
≤45 HRc
H
BLUK20
P
M
K
N
S
≤45 HRc
H
Right hand cutting
Right hand cutting
Right Version
Right Version
Alternative First choice Alternative
®
Swiss-Line
A08-38
For L.H, specify G6T L instead of G6T R
For L.H, specify G6T L instead of G6T R
Threading - ISO metric 60˚ Full Prole
Threading - UN unied 60˚ Full Prole
Insert
Type Ordering Code Pitch
mm Y
G6
G6T R 1.0ISO 1.0 0.7
G6T R 1.5ISO 1.5 1.0
G6T R 2.0ISO 2.0 1.3
Insert
Type Ordering Code Pitch
TPI Y
G6
G6T R 56 UN 56 0.6
G6T R 40 UN 40 0.7
G6T R 32 UN 32 0.7
G6T R 24 UN 24 0.7
External thread
External thread
Right Version
Right Version
BLUK20
P
M
K
N
S
≤45 HRc
H
BLUK20
P
M
K
N
S
≤45 HRc
H
Right hand cutting
Right hand cutting
First choice Alternative
®
Swiss-Line
A08-39
Coolant through toolholders, for external turning in Swiss type lathes machines.
The high pressure coolant is directed towards the insert cutting edge in order to
evacuate the chips created and avoid build up edge.
Includes a coolant connector for fast attachment on the machine.
External Toolholders
- For G6 Inserts
Product Identication - Ordering Codes
E = ExternalT =Type R = Right Hand
L = Left Hand
G6 = Swiss toolholder
G6 1212R
Length of Toolholders
K = 125 mm
M= 150 mm
KET
Shank Cross Section
1212 = 12x12 mm
* Without internal coolant
** Coolant pipe diameter
For L.H, specify G6EL instead of G6ER
Coated holders provide high abrasive resistance
Insert
Type Ordering Code B H L1 L H1 F B1
Insert
Screw
Torx +
Torx +
Key
**Coolant
connector
(mm)
G6
*G6ER 1212 K 12 12 20 125 23 12 16 S16LP K16P ---
G6ER 1616 K 16 16 20 125 27 16 16 S16LP K16P Ø4 / Ø6
G6ER 2020 K 20 20 20 125 31 20 20 S16LP K16P Ø4 / Ø6
G6ER 2525 M 25 25 20 150 36 25 25 S16LP K16P Ø4 / Ø6
TG6
*TG6ER 1212 K 12 12 20 125 23 12 18 S16LP K16P ---
TG6ER 1616 K 16 16 20 125 27 16 18 S16LP K16P Ø4 / Ø6
TG6ER 2020 K 20 20 20 125 31 20 20 S16LP K16P Ø4 / Ø6
TG6ER 2525 M 25 25 20 150 36 25 25 S16LP K16P Ø4 / Ø6
L1
B1
3.8
L
FH
B
Coolant Connector
H1
Right Version
Right hand cutting
Alternative
®
Swiss-Line
A08-40
Uncoated Sub-Micron carbide grade for Aluminum and non-ferrous materials, Stainless
Steels and Titanium.
K20
PVD triple layer coated Sub-Micron grade for Steel, Stainless Steels, Titanium and hard
materials.
BLU
G6 Inserts
Cutting Speed
m/min
Material
ISO
Standard BLUK20
80-150-Low and Medium Carbon Steels <0.55%C
P70-120-High Carbon Steels ≥0.55%C
40-80-Alloy Steels,Treated Steels
60-12030-80Stainless Steel-Free Cutting
M30-9020-70Stainless Steel-Austenitic
50-12030-80Cast Steels
60-13050-120Cast Iron
K
-120-250Aluminum ≤12%Si, Copper
N-90-200Aluminum >12%Si
-70-150Synthetics, Duroplastics, Thermoplastics
30-7020-50Nickel Alloys, Titanium Alloys.
S
20-50-Hardened Steel, ≤45 HRc
H
Carbide Grades
Cutting Data
®
Turning Toolholders and Inserts
A09-1
Contents: Page: Contents: Page:
Carbide Shank Turning Toolholder 2
Boring bar, SWUBR/L type Lead angle k= 3˚ and Inserts 2
Boring bar, SCLCR/L type Lead angle k= 5˚ 3
Boring bar, SDUCR/L type Lead angle k= 3˚ 4
Boring bar, STFPR/L type Lead angle k= 1˚ 5
A09
Carbide Shank Turning
Toolholders and Inserts
®
Turning Toolholders and Inserts
A09-2
High performance Carbide Shank turning toolholders for internal machining from
6 mm (.236”) minimum diameter and larger.
Unique Carbide type for high rigidity
Cylindrical shank
Internal coolant supply to the cutting edge
Screw clamping design
Boring bar, SWUBR/L type Lead angle k= 3˚ and Inserts
Carbide Shank Turning Toolholder
Ordering Code R. Hand
L. Hand dMin
Bore Dia lfkInsert
Screw
Torx
Key Insert
E06H SWUBR-06
*(SIR 0006 H06CT) R6 6.5 100 3.2 3˚ S06 K06 WBMT 06 01 02L
*(06 IR TURN BMA)
E06H SWUBL-06 L 6 6.5 100 3.2 3˚ S06 K06 WBMT 06 01 02R
*(06 IL TURN BMA)
E08K SWUBR-06
*(SIR 0008 K06CT) R8 8.6 125 4.2 3˚ S06 K06 WBMT 06 01 02L
*(06 IR TURN BMA)
E08K SWUBL-06 L 8 8.6 125 4.2 3˚ S06 K06 WBMT 06 01 02R
*(06 IL TURN BMA)
E10M SWUBR-06
*(SIR 0010 M06CT) R10 11.0 150 5.5 3˚ S06 K06 WBMT 06 01 02L
*(06 IR TURN BMA)
E10M SWUBL-06 L 10 11.0 150 5.5 3˚ S06 K06 WBMT 06 01 02R
*(06 IL TURN BMA)
*Old item description
®
Turning Toolholders
A09-3
*Carmex doesn't offer the inserts
Boring bar, SCLCR/L type Lead angle k= 5˚
Ordering Code R. Hand
L. Hand dMin
Bore Dia lfkInsert
Screw
Torx
Key Insert*
E08K SCLCR-06 R8 10.0 125 4.9 5˚ S09 K07 CCMT 06 02 04
E08K SCLCL-06 L 8 10.0 125 4.9 5˚ S09 K07 CCMT 06 02 04
E10M SCLCR-06 R10 14.0 150 6.9 5˚ S09 K07 CCMT 06 02 04
E10M SCLCL-06 L 10 14.0 150 6.9 5˚ S09 K07 CCMT 06 02 04
E12P SCLCR-06 R12 16.0 170 8.9 5˚ S09 K07 CCMT 06 02 04
E12P SCLCL-06 L 12 16.0 170 8.9 5˚ S09 K07 CCMT 06 02 04
E16R SCLCR-06 R16 20.0 200 10.9 5˚ S09 K07 CCMT 06 02 04
E16R SCLCL-06 L 16 20.0 200 10.9 5˚ S09 K07 CCMT 06 02 04
E16R SCLCR-09 R16 20.0 200 10.9 5˚ S20 K22 CCMT 09 T3 08
E16R SCLCL-09 L 16 20.0 200 10.9 5˚ S20 K22 CCMT 09 T3 08
®
Turning Toolholders
A09-4
Boring bar, SDUCR/L type Lead angle k= 3˚
Ordering Code R. Hand
L. Hand dMin Bore
Dia lfkInsert
Screw
Torx
Key Insert*
E10M SDUCR-07 R10 14.0 150 7.9 3˚ S09 K07 DCMT 07 02 04
E10M SDUCL-07 L 10 14.0 150 7.9 3˚ S09 K07 DCMT 07 02 04
E12P SDUCR-07 R12 16.0 170 8.9 3˚ S09 K07 DCMT 07 02 04
E12P SDUCL-07 L 12 16.0 170 8.9 3˚ S09 K07 DCMT 07 02 04
E16R SDUCR-07 R16 20.0 200 10.9 3˚ S09 K07 DCMT 07 02 04
E16R SDUCL-07 L 16 20.0 200 10.9 3˚ S09 K07 DCMT 07 02 04
*Carmex doesn't offer the inserts
®
Turning Toolholders
A09-5
Ordering Code R. Hand
L. Hand dMin
Bore Dia lfkInsert
Screw
Torx
Key Insert*
E10M STFPR-11 R10 11.0 150 5.9 1˚ S18 K07 TPGB 11 03 04
E10M STFPL-11 L 10 11.0 150 5.9 1˚ S18 K07 TPGB 11 03 04
E12P STFPR-11 R12 14.0 170 6.9 1˚ S18 K07 TPGB 11 03 04
E12P STFPL-11 L 12 14.0 170 6.9 1˚ S18 K07 TPGB 11 03 04
Boring bar, STFPR/L type Lead angle k= 1˚
*Carmex doesn't offer the inserts
®
Turning Toolholders
A09-6
®
Thread Whirling Tools
A10-1
For Perfect Long Threads on Swiss Type Machines
Single pass working ability reduces
machining time and increases
productivity
A high accuracy Holder-Insert system
along with special cutting edge
geometry leads to a high quality
surface nish
Multi-Insert holders reduce cycle time
and increase tool life
Whirling toolholders consist of 6 to 8
inserts
Whirling inserts consist of three
cutting edges with high indexability
Whirling inserts can produce single or
double start threads in one pass
Thread Whirling Advantages 2
Applications 2
Product Identication 3
Case Study 4
Specials 4
Contents: Page: Page: Contents:
Thread Whirling Tools
A10
Demonstration
®
Thread Whirling Tools
A10-2
Thread Whirling
is a fast and an accurate way to thread long, small diameter parts
in exotic materials such as titanium, stainless steel and inconel.
Cutting is the result of the whirling ring rotating eccentrically at high speed about the
slowly rotating workpiece. The advancement of the workpiece rotationally and the
advancement of the tool head longitudinally correspond to the thread pitch required.
Advantages
Thread Whirling oers several advantages over single point threading:
Enables production of small diameter long threads when used on Swiss type machines. The thread whirling
spindle works close to the guide bushing for increased support and rigidity.
Increased Productivity
Thread Whirling is performed in a single pass, resulting in a shorter machining time.
This eliminates multiple passes required for a single point threading.
Thread whirling allows working at high feed rates and consequently results in short cycle times.
Very high surface quality and accurate geometry
The use of 6 to 8 cutting edges, higher concentricity, special cutting edge geometry and ideal chip removal,
enable top quality surfaces to be produced without burrs.
Long tool life
Whirling inserts have a stronger cutting edge than single point tools, since cutter side clearance is achieved
by rotating the whirling spindle, not by relieving material under the cutting edge.
Faster Setup
Thread whirling eliminates special support devices and
expensive startup development costs.
Compensation of large helix angles
Large helix angles can be compensated by adjusting
the whirling unit.
Short Delivery Time
Up to 3 weeks.
Applications
Carmex supports and oers high quality Thread Whirling tools for a wide range of
applications, such as: Bone screws, Dental implants, Orthopedic screws, automotive
parts, semiconductor small parts, etc.
Carmex holds in stock thread whirling holders that are compatible with all
Swiss Type machines such as STAR, Citizen, Tornos, Hanwha, Tsugami, Nexturn, and
Whirling units as PCM, WTO, H&F, MADAULA, etc.
®
Thread Whirling Tools
A10-3
Machine Whirling
Unit
Whirling Holder
Ordering Code ZD d1 Insert
Size
Type Model
Star
SR20 / ECAS20 Star SRW4012 730 - 6 612 40 18W
SRW4012 425 - 8 811W
SR20 / ECAS20 WTO SRW4295 557 - 6 6 9.5 42 18W
SRW4212 717 - 8 8 12 42 11W
Citizen
M20 / M32 PCM SRW4512 719 - 6 612 45 18W
SRW4512 427 - 8 811W
* The above table serves as an example.
Machine details and Whirling unit details are needed in order to oer a suitable toolholder.
No. of
Inserts
Serial No.Cutting
Diameter
Whirling
SR
W40 12 730
Clamping
Method
6
Clamping
Diameter
Product Identication - Ordering Codes
18W L 1.75 SP BMAE
Insert
size
11W
18W
Carbide
Grade:
K20
BMA
E = External Pitch Serial no.
R = Right Hand
L = Left Hand
Standard
ISO
UN
SP
Toolholders
Inserts
®
Thread Whirling Tools
A10-4
Case Study
Machine:
Whirling unit:
Application:
Material:
Carmex holder:
Vc [m/min]:
Tooth load [mm/tooth]:
No. of parts:
STAR SR20
STAR
Dental Implant
Ti-6AI-4V ELI
SRW4012 730-6
65
0.03
25,000 +
SPECIALS ARE OUR SPECIALTY
Carmex produce special tools in accordance with the customer's requirements
®
1
Milling Tools
®
2
Page:
B01 | Mill-Thread Inserts and Kits
B02 | Mill-Thread Toolholders
B03 | Slim MT
B04 | Spiral Mill-Thread
B05 | D-Thread
B06 | Deep Reach Mill-Thread
B07 | CMT
B08 | Mill-Thread Solid Carbide
B09 | Mini Mill-Thread
B10 | Multi - Function Thread Mills 3 in 1 Operations
B11 |
B12 | Mill-Thread Technical Section
B13 | Solid Carbide Grooving Tools
B14 | Supercut Solid Carbide Mills
B15 | Mini Chamfer and Countersink
B16 | Gear Milling
CONTENTS:
B - Milling Tools
1- 12
1- 6
1- 10
1- 12
1- 4
1- 4
1- 30
1- 28
1- 18
1- 10
1- 8
1- 22
1- 6
1- 40
1- 10
1- 4
®
B01-1
Mill - Thread Inserts
Contents: Page:
Mill-Thread tools for threading on CNC milling machines
by using helical interpolation programs
Advantages of Mill-Thread Tools
Same toolholder and insert can produce both
right-hand and left-hand threads.
A single insert & toolholder can produce a given
thread on many diameters (External & Internal).
Prismatic shape of inserts tail ensures exact and
reliable clamping in the toolholder.
Most inserts are double sided, having two
cutting edges.
Thread is produced in one tool pass.
MT tools can produce tapered threads.
Improved productivity thanks to increased cutting
speeds and multitooth type carbide inserts.
Threading to one pitch of a shoulder in a blind hole.
Longer tool life thanks to a special multilayer coating
process.
Lower tooling costs, considerably less expensive than
using taps and dies.
Since lower machine power is required, a smaller
machine can produce larger threads in a single
operation with less idle time and tool changes.
Contents: Page:
Product Identication 2
ISO 3
UN 4
WHIT 5
BSPT 5
NPT 6
NPTF 6
NPS 7
NPSF 7
NPSM 8
PG - DIN 40430 8
UNJ 9
American Buttress 9
ACME 10
API RD 10
Internal ISO Kits 11
Special Tools 12
Mill - Thread Inserts and Kits
B01
Demonstration
®
B01-2
Mill - Thread Inserts
Product Identication
Mill-Thread Inserts Ordering Codes
30 E 12 UN MT7
12
14
21
30
40 E = External
I = Internal
- = Ext. + Int.
Thread
Prole
ISO
UN
WHIT
NPT
NPTF
BSPT
NPS
NPSF
PG
UNJ
ACME
AM. BUTT
NPSM
API RD
Carbide
Grade
Thread
Pitch
MT7
Insert Size = A
12 14 21 30 40
H 6.3 7.5 12 16 20
T 2.9 3.1 4.7 5.5 6.3
®
B01-3
Mill - Thread Inserts
Pitch
mm
Insert Size = A
12 14 21 30 40
0.5 Ext.
0.5 Int. * 12 I 0.5 ISO 14 I 0.5 ISO
0.75 Ext. 14 E 0.75 ISO
0.75 Int. * 12 I 0.75 ISO 14 I 0.75 ISO
1.0 Ext. 14 E 1.0 ISO 21 E
1.0 ISO
1.0 Int. * 12 I 1.0 ISO 14 I 1.0 ISO 21 I 1.0 ISO
1.25 Ext. 14 E 1.25 ISO 21 E
1.25 ISO
1.25 Int. * 12 I 1.25 ISO 14 I 1.25 ISO 21 I 1.25 ISO
1.5 Ext. 14 E 1.5 ISO 21 E
1.5 ISO 30 E 1.5 ISO 40 E 1.5 ISO
1.5 Int. * 12 I 1.5 ISO 14 I 1.5 ISO 21 I 1.5 ISO 30 I 1.5 ISO 40 I 1.5 ISO
1.75 Ext. 14 E 1.75 ISO 21 E
1.75 ISO
1.75 Int. 14 I 1.75 ISO 21 I 1.75 ISO
2.0 Ext. 14 E 2.0 ISO 21 E
2.0 ISO 30 E 2.0 ISO 40 E 2.0 ISO
2.0 Int. 14 I 2.0 ISO 21 I
2.0 ISO 30 I 2.0 ISO 40 I 2.0 ISO
2.5 Ext. 14 E 2.5 ISO 21 E
2.5 ISO
2.5 Int. 14 I 2.5 ISO 21 I
2.5 ISO
3.0 Ext. 21 E
3.0 ISO 30 E 3.0 ISO 40 E 3.0 ISO
3.0 Int. 21 I
3.0 ISO 30 I 3.0 ISO 40 I 3.0 ISO
3.5 Ext. 30 E 3.5 ISO
3.5 Int. 21 I
3.5 ISO 30 I 3.5 ISO 40 I 3.5 ISO
4.0 Ext. 30 E 4.0 ISO 40 E 4.0 ISO
4.0 Int. 30 I 4.0 ISO 40 I 4.0 ISO
4.5 Ext.
4.5 Int. 30 I 4.5 ISO 40 I 4.5 ISO
5.0 Ext. 40 E 5.0 ISO
5.0 Int. 30 I 5.0 ISO 40 I 5.0 ISO
5.5 Ext.
5.5 Int. 30 I 5.5 ISO 40 I 5.5 ISO
6.0 Ext. 40 E 6.0 ISO
6.0 Int. 40 I 6.0 ISO
ISO
Order example: 14 I 1.5 ISO MT7
* One cutting edge
®
B01-4
Mill - Thread Inserts
UN UNC, UNF, UNEF, UNS
Order example: 21 I 18 UN MT7
* One cutting edge
** Cannot be used with carbide shank Toolholders.
Pitch
TPI
Insert Size = A
12 14 21 30 40
32 Ext. 14 E 32 UN
32 Int. * 12 I 32 UN 14 I 32 UN
28 Ext. 14 E 28 UN
28 Int. * 12 I 28 UN 14 I 28 UN
27 Ext.
27 Int. 14 I 27 UN
24 Ext. 14 E 24 UN 21 E 24 UN
24 Int. * 12 I 24 UN 14 I 24 UN 21 I 24 UN
20 Ext. 14 E 20 UN 21 E 20 UN 30 E 20 UN
20 Int. * 12 I 20 UN 14 I 20 UN 21 I 20 UN 30 I 20 UN
18 Ext. 14 E 18 UN 21 E 18 UN 30 E 18 UN
18 Int. * 12 I 18 UN 14 I 18 UN 21 I 18 UN 30 I 18 UN
16 Ext. 14 E 16 UN 21 E 16 UN 30 E 16 UN 40 E 16 UN
16 Int. * 12 I 16 UN 14 I 16 UN 21 I 16 UN 30 I 16 UN 40 I 16 UN
14 Ext. 14 E 14 UN 21 E 14 UN 30 E 14 UN 40 E 14 UN
14 Int. 14 I 14 UN 21 I 14 UN 30 I 14 UN 40 I 14 UN
13 Ext. 14 E 13 UN
12 Ext. 14 E 12 UN 21 E 12 UN 30 E 12 UN 40 E 12 UN
12 Int. 14 I 12 UN 21 I 12 UN 30 I 12 UN 40 I 12 UN
11 Ext. 14 E 11 UN 21 E 11 UN
11 Int. 14 I 11 UN
10 Ext. 14 E 10 UN 21 E 10 UN 30 E 10 UN 40 E 10 UN
10 Int. 14 I 10 UN 21 I 10 UN 30 I 10 UN 40 I 10 UN
9Ext.
9Int. 14 I 9 UN
8Ext. 30 E 8 UN 40 E 8 UN
8Int. 21 I 8 UN 30 I 8 UN 40 I 8 UN
7Ext.
7Int. 21 I 7 UN
6Ext. 30 E 6 UN 40 E 6 UN
6Int. 30 I 6 UN 40 I 6 UN
5Ext.
5Int. 30 I 5 UN
4.5 Ext
4.5 Int. 40 I 4.5UN
4Ext 40 E 4 UN
4Int. 40 I 4 UN
*
* *
*
®
B01-5
Mill - Thread Inserts
WHIT BSW, BSF, BSP
BSPT
Pitch
TPI
Insert Size = A
12 14 21 30 40
24 14-24 W
20 14-20 W 21-20 W
19 * 12 - 19 W 14-19 W 21-19 W
18 14-18 W
16 14-16 W 21-16 W 30-16 W
14 14-14 W 21-14 W 30-14 W
12 14-12 W 21-12 W
11 *14-11 W 21-11 W 30-11 W 40-11 W
10 21-10 W
8 40- 8 W
Pitch
TPI
Insert Size = A
12 14 21 30 40
19 12-19 BSPT 14-19 BSPT
14 14-14 BSPT 21-14 BSPT
11 21-11 BSPT 30-11 BSPT 40-11 BSPT
Same Insert for External and
Internal thread.
* One cutting edge
Order example: 21-11 W MT7
Order example: 14-19 BSPT MT7
For conical preparation end mills see page B08-23
Conical pipe thread inserts are
one-sided and may be used for both
External and Internal threading.
®
B01-6
Mill - Thread Inserts
NPT
NPTF
Conical pipe thread inserts are
one-sided and may be used for both
External and Internal threading.
Conical pipe thread inserts are
one-sided and may be used for both
External and Internal threading.
Pitch
TPI
Insert Size = A
12 14 21 30 40
18 12-18 NPT 14-18 NPT
14 14-14 NPT 21-14 NPT
11.5 21-11.5 NPT 30-11.5 NPT 40-11.5 NPT
8 30- 8 NPT 40- 8 NPT
Pitch
TPI
Insert Size = A
12 14 21 30 40
18 12-18 NPTF 14-18 NPTF
14 14-14 NPTF 21-14 NPTF
11.5 21-11.5 NPTF 30-11.5 NPTF 40-11.5 NPTF
8 30- 8 NPTF 40- 8 NPTF
Order example: 30-11.5 NPT MT7
For conical preparation end mills see page B08-23
Order example: 21-14 NPTF MT7
For conical preparation end mills see page B08-23
®
B01-7
Mill - Thread Inserts
NPS
NPSF
Same Insert for External and
Internal thread
Same Insert for External and
Internal thread
Pitch
TPI
Insert Size = A
12 14 21 30 40
18 * 12-18 NPS 14-18 NPS
14 14-14 NPS 21-14 NPS
11.5 21-11.5 NPS 30-11.5 NPS 40-11.5 NPS
8 30- 8 NPS 40- 8 NPS
Pitch
TPI
Insert Size = A
12 14 21 30 40
18 * 12-18 NPSF 14-18 NPSF
14 14-14 NPSF 21-14 NPSF
11.5 21-11.5 NPSF 30-11.5 NPSF 40-11.5 NPSF
8 30- 8 NPSF 40- 8 NPSF
Order example: 30-11.5 NPS MT7
* One cutting edge
* One cutting edge
Order example: 21-14 NPSF MT7
®
B01-8
Mill - Thread Inserts
PG - DIN 40430
Same Insert for External and
Internal thread
Pitch
TPI
Insert Size = A
14 21 30
18 14-18 PG 21-18 PG
(PG 9, 11, 13.5, 16) (PG 16)
16 21-16 PG 30-16 PG
(PG 21, 29, 36, 42, 48) (PG 36, 42, 48)
Order example: 21-18 PG MT7
NPSM
Order example: 21 I 11.5 NPSM MT7
Pitch
TPI
Insert Size = A
12 14 21 30 40
18 Ext. 14 E 18 NPSM
18 Int. 12 I 18 NPSM 14 I 18 NPSM
14 Ext. 21 E 14 NPSM
14 Int. 14 I 14 NPSM 21 I 14 NPSM
11.5 Ext. 21 E 11.5 NPSM 30 E 11.5 NPSM 40 E 11.5 NPSM
11.5 Int. 21 I 11.5 NPSM 30 I 11.5 NPSM 40 I 11.5 NPSM
8Ext. 30 E 8 NPSM 40 E 8 NPSM
8Int. 30 I 8 NPSM 40 I 8 NPSM
®
B01-9
Mill - Thread Inserts
UNJ
Order example: 21E 16 UNJ MT7
Pitch
TPI
Insert Size = A
14 21
24 Ext. 14 E 24 UNJ 21 E 24 UNJ
24 Int. 14 I 24 UNJ 21 I 24 UNJ
20 Ext. 14 E 20 UNJ 21 E 20 UNJ
20 Int. 14 I 20 UNJ 21 I 20 UNJ
18 Ext. 14 E 18 UNJ 21 E 18 UNJ
18 Int. 14 I 18 UNJ 21 I 18 UNJ
16 Ext. 14 E 16 UNJ 21 E 16 UNJ
16 Int. 14 I 16 UNJ 21 I 16 UNJ
14 Ext. 14 E 14 UNJ 21 E 14 UNJ
14 Int. 14 I 14 UNJ 21 I 14 UNJ
12 Ext. 14 E 12 UNJ 21 E 12 UNJ
12 Int. 14 I 12 UNJ 21 I 12 UNJ
5/16 P
American Buttress
ABUT thread inserts are one-sided and
may be used for both External and
Internal threading
Order example: 30 - 6 ABUT MT7
Pitch
TPI
Insert Size = A
21 30 40
16 21 - 16 ABUT 30 - 16 ABUT
12 21 - 12 ABUT 30 - 12 ABUT
10 21 - 10 ABUT 30 - 10 ABUT
821 - 8 ABUT 30 - 8 ABUT
630 - 6 ABUT
4* 30 - 4 ABUT 40 - 4 ABUT
* Inserts to be used only on Multi-Insert toolholders see page B02-5
®
B01-10
Mill - Thread Inserts
ACME
Inserts for Internal threads
Order example: 21 I 8 ACME MT7
* Inserts to be used only on Multi-Insert toolholders see page B02-5
** One cutting edge
Pitch
TPI
Insert Size = A
21 30 40
12 Int. 21 I 12 ACME 30 I 12 ACME
10 Int. 21 I 10 ACME 30 I 10 ACME
8 Int. 21 I 8 ACME 30 I 8 ACME
6 Int. 30 I 6 ACME
5 Int. 30 I 5 ACME
4 Int. * 30 I 4 ACME 40 I 4 ACME
3.5 Int. 40 I 3.5 ACME
3 Int. 40 I 3 ACME
*
* *
API RD
Pitch
TPI
Insert Size = A
21 30 40
10 21 - 10 API RD 30 - 10 API RD
830 - 8 API RD 40 - 8 API RD
API RD thread inserts are one-sided
and may be used for both External
and Internal threading
Order example: 30 - 8 API RD MT7
®
B01-11
Mill - Thread Inserts
TOOLHOLDER
SR 0017 H14
KEY
K14
SCREW
S14
TOOLHOLDER
SR 0009 H12
KEY
K12
SCREW
S12
Internal ISO Kits
Order example : MTK 14 I ISO
INSERTS INSERTS
MTK 12 I ISO MTK 14 I ISO
12 I 0.75 ISO
12 I 1.0 ISO 2 Pcs
12 I 1.25 ISO
12 I 1.5 ISO 2 Pcs
14 I 1.0 ISO 2 Pcs
14 I 1.5 ISO 2 Pcs
14 I 2.0 ISO 2 Pcs
®
B01-12
Mill - Thread Inserts
Special Tools
In addition to standard products,
Carmex manufactures special tools and inserts
according to customers’ requests.
Special tools are supplied in short delivery times.
®
B02-1
Contents: Page:
Contents: Page: Contents: Page:
Product Identication 2
Single Insert Toolholders 3
Long Shank Toolholders 4
Twin Insert Toolholders 4
Multi Insert Toolholders 5
External Multi Insert Toolholder 5
Long Carbide Shank Toolholders 6
Carbide Shank Toolholders
for Single Point Threading 6
Mill-Thread Toolholders
B02
Demonstration
®
B02-2
Product Identication
Mill-Thread Toolholders Ordering Codes
SR 0021 K C21
Clamping
Method
S=Screw
LE = External
Length of
Toolholder
Carbide
Shank
Number
of
Inserts
Insert
Pocket Size
A
12
14
21
30
40
Cutting Diameter
0021 = 21 mm
Mill - Thread Toolholders
®
B02-3
Single Insert Toolholders
Ordering Code A D D1 D2 L L1 Insert
Screw
Torx
Key
* SR0009H12 12 9.5 20 7.5 85 14 S12 K12
SR0010H12 12 9.9 20 7.6 85 16 S12 K12
SR0012F14 14 12.0 20 8.9 75 20 S14 K14
SR0014H14 14 14.5 20 11.2 85 25 S14 K14
SR0017H14 14 17.0 20 13.4 85 30 S14 K14
** SR0018H21 21 18.0 20 14.4 85 30 S21 K21
SR0021H21 21 21.0 20 16.5 94 40 S21 K21
SR0029J30 30 29.0 25 22.4 110 50 S30 K30
SR0048M40
40 48.0 40 35.0 153 78 S40 K40
Order example: SR0029J30
* Not for conical inserts: 12-18 NPT, 12-18 NPTF, 12-19 BSPT
** Cannot be used with the following inserts:
21 I 3.5 ISO, 21 I 8 UN, 21 I 7 UN, 21-11 BSPT, 21-11.5 NPT, 21-11.5 NPTF
Mill - Thread Toolholders
®
B02-4
Twin Insert Toolholders
Ordering Code A D D1 D2 L L1 No. of
Inserts
Insert
Screw
Torx
Key
SR0020H14-2 14 20 20 16 93 41 2 S14 K14
SR0030J21-2 21 30 25 24 108 52 2 S21 K21
SR0040L30-2 30 40 32 30 130 70 2 S30 K30
SR0050M40-2 40 50 40 38 153 78 2 S40 K40
Order example: SR0040L30-2
Mill - Thread Toolholders
Long Shank Toolholders
Ordering Code A D D1 L Insert
Screw
Torx
Key
SR0025K21 21 25 20 125 S21 K21
SR0031M30 30 31 25 150 S30 K30
SR0038M30 30 38 32 150 S30 K30
SR0048R40 40 48 40 210 S40 K40
Order example: SR0031M30
For holders with long overhang reduce the cutting speed and feed rate
between 20% to 40% (depends on workpiece material, pitch and overhang)
®
B02-5
Multi Insert Toolholders
Ordering Code A D D1 L No. of
Inserts
Insert
Screw
Torx
Key
SR0063C21-5 21 63 22 50 5 S21 K21
SR0063C30-4 30 63 22 50 4 S30 K30
SR0080D30-4 30 80 27 55 4 S30 K30
SR0100D30-4 30 100 32 60 4 S30 K30
SR0100D30-8 30 100 32 60 8 S30 K30
SR0080D40-4 40 80 27 65 4 S40 K40
SR0100E40-4 40 100 32 70 4 S40 K40
SR0100E40-6 40 100 32 70 6 S40 K40
Ordering Code A D D1 D2 L L1 No. of
Inserts
Insert
Screw
Torx
Key
SLE0020D21-3 21 20 22 58 65 25 3 S21 K21
SLE0030D21-3 21 30 22 68 65 25 3 S21 K21
SLE0045E21-4 21 45 27 83 70 25 4 S21 K21
Order example: SR0080D30-4
Order example: SLE0030D21-3
Reduced machining time
Optimal coolant supply
External Multi Insert Toolholder
With internal
coolant bore
Mill - Thread Toolholders
Demonstration
®
B02-6
Long Carbide Shank Toolholders
Carbide Shank Toolholders
for Single Point Threading
Order example: SR0015K14C
For Inserts see the Thread Turning Tools section of this catalog.
For an internal application use an internal R.H. insert.
For holders with long overhang reduce the cutting speed and feed rate between 20%
to 40% (depends on workpiece material, pitch and overhang)
* For an external application use an external L.H. insert.
Ordering Code A D D1 D2 L Insert
Screw
Torx
Key
SR0010K12C 12 9.9 8 8 125 S12 K12
SR0013H14C 14 13.2 10 10 110 S14 K14
SR0013J14C 14 13.2 10 10 155 S14 K14
SR0015K14C 14 15.2 12 12 175 S14 K14
SR0021K21C 21 21.0 16 16 130 S21 K21
SR0021M21C 21 21.0 16 16 200 S21 K21
SR0027S30C 30 27.0 20 20 270 S30 K30
Ordering Code
Pitch Range
D D1 L Insert
Screw
Torx
Key
mm TPI
SR0005D06C 6 0.5-1.25 48-20 6.8 5.0 63 S06 K06
SR0006H08C 8 0.5-1.75 48-14 8.8 6.0 100 S08 K08
* SR0010M11C 11 0.5-2.00 48-11 13.2 10.0 150 S11 K11
Mill - Thread Toolholders
Slim MT
® ®
B03-1
Contents: Page: Contents: Page:
Introduction 2
Product Identification 3
ISO 4
UN 5
WHIT BSW, BSF, BSP 6
NPT 6
NPTF 7
BSPT 7
Toolholders 8-9
Standard Toolholders 8
Toolholders for Conical Threads 8
Carbide Shank Toolholders 9
Multi-Insert Toolholders 9
Slim MT
B03
Slim MT
® ®
B03-2
Slim MT
High productivity, Slim cost
A new product line of indexable Mill-Thread inserts and toolholders
including multiple straight utes for machining long threads from small to
large diameters.
●
Advanced carbide and coating combination for extended tool life and
improved productivity
●
Most inserts are double sided
●
Nickel coated holders for high wear resistance
●
Unique clamping mechanism
●
Large variety of holders & inserts in accordance to international
standards
Slim MT
® ®
B03-3
I = Internal
E = External
- = Ex + In
Slim MT
Thread
Pitch
SL I 1.526
ISO
Product Identication
Inserts
ISO
UN
WHIT
NPT
BSPT
Carbide Grade
MT17
Insert Size
26 = 26 mm
40 = 40 mm
Toolholders
Cutting
Diameter
17 = 17 mm
Shank
Diameter
D1
Number Of
Inserts
Carbide
Shank
Neck
Length
Insert Size
SL26
SL40
SR Type For
Conical
Inserts
SR 22 3 C45T
SL26
Toolholders
Slim MT
® ®
B03-4
ISO
* Cannot be used with Toolholder SR17- … -SL26-2
For Toolholders see pages B03-8 and 9
Insert size Pitch
mm Ex/In Ordering code Toolholder
SL 26
0.5 In SL26 I 0.5 ISO
SR ….. - SL26 - …
0.75 In SL26 I 0.75 ISO
1.0 In SL26 I 1.0 ISO
1.0 Ex SL26 E 1.0 ISO
1.5 In SL26 I 1.5 ISO
1.5 Ex SL26 E 1.5 ISO
2.0 In SL26 I 2.0 ISO
2.0 Ex SL26 E 2.0 ISO
2.5 In SL26 I 2.5 ISO
2.5 Ex SL26 E 2.5
ISO
3.0 In * SL26 I 3.0 ISO
3.0 Ex * SL26 E 3.0 ISO
SL 40
1.5 In SL40 I 1.5 ISO
SR ….. - SL40 - …
2.0 In SL40 I 2.0 ISO
2.5 In SL40 I 2.5 ISO
3.0 In SL40 I 3.0 ISO
For carbide grade and cutting speed see page B12-6
Slim MT
® ®
B03-5
UN
* Cannot be used with Toolholder SR17- … -SL26-2
For Toolholders see pages B03-8 and 9
Insert size Pitch
TPI Ex/In Ordering code Toolholder
SL 26
20 In SL26 I 20 UN
SR ….. - SL26 - …
20 Ex SL26 E 20 UN
18 In SL26 I 18 UN
18 Ex SL26 E 18 UN
16 In SL26 I 16 UN
16 Ex SL26 E 16 UN
14 In SL26 I 14 UN
14 Ex SL26 E 14 UN
12 In SL26 I 12 UN
12 Ex SL26 E 12 UN
10 In SL26 I 10 UN
10 Ex SL26 E 10 UN
9 In * SL26 I 9 UN
8 In * SL26 I 8 UN
SL 40
16 In SL40 I 16 UN
SR ….. - SL40 - …
14 In SL40 I 14 UN
12 In SL40 I 12 UN
10 In SL40 I 10 UN
For carbide grade and cutting speed see page B12-6
Slim MT
® ®
B03-6
WHIT
NPT
Insert size Pitch
TPI Ordering code Toolholder
SL 26 14 SL 26 - 14 W SR ….. - SL26 - …
11 SL 26 - 11 W
SL 40 14 SL 40 - 14 W SR ….. - SL40 - …
11 SL 40 - 11 W
Insert size Pitch
TPI Ordering code Toolholder
SL 26 14 SL 26 - 14 NPT SR ….. - SL26 - …
11.5 * SL 26 - 11.5 NPT
BSW, BSF, BSP
Same insert for External and Internal thread
Conical pipe thread inserts are one-sided
and may be used for both External and
Internal threading
* Cannot be used with Toolholder SRT17-...-SL26-2
For Toolholders see pages B03-8 and 9
For Toolholders see pages B03-8 and 9
For carbide grade and cutting speed see page B12-6
Slim MT
® ®
B03-7
BSPT
Insert size Pitch
TPI Ordering code Toolholder
SL 26 14 SL 26 - 14 BSPT SR ….. - SL26 - …
11 * SL 26 - 11 BSPT
Conical pipe thread inserts are one-sided
and may be used for both External and
Internal threading
* Cannot be used with Toolholder SRT17-...-SL26-2
For Toolholders see pages B03-8 and 9
* Cannot be used with Toolholder SRT17-...-SL26-2
For Toolholders see pages B03-8 and 9
NPTF
Insert size Pitch
TPI Ordering code Toolholder
SL 26 14 SL 26 - 14 NPTF SR ….. - SL26 - …
11.5 * SL 26 - 11.5 NPTF
Conical pipe thread inserts are one-sided
and may be used for both External and
Internal threading
For carbide grade and cutting speed see page B12-6
Slim MT
® ®
B03-8
Toolholders
Toolholders
Ordering Code Insert
size=A D D1 L L1 No. of
Inserts Screw Key
* SR17-20-27-SL26-2
SL 26
17.0 20.0 95 27 2 S4P K08P
* SR17-20-36-SL26-2 17.0 20.0 105 36 2 S4P K08P
SR17-27-SL26-2 17.0 25.0 95 27 2 S4P K08P
SR17-36-SL26-2 17.0 25.0 105 36 2 S4P K08P
SR19-27-SL26-2 19.0 25.0 95 27 2 S4P K08P
SR19-40-SL26-2 19.0 25.0 110 40 2 S4P K08P
SR20-27-SL26-3 20.5 25.0 95 27 3 S4P K08P
SR20-40-SL26-3 20.5 25.0 110 40 3 S4P K08P
SR22-28-SL26-3 22.0 25.0 95 28 3 S4P K08P
SR22-42-SL26-3 22.0 25.0 110 42 3 S4P K08P
SR22-55-SL26-2 22.0 25.0 125 55 2 S4P K08P
SR30-80-SL26-3 30.0 25.0 150 80 3 S4P K08P
SR22-42-SL40-3
SL 40
22.0 25.0 110 42 3 S4P K08P
SR22-65-SL40-2 22.0 25.0 135 65 2 S4P K08P
SR30-42-SL40-4 30.0 32.0 125 42 4 S4P K08P
SR30-80-SL40-3 30.0 32.0 160 80 3 S4P K08P
Ordering Code Insert
size=A D D1 L L1 No. of
Inserts Screw Key
* SR T 17-20-27-SL26-2
SL 26
17.0 20.0 95 27 2 S4P K08P
SR T 17-27-SL26-2 17.0 25.0 95 27 2 S4P K08P
SR T 22-27-SL26-3 22.0 25.0 95 27 3 S4P K08P
SR T 27-27-SL26-4 27.0 25.0 95 27 4 S4P K08P
for Conical Threads
A
L
D1
L1
with internal
coolant bore
D
with internal coolant bore
A
L1
D1
L
D
A
L1
L
D1
1°47'
with internal
coolant bore
D
with internal coolant bore
A
1°47'
L1 L
D
D1
* Straight shank Toolholder
* Straight shank Toolholder
Slim MT
® ®
B03-9
Carbide Shank Toolholders
Multi-Insert Toolholders
Ordering Code Insert
size=A D D1 L L1 No. of
Inserts Screw Key
SR 19-70-SL26-2 C SL 26 19.0 16.0 135 70 2 S4P K08P
SR 20-70-SL26-3 C 20.5 16.0 135 70 3 S4P K08P
Ordering Code Insert
size=A D D1 L No. of
Inserts Screw Key
SR 36-16-SL26-5 SL 26 36.0 16 50 5 S4P K08P
SR 44-22-SL26-6 44.0 22 50 6 S4P K08P
SR 44-22-SL40-6 SL 40 44.0 22 65 6 S4P K08P
with internal coolant bore
A
L1
D1
L
D
with internal coolant bore
D1
A
L
Slim MT
® ®
B03-10
®
B04-1
Contents: Page:
Contents: Page: Contents: Page:
Advantages of Spiral Mill-Thread Tools
The spiral designed tools enable a smooth
cutting operation at a high feed rate and reduced
machining time.
The tools suit a wide range of applications, from
machining small components in small machining
centers to heavy-duty applications in high power
milling machines.
Spiral uted toolholders hold 1 to 9 inserts in a
comparatively small cutting diameter.
The unique clamping method enables optimal
indexability.
Spiral tools reduce vibration and chatter.
High grade nish is achieved in all applications:
threading, end milling roughing and nishing.
Inserts are available in MT7 Sub-Micron Grade with
Titanium Aluminum Nitride multi-layer coating
(ISO K10 - K20). This is a general purpose grade,
which can be used with all materials.
Product Identication 2
ISO 3
UN 4-5
Whitworth 5
BSPT 6
NPT 6
NPTF 7
NPS 7
Spiral Finishing Inserts 8
Toolholders 9-10
Special Tools 11
Case Studies 12
Spiral Mill-Thread
B04
Demonstration
®
B04-2
Product Identication - Ordering Codes
Spiral Mill - Thread Inserts
Spiral Mill - Thread Toolholders
H
S
Helical
(Spiral)
Clamping Method
S = Screw
R
19
H
3.0
Thread Pitch
P
Length of
Toolholders
-
ISO
Thread Prole:
ISO
UN
WHIT
BSPT
NPT
NPTF
NPS
5
No. of
Inserts
I
32
I = Internal
E = External
- = Ext. + Int.
Cutting Diameter
19 = 19 mm
Cutting Diameter
32 = 32 mm
Helical
(Spiral)
Carbide Grade
Holder Type
M = Shell Mill
MT7
Spiral Mill - Thread Inserts
®
B04-3
ISO
12
Spiral Mill - Thread Inserts
Insert Size Fig. Pitch
mm Ext./ Int. M
coarse M
ne Ordering code Toolholder
H13 1
1.0 Int. ≥ 15 H13 I 1.0 ISO
SRH13…
1.5 Int. ≥ 16 H13 I 1.5 ISO
2.0 Int. M16 ≥ 17 H13 I 2.0 ISO
H15 1
1.0 Int. ≥ 17 H15 I 1.0 ISO
SRH15…
1.5 Int. ≥ 18 H15 I 1.5 ISO
2.0 Int. ≥ 19 H15 I 2.0 ISO
2.5 Int. M18 ≥ 20 H15 I 2.5 ISO
H17 1
1.0 Int. ≥ 19 H17 I 1.0 ISO
SRH17…
1.5 Int. ≥ 20 H17 I 1.5 ISO
2.0 Int. ≥ 21 H17 I 2.0 ISO
2.5 Int. M20, M22 ≥ 22 H17 I 2.5 ISO
H19 1
1.5 Int. ≥ 22 H19 I 1.5 ISO
SRH19…2.0 Int. ≥ 23 H19 I 2.0 ISO
3.0 Int. M24, M27 ≥ 25 H19 I 3.0 ISO
H23 2
1.0 Ext. H23 E 1.0 ISO
SRH23…
1.0 Int. ≥ 25 H23 I 1.0 ISO
1.5 Ext. H23 E 1.5 ISO
1.5 Int. ≥ 26 H23 I 1.5 ISO
2.0 Ext. H23 E 2.0 ISO
2.0 Int. ≥ 27 H23 I 2.0 ISO
3.0 Ext. H23 E 3.0 ISO
3.0 Int. ≥ 29 H23 I 3.0 ISO
3.5 Int. M30, M33 ≥ 30 H23 I 3.5 ISO
4.0 Int. M36 ≥ 31 H23 I 4.0 ISO
H28 2 4.0 Int. M36, M39 ≥ 40 H28 I 4.0 ISO SRH28…
H32 2
1.0 Int. ≥ 34 H32 I 1.0 ISO
SRH32...
1.5 Ext. H32 E 1.5 ISO
1.5 Int. ≥ 35 H32 I 1.5 ISO
2.0 Ext. H32 E 2.0 ISO
2.0 Int. ≥ 36 H32 I 2.0 ISO
3.0 Ext. H32 E 3.0 ISO
3.0 Int. ≥ 38 H32 I 3.0 ISO
3.5 Int. ≥ 39 H32 I 3.5 ISO
4.0 Ext. H32 E 4.0 ISO
4.0 Int. M39 ≥ 40 H32 I 4.0 ISO
4.5 Int. M42, M45 ≥ 41 H32 I 4.5 ISO
5.0 Int. M48 ≥ 42 H32 I 5.0 ISO
H45 2
1.5 Ext. H45 E 1.5 ISO
SRH45...
1.5 Int. ≥ 48 H45 I 1.5 ISO
2.0 Ext. H45 E 2.0 ISO
2.0 Int. ≥ 49 H45 I 2.0 ISO
3.0 Int. ≥ 51 H45 I 3.0 ISO
3.5 Int. ≥ 52 H45 I 3.5 ISO
4.0 Int. ≥ 53 H45 I 4.0 ISO
4.5 Int. ≥ 54 H45 I 4.5 ISO
5.0 Int. M52 ≥ 55 H45 I 5.0 ISO
5.5 Int. M56, M60 ≥ 56 H45 I 5.5 ISO
6.0 Int. M64, M68 ≥ 57 H45 I 6.0 ISO
H63 2
1.5 Int. ≥ 66 H63 I 1.5 ISO
SRH63...
2.0 Int. ≥ 67 H63 I 2.0 ISO
3.0 Int. ≥ 69 H63 I 3.0 ISO
4.0 Int. ≥ 71 H63 I 4.0 ISO
6.0 Int. ≥ 75 H63 I 6.0 ISO
®
B04-4
UN
12
Spiral Mill - Thread Inserts
Insert Size Fig. Pitch
TPI Ext./ Int. UN UNC UNF UNS Ordering code Toolholder
H13 1
16 Int. 5/8, 11/16 H13 I 16 UN
SRH13...
14 Int. 5/8 H13 I 14 UN
12 Int. 11/16 H13 I 12 UN
H15 1
16 Int. 3/4 H15 I 16 UN
SRH15...
14 Int. 3/4 H15 I 14 UN
12 Int. 3/4, 13/16 H15 I 12 UN
10 Int. 3/4 7/8 , 1 H15 I 10 UN
H17 1
20 Int 1 1/16, 1 1/8 *13/16 - 1 H17 I 20 UN
SRH17...
16 Int. 13/16 - 1 H17 I 16 UN
14 Int. 7/8 , 1 H17 I 14 UN
12 Int. 7/8 H17 I 12 UN
9 Int. 7/8 H17 I 9 UN
H19 1 12 Int. 15/16 1H19 I 12 UN SRH19...
8 Int. 1 1/16, 1 1/8 1H19 I 8 UN
H23 2
32 Int. 1 1 - 1 1/4 H23 I 32 UN
SRH23...
24 Int. H23 I 24 UN
20 Ext. H23 E 20 UN
20 Int. 1 1/16 - 1 5/16 H23 I 20 UN
18 Ext. H23 E 18 UN
18 Int. 1 H23 I 18 UN
16 Ext. H23 E 16 UN
16 Int. 1 1/16 - 1 5/16 H23 I 16 UN
14 Ext. H23 E 14 UN
14 Int. ≥1 1/8 H23 I 14 UN
12 Ext. H23 E 12 UN
12 Int. 1 1/16 - 1 3/16 1 1/8 H23 I 12 UN
10 Ext. H23 E 10 UN
10 Int. ≥1 1/8 H23 I 10 UN
8Ext. H23 E 8 UN
8 Int. 1 3/16 - 1 5/16 H23 I 8 UN
7Ext. H23 E 7 UN
7 Int. 1 1/4 H23 I 7 UN
H28 2
12 Int. 1 5/16 1 1/4, 1 3/8 H28 I 12 UN
SRH28...8 Int. 1 3/8 - 1 7/16 H28 I 8 UN
6 Int. 1 7/16, 1 9/16 1 3/8, 1 1/2 H28 I 6 UN
H32 2
24 Ext. ≥1 3/8 H32 E 24 UN
SRH32...
20 Ext. H32 E 20 UN
20 Int. ≥1 3/8 H32 I 20 UN
18 Ext. H32 E 18 UN
18 Int. ≥1 3/4 H32 I 18 UN
16 Ext. H32 E 16 UN
16 Int. 1 3/8 - 1 7/8 H32 I 16 UN
12 Ext. H32 E 12 UN
12 Int. 1 7/16 - 1 7/8 1 1/2 H32 I 12 UN
8Ext. H32 E 8 UN
8 Int. 1 1/2 - 2 H32 I 8 UN
6Ext. H32 E 6 UN
6 Int. 1 5/8 - 1 7/8 H32 I 6 UN
5 Int. 1 3/4 H32 I 5 UN
H40 2 6 Int. 1 15/16, 2 H40 I 6 UN SRH40...
4.5 Int. 2 H40 I 4.5 UN
*Only UNEF
®
B04-5
UN
Insert Size Fig. Pitch Ext./ Int. UN UNC UNF UNS Ordering code Toolholder
TPI
H45 2
16 Int. 1 15/16 - 2 1/2 2 1/16 - 2 H45 I 16 UN
SRH45...
12 Int. 1 15/16 - 2 5/8 H45 I 12 UN
8 Int. 2 1/8- 2 5/8 H45 I 8 UN
6 Int. 2 1/8- 2 3/4 H45 I 6 UN
4.5 Int. 2 1/4 H45 I 4.5 UN
4 Int. 2 1/2- 2 3/4 H45 I 4 UN
H63 2
16 Int. ≥2 5/8 H63 I 16 UN
SRH63...
12 Int. ≥2 3/4 H63 I 12 UN
8 Int. ≥2 3/4 H63 I 8 UN
6 Int. ≥2 7/8 H63 I 6 UN
4 Int. ≥3 H63 I 4 UN
Whitworth
Same insert for internal and external thread
Insert Size Fig. Pitch Ordering code Thread Size Toolholder
TPI
H13 1 19 H13- 19 W G 3/8SRH13...
H15 1 14 H15- 14 W G 1/2SRH15...
H17 1 14 H17- 14 W G 1/2
-
5/8SRH17...
11 H17- 11 W G ≥ 1”
H19 1 14 H19- 14 W G 3/4
-
7/8SRH19...
11 H19- 11 W G ≥ 1”
H23 2 14 H23-14 W Int. G 7/8”
Ext. ≥ G 1/2”SRH23...
11 H23-11 W ≥ G1"
H32 2
14 H32-14 W Ext. ≥ G 1/2”
SRH32...
11 H32-11 W Int. ≥ G 11/8”
Ext. ≥ G 1”
H45 2 11 H45-11 W Int. ≥ G 13/4”
Ext. ≥ G 1” SRH45...
H63 2 11 H63-11 W Int. ≥ G 21/2”
Ext. ≥ G 1” SRH63...
12
12
Spiral Mill - Thread Inserts
®
B04-6
BSPT
Same insert for internal and external thread
Insert Size Fig. Pitch Ordering code Thread Size Toolholder
TPI
H13 1 19
H13-19 BSPT
3/8SRH13...
H15 1 14
H15-14 BSPT
1/2
-
3/4SRH15...
H17 1 14
H17-14 BSPT
1/2
-
3/4SRH17...
H23 2 11
H23-11 BSPT
≥
1"
SRH23...
H32 2 11
H32-11 BSPT
Int.
≥
1
1/8
"
Ext.
≥
1"
SRH32...
H45 2 11
H45-11 BSPT
Int.
≥
1
3/4
"
Ext.
≥
1"
SRH45...
H63 2 11
H63-11 BSPT
Int.
≥
2
1/2
"
Ext.
≥
1"
SRH63...
NPT
Same insert for internal and external thread
12
12
Spiral Mill - Thread Inserts
Insert Size Fig. Pitch
TPI Ordering code Thread Size Toolholder
H13 1 18 H13-18 NPT 3/8SRH13...
H15 1 14 H15-14 NPT 1/2
-
3/4SRH15...
H17 1 14 H17-14 NPT 1/2
-
3/4SRH17...
H23 2 11.5 H23-11.5 NPT 1"-2" SRH23...
H32 2
14 H32-14 NPT Ext. 1/2"
-
3/4"
SRH32...
11.5 H32-11.5 NPT Int.
1
1/4
"-2"
Ext.
1"-
2"
H45 2 11.5 H45-11.5 NPT Int. ≥ 2"
Ext. ≥ 1" SRH45...
8H45- 8 NPT ≥
2
1/2
"
H63 2 11.5 H63-11.5 NPT
Ext. 1-2"
SRH63...
8H63- 8 NPT ≥
3"
®
B04-7
NPTF
NPS
Same insert for internal and external thread
Same insert for internal and external thread
Insert Size Fig. Pitch Ordering code Thread Size Toolholder
TPI
H13 1 18 H13-18 NPTF 3/8SRH13...
H15 1 14 H15-14 NPTF 1/2
-
3/4SRH15...
H17 1 14 H17-14 NPTF 1/2
-
3/4SRH17...
H23 2 11.5 H23-11.5 NPTF
1"-2"
SRH23...
H32 2 11.5 H32-11.5 NPTF Int.
1
1/4
"-2"
Ext. 1" -2"
SRH32...
Insert Size Pitch Ordering code Thread Size Toolholder
TPI
H13 18
H13- 18 NPS
3/8SRH13...
H15 14
H15- 14 NPS
1/2
-
3/4SRH15...
H17 14
H17- 14 NPS
1/2
-
3/4SRH17...
12
Spiral Mill - Thread Inserts
®
B04-8
Spiral Finishing Inserts
Spiral Finishing Inserts
Insert Size ROrdering code Toolholder
H23
0.2 H23 F R 0.2
SRH23...
0.5 H23 F R 0.5
1.0 H23 F R 1.0
H32
0.2 H32 F R 0.2
SRH32...0.5 H32 F R 0.5
1.0 H32 F R 1.0
H45
0.2 H45 F R 0.2
SRH45...
0.5 H45 F R 0.5
1.0 H45 F R 1.0
1.5 H45 F R 1.5
2.0 H45 F R 2.0
H63
0.2 H63 F R 0.2
SRH63...
0.5 H63 F R 0.5
1.0 H63 F R 1.0
1.5 H63 F R 1.5
2.0 H63 F R 2.0
®
B04-9
Spiral Mill - Thread Toolholders
Toolholders
Ordering Code Insert
Type
Insert
size A D D1 L L1 No. of Screw Key
Inserts
SRH13S-1 H13 27 13 20 80 26 1 S13 K11
SRH13-1 H13 27 13 20 90 35 1 S13 K11
SRH15-1 H15 27 15 20 95 40 1 S15 K11
* SRH17-2 H17 27 17 20 85 30 2 S17 K11
* SRH17J-2 H17 27 17 20 100 45 2 S17 K11
SRH19-2 H19 27 19 20 85 30 2 S19 K11
SRH19J-2 H19 27 19 20 110 55 2 S19 K11
SRH19-3 H19 27 19 20 85 30 3 S19 K11
SRH19J-3 H19 27 19 20 110 55 3 S19 K11
with internal
coolant bore
A
L1
L
D1
D
Ordering Code Insert
Type
Insert
size A D D1 L L1 No. of Screw Key
Inserts
SRH23-2 H23 27 23 25 110 50 2S23 K21
SRH23M-2 H23 27 23 25 150 75 2S23 K21
SRH28-3 H28 32 28 32 150 75 3S32S K22
SRH32-5 H32 32 32 32 130 60 5S32 K22
SRH32P-5 H32 32 32 32 180 90 5S32 K22
with internal
coolant bore
L1
L
D1
A
D
* When using NPT, NPTF, BSPT inserts the cutting diameter D = 18 mm
®
B04-10
Spiral Mill - Thread Toolholders
Ordering Code Insert
Type
Insert
size A D D1 L No. of Screw Key
Inserts
SRH40-4 H40 37 40 32 180 4S45S K40
SRH45-6 H45 37 45 32 130 6S45 K40
D
with internal
coolant bore
D1
A
L
Ordering Code Insert
Type
Insert
size A D D1 L No. of Screw Key
Inserts
SRH32-5M H32 32 32 16 52 5S32S K22
SRH45-6M H45 37 45 22 60 6S45S K40
SRH63-9 H63 38 63 22 50 9S63 K40
L
with internal
coolant bore
D1
A
D
®
B04-11
In addition to standard products, Carmex manufactures special tools and inserts according to customers' requests.
The toolholders are multi-purpose, making them suitable for both roughing and nishing inserts.
Special tools are supplied in short delivery times.
Special Tools
Spiral Mill - Thread Toolholders
®
B04-12
Spiral Mill - Thread Case Studies
Case Study no. 1
Case Study no. 2
Thread
Internal/External
Thread Length
Raw Material
Cutting Speed – Vc
Tooth Load – Fz
Toolholder
Insert
Result
Application
Internal/External
Raw Material
Cutting Speed – Vc
Tooth Load – Fz
Toolholder
Insert
Result
M56x1.5
Internal
33.0
Ductile Iron
130 m/min
0.15 mm/tooth
SRH45 – 6
H45 I 1.5 ISO MT7
600 pcs with 0.02 oset
Grooves Milling
External
Cast Steel
195 m/min
0.10 mm/tooth
SRH63 – 9
Taylor Made H63
1350 pcs
(Competitor – 40 pcs
with 0.15 oset)
(Competitor – 540 pcs)
Case Studies
®
B05-1
Mill-Thread Inserts and Toolholders for machining deep threads
Improved productivity due to
multi-insert toolholders.
Partial Prole, standard or U-Type inserts for
a wide range of threads.
Inserts with three cutting edges,
reduces tooling costs.
Low cutting resistance due to the
single point inserts.
Holder allows for a long overhang and
includes internal coolant.
Same insert and toolholder for both
external and internal thread.
Contents: Page: Contents: Page:
Standard Toolholders and Inserts
U-Type Toolholders and Inserts
2
3-4
D-Thread
B05
Demonstration
®
B05-2
Partial 60˚ Size 11
Partial 60˚ Size 16
Partial 55˚ Size 11
Partial 55˚ Size 16
Ordering Code
Pitch
mm TPI
11 60D INT. 1.0 - 2.0 24 - 12
EX. 0.75 - 1.5 32 - 14
Ordering Code
Pitch
mm TPI
16 60D INT. 2.5 - 3.5 10 - 7
EX. 2.0 - 3.0 12 - 8
Ordering Code Pitch
TPI
11 55D INT./EX. 24 - 14
Ordering Code Pitch
TPI
16 55D INT./EX. 12 - 8
Ordering Code
Insert Size
Y D D1 L1 No. of
Inserts
Insert
Screw
Torx
Key
LI.C
SR0023Q11 11 1/4 1 23.5 20 190 3 SE11 K11
Ordering Code
Insert Size
Y D D1 L1 No. of
Inserts
Insert
Screw
Torx
Key
L I.C
SR0031R16 16 3/8 1.8 31 25 225 3 SE16 K16
Coated Grade: BMA
Coated Grade: BMA
D-Thread
Mill-Thread Inserts & Toolholders for machining deep threads
D-Thread
®
B05-3
Partial 60˚ Size 11U Partial 55˚ Size 11U
Ordering Code
Insert Size
Y D D1 L1 L2 No. of
Inserts
Insert
Screw
Torx
Key
L I.C
*SR0015M11U 11U 1/4U 5 14.8 16 150 55 1 SE11 K11
**SR0021M11U 11U 1/4U 5 20.6 25 150 65 2 SE11 K11
SR0023M11U 11U 1/4U 5 23 25 150 88 3 SE11 K11
Coated Grade: BMA
Ordering Code Pitch
TPI
11U 55D INT./EX. 12 - 7
D-Thread
Mill-Thread Inserts & Toolholders for machining deep threads
Ordering Code
Pitch
mm TPI
11U 60D INT. 2.5 - 4.0 10 - 6
EX. 2.0 - 3.0 12 - 8
11U 60D-18-12 INT. 1.5 - 2.0 18 - 12
EX. 1.25 - 1.75 20 - 14
D-Thread
* Pitch limitations: for partial 60° - INT. - 10-9 TPI, EX. -12 - 10 TPI; for partial 55° - 12 - 9 TPI
** Pitch limitations: for partial 60° - INT. - 10-8 TPI, EX. -12 - 9 TPI; for partial 55° - 12 - 9 TPI
®
B05-4
Partial 60˚ Size 16U Partial 55˚ Size 16U
Ordering Code
Insert Size
Y D D1 L1 L2 No. of
Inserts
Insert
Screw
Torx
Key
L I.C
SR0035R16U 16U 3/8U 7.6 35.5 32 220 155 4 SE16 K16
Ordering Code
Insert Size
Y D D1 D2 L No. of
Inserts
Insert
Screw
Torx
Key
L I.C
SR0043B16U-5 16U 3/8U 7.6 43.4 16 35.3 38.1 5 SE16 K16
Coated Grade: BMA
Ordering Code
Pitch
mm TPI
16U 60D INT. 4.0 - 6.0 6 - 4
EX. 3.0 - 5.0 8 - 5
16U 60D-16-8 INT. 1.5 - 3.0 16 - 8
EX. 1.5 - 2.5 18 - 10
Ordering Code Pitch
TPI
16U 55D INT./EX. 6 - 4.5
D-Thread
Mill-Thread Inserts & Toolholders for machining deep threads
D-Thread
®
B06-1
Contents: Page:
Toolholders
Extensions
2-4
4
Deep Reach Mill-Thread
B06
A Modular Line of Mill-Thread Toolholders
Demonstration
®
B06-2
Deep Reach Mill-Thread
Carmex presents a modular line
of Mill-Thread toolholders
Toolholders
Ordering Code Insert
Type
Insert
size A D D1 Ds L1 L No. of Screw Key
Inserts
SRH19-3 S H19 27 19 15 M8 42.5 60 3S19 K11
Ordering Code Insert
Type
Insert
size A D D1 Ds L1 L No. of Screw Key
Inserts
SRH23-2 S H23 27 23 18 M10 42.5 62.5 2S23 K16
Carmex modular holders are ideal for deep reach applications.
Unique clamping method enables optimal strength and indexability.
Cost saving - Same shank can hold dierent heads.
Toolholders with internal coolant bore.
Screw connection allows long overhang.
Carmex standard thread milling inserts t these toolholders.
Dierent steel extensions are available.
Toolholders are compatible with common toolholding systems.
A
Ds
L1
L
D1
with internal
coolant bore
D
SRH19-3 S
with internal
coolant bore
A
L1
L
Ds
D1
A
Ds
L1
L
D1
with internal
coolant bore
D
SRH19-3 S
D
A
L1
L
D1
Ds
with internal
coolant bore
D
SRH23-2 S
with internal
coolant bore
A
L1
L
Ds
D1
A
L1
L
D1
Ds
with internal
coolant bore
D
SRH23-2 S
D
®
B06-3
Deep Reach Mill-Thread
Ordering Code Insert
Type
Insert
size A D D1 Ds L1 L No. of Screw Key
Inserts
SRH28-3 S H28 32 28 21 M12 50 72 3S28 K16
Ordering Code Insert
Type
Insert
size A D D1 Ds L1 L No. of Screw Key
Inserts
SRH32-3 S H32 32 32 26 M12 50 72 3S32S K16
Ordering Code Insert
Type
Insert
size A D D1 Ds L1 L No. of Screw Key
Inserts
SR0020C14-2 S MT14 14 20 16 M8 30.5 48 2S14 K14
D1
A
L1
L
Ds
with internal
coolant bore
D
SRH32-3 S
D1
A
L1
L
Ds
with internal
coolant bore
D
SRH32-3 S
with internal
coolant bore
A
L1
L
Ds
D1
D
D1
A
L1
L
Ds
with internal
coolant bore
D
SRH28-3 S
D1
A
L1
L
Ds
with internal
coolant bore
D
SRH28-3 S
D
with internal
coolant bore
A
L1
L
Ds
D1
A
L1
L
D1
Ds
with internal
coolant bore
D
SR0020C14 - 2 S
A
L1
L
D1
Ds
with internal
coolant bore
D
SR0020C14 - 2 S
with internal
coolant bore
A
L1
L
Ds
D1
D
®
B06-4
Deep Reach Mill-Thread
Ordering Code D D1 Ds L L1
E16 M08 L80 16 15 M08 80 30
E20 M10 L80 20 18 M10 80 30
E20 M10 L130 20 18 M10 130 80
E25 M12 L100 25 21 M12 100 50
E25 M12 L150 25 21 M12 150 100
Toolholders
Extensions
Ordering Code Insert
Type Y D D1 Ds L1 L No. of Screw Key
L I.C. Inserts
SR0033D16U-3 S 16U 16U 3/8U 7.6 33 24 M12 40 60 3S16 K16
Insert size
Ordering Code Insert
Type
Insert
size A D D1 Ds L1 L No. of Screw Key
Inserts
SR0025D21-1 S MT21 21 25 19.7 M10 40 60 1S21 K21
D1
A
L1
L
Ds
with internal
coolant bore
D
SR0025D21 - 1 S
D1
A
L1
L
Ds
with internal
coolant bore
D
SR0025D21 - 1 S
with internal
coolant bore
A
L1
L
Ds
D1
D
D1
L1
L
Ds
Y
with internal
coolant bore
D
SR0033D16U - 3 S
D1
L1
L
Ds
Y
with internal
coolant bore
D
SR0033D16U - 3 S
with internal
coolant bore
Y
L1
L
Ds
D1
D
with internal
coolant bore
L1
L
D
D1
Ds
®
CMT Vertical Milling
B07-1
Contents: Contents:
Advantages of CMT - Vertical Milling
Vertical milling indexable inserts and toolholders to perform a wide
variety of threads, grooves, chamfers and more.
Ground prole inserts for high precision and
excellent performance.
Working at high machining parameters, with high
surface quality.
Solid and accurate clamping method enables full
repeatability.
Same insert for right-hand or left-hand threads.
Toolholders include weldon shank and coolant
bore.
Chamfer inserts are also available.
Introduction: CMT Vertical Milling 2
Product Identication 3-4
Inserts 5-21
Partial Prole 60˚ - ISO, UN 5-6
Partial Prole 60˚ - NPT 6
Partial Prole 55˚ - BSP(G), BSF, BSW 7
Full Prole - ISO 8-9
Full Prole - UN 10-11
G 55˚ BSW, BSF, BSP 12
Trapez - DIN 103 12
Acme 13
Round – DIN 405 13
Chamfering and Grooving 14
Chamfering, Grooving and Boring 14
Dovetail 45˚ 15
Groove Milling 15-19
Face Milling and Finishing 19
Corner Rounding 20
Front and Back Corner Rounding 21
Toolholders 22-23
Steel Toolholders 22
Carbide Shank Toolholders 23
CMT Multi Insert Milling Cutters 24
Product Identication 25
Groove Milling 26-27
Chamfering 27
Partial Prole 60° - ISO, UN 28
Toolholders 29-30
Milling Cutter – Arbor 29
Milling Cutter – Shell Mill 29
Milling Cutter – Weldon Shank 30
Milling Cutter – Disc Milling 30
CMT Vertical Milling
B07
Demonstration
Page: Page:
®
CMT Vertical Milling
B07-2
Multi ute: 4-8 cutting edges
Spiral ute for smooth cutting
Advantages
- Longer tool life
- High material removal and higher feeds results increased productivity
- Excellent surface nish
- Reduced cycle time
- Low cutting forces due to the spiral multi utes
Advantages
Carbide Grade: MT8
Sub Micron grade with advanced PVD triple coating (ISO K10-K20).
Extremely high heat resistant and smooth cutting operation, high performance, for all machining
conditions.
CMT Spiral Multi Flute Inserts
CMT Straight Flute Inserts
Carbide Grade: MT7
Inserts are available in MT7 Sub-Micron Grade with Titanium Aluminum
Nitride multi-layer coating (ISO K10 - K20). This is a general purpose grade,
covering a very wide range of materials.
The new cutters are designed for large range of materials
including hardened steel up to 62 HRc.
CMT
Vertical Milling
Ground prole inserts for high precision and excellent performance.
Working at high machining parameters, with high surface quality.
Solid and accurate clamping method enables full repeatability.
Same insert and holder for right-hand or left-hand threads.
Toolholders include weldon shank and coolant bore.
®
CMT Vertical Milling
B07-3
C25
4 FLUTES
C12
3 FLUTES
C18C10
CMT Spiral Multi Flute Inserts
1.0H
Number
of Flutes
D = 4
E = 5
F = 6
H = 8
S
Spiral CMT line
Multi ute
ISO
Thread Prole
Partial 60° & 55°
ISO
UN
Cutting Diameter
178 = Ø17.8 mm
189 = Ø18.9 mm
200 = Ø20.0 mm
350 = Ø35.0 mm
178
Carbide
Grade
MT8
Thread Pitch
G, N =
Partial Prole
H = Chamfering,
Grooving and Boring
R = Radius Groove
Milling
CR = Corner Rounding
W = Grooving
C
CMT Line
18
Cutting Diameter
10 = 10.0 mm
12 = 12.0 mm
18 = 17.8 mm
25 = 25.0 mm
MT7
Carbide Grade
I
I = Internal
UN
Thread Prole
60˚ & 55˚
ISO
UN
Whitworth
Trapez
Acme
Chamfering
12
Thread Pitch
A, D, G, N, Q =
Partial Prole
C = Chamfering
and Grooving
CR = Corner
Rounding
F = Face Milling
and Finishing
W = Grooving
Product Identication - Ordering Codes
D
Cutting Diameter
®
CMT Vertical Milling
B07-4
L45
Neck Length
Product Identication - Ordering Codes
CMT Toolholders
S
Clamping Method
S = Screw
C = Carbide shank
RC H
Length of
Toolholders
16
Shank Diameter
18
Insert Type
10 = C10
12 = C12, S17
18 = C18, S20
25 = C25
35 = S35
®
CMT Vertical Milling
B07-5
* For complete toolholder description see pages B07-22 and 23
Same insert for internal and external thread
Partial Prole 60˚ - ISO, UN
Insert
Type
Pitch Pitch Thread Diameter (min)
Ordering Code Range Range D Pitch Pitch Holder Code*
mm TPI Low Range High Range
C10
C10 A60
Int. 0.5 - 0.8
56 - 28 10.0 ø ≥ 11 ø ≥ 12
H1, 1.1, 2, 15, 16, 17
Ex. 0.4 - 0.8
64 - 32
C10 G60
Int. 1.0 - 2.0
28 - 13 10.0 ø ≥ 12 ø ≥ 14
H1, 2, 15, 17
Ex. 0.8 - 1.75
32 - 15
C12
C12 A60
Int. 0.5 - 0.8
56 - 28 12.0 ø ≥ 13 ø ≥ 14
H3, 3.1, 4, 5, 18, 19,
20
Ex. 0.4 - 0.8
64 - 32
C12 G60
Int. 1.0 - 2.0
28 - 13 12.4 ø ≥ 14 ø ≥ 16
H3, 4, 5, 18, 19, 20
Ex. 0.8 - 1.75
32 - 15
C12 AG60
Int. 1.5 - 2.5
18 - 11 12.4 Ø ≥ 15 Ø ≥ 17
H3, 4, 5, 18, 20
Ex. 1.25 - 2.0
24 - 13
C18
C18 A60
Int. 0.5 - 0.8
56 - 28 17.8 ø ≥ 19 ø ≥ 19
H5.1, 5.2, 6, 7, 8, 9,
21, 22, 23
Ex. 0.4 - 0.8
64 - 32
C18 G60
Int. 1.0 - 1.75
28 - 14 17.8 ø ≥ 20 ø ≥ 21
Ex. 0.8 - 1.5
32 - 16
C18 D60
Int. 2.0 - 3.0
13 - 8 17.8 ø ≥ 21 ø ≥ 23
Ex. 1.75 - 2.5
15 - 10
C25
C25 G60
Int. 1.5 - 2.5
16 - 10 25.0 ø ≥ 28 ø ≥ 30
H10, 11, 24, 25
Ex. 1.0 - 2.0
28 - 13
C25 N60
Int. 3.0 - 5.0
8 - 5 25.0 ø ≥ 30 ø ≥ 34
Ex. 2.5 - 4.5
10 - 6
C25 Q60
Int. 5.0 - 6.0
5 - 4 25.0 ø ≥ 34 ø ≥ 35
Ex. 4.5 - 5.0
6 - 5
D
Cutting Diameter
®
CMT Vertical Milling
B07-6
* For complete toolholder description see pages B07-22 and 23
Partial Prole 60˚
- ISO, UN
Same insert for internal and external thread
Multi Flute
Partial Prole 60˚ - NPT
Same insert for internal and external thread
Insert
Type Ordering Code
Pitch
Range
mm
Pitch Range
TPI DNo. of
Flutes
Thread Dia (min)
Holder Code*
Pitch
Low range
Pitch
High range
S17 S160 F AG60 Int. 1.0-3.5 28-7 16.0 6 Ø ≥ 20 Ø ≥ 22 H3, 3.1, 4,
5, 18, 19, 20
Ex. 0.8-3.0 32-8.5
S20
S200 F G60
Int. 1.5-2.5 16-10
20.0 6 Ø ≥ 23 Ø ≥ 25
H5.1, 5.2, 6,
7, 8,
9, 21, 22, 23
Ex. 1.0-2.0 28-13
S200 D N60 Int. 3.0-5.0 8-5 20.0 4 Ø ≥ 25 Ø ≥ 29 H5.1, 5.2, 21
Ex. 2.5-4.5 10-6
S35
S350 F N60 Int. 3.0-5.0 8-5 35.0 6 Ø ≥ 38 Ø ≥ 40 H12, 13, 14, 26
Ex. 2.5-4.5 10-6
S350 F Q60 Int. 5.0-6.0 5-4 35.0 6 Ø ≥ 40 Ø ≥ 44 H12, 13, 14, 26
Ex. 4.5-5.0 6-5
Insert
Type Ordering Code Pitch
TPI Standard D Holder Code*
C10 C10 18 NPT 18 1/4 - 3/8 10.0 H1, 1.1, 2, 15, 17
C18 C18 14 NPT 14 1/2 - 3/4 15.8 H5.1, 5.2, 21
C25 C25 11.5NPT 11.5 1-2 25.0 H10, 11, 24, 25
C25 8 NPT 8≥ 2 1/2 25.0
D
Cutting Diameter
D
Cutting Diameter
®
CMT Vertical Milling
B07-7
* For complete toolholder description see pages B07-22 and 23
Insert
Type Ordering Code Pitch Range
TPI DNo. of
Flutes Thread Dia (min) Holder Code*
S17 S170 F G55 11-8 17.0 6
Ø ≥ 18.5
H3, 3.1, 4,
5, 18, 19, 20
S20 S195 F G55 14 19.5 6 Ø
≥ 23
H5.1, 5.2, 6, 7,
8, 9, 21, 22, 23
S200 D N55 8-6 20.0 4 Ø
≥ 25
Insert
Type Ordering Code
Pitch
Range
TPI
D Thread Dia. (min) Holder Code*
C10 C10 G55
19-14
10.0 Ø
≥ 13
H1, 2, 15, 17
C12 C12 G55
28-19
12.0 Ø
≥ 14
H3, 3.1, 4, 5, 18, 19,
20
C12 N55
14-11
12.2 Ø
≥ 16
H3, 4, 5,18, 20
C18 C18 G55
14-8
18.0 Ø
≥ 23
H5.1, 5.2, 21
C25 C25 N55
7-5
25.0 Ø
≥ 31
H10, 11, 24, 25
Partial Prole 55˚ - BSP(G), BSF, BSW
Same insert for internal and external thread
Partial Prole 55˚ - BSP(G), BSF, BSW
Same insert for internal and external thread
Multi Flute
D
Cutting Diameter
D
Cutting Diameter
®
CMT Vertical Milling
B07-8
* For complete toolholder description see pages B07-22 and 23
Full Prole - ISO
Inserts for internal thread
Insert
Type Ordering Code Pitch
mm
M
coarse
M
ne
Number
of Teeth D Holder Code*
C10
C10 I 0.5 ISO 0.5
M10, M12
6 9.0
H1, 1.1, 2, 15, 16,
17
C10 I 0.75 ISO 0.75
M12
4 10.0
C10 I 1.0 ISO 1.0
M12, M13
3 10.0
C10 I 1.5 ISO 1.5
M13, M14
2 10.0
C10 I 1.75 ISO 1.75 M12 1
9.6
H1, 2, 15, 17
C10 I 2.0 ISO 2.0 M14 M18 1 10.0
C12
C12 I 0.5 ISO 0.5 M13-M18 6 12.0
H3, 3.1, 4, 5, 18,
19, 20
C12 I 0.75 ISO 0.75 M13-M18 4 12.0
C12 I 1.0 ISO 1.0
M14-M19
3 12.0
C12 I 1.5 ISO 1.5
M15-M19
2 12.0
C12 I 2.0 ISO 2.0 M16
M18, M20
1 12.4
C12 I 2.5 ISO 2.5 M18, M20 1 12.0 H3, 4, 5,18, 20
C12 I 3.0 ISO 3.0 M24 1 12.4
C18
C18 I 0.5 ISO 0.5
M19-M60
9 17.8
H5.1, 5.2, 6, 7, 8,
9, 21, 22, 23
C18 I 0.75 ISO 0.75
M19-M60
6 17.8
C18 I 1.0 ISO 1.0
M20-M60
5 17.8
C18 I 1.5 ISO 1.5
M20-M60
3 17.8
C18 I 2.0 ISO 2.0 M21-M60 2 17.8
C18 I 2.5 ISO 2.5 M22 2 17.8
C18 I 3.0 ISO 3.0 M24, M27
M28-M60
1 17.8
C18 I 3.5 ISO 3.5 M30, M33 1 17.8
C25
C25 I 3.0 ISO 3.0 M32, M33
M30-M80
2 25.0
H10, 11, 24, 25
C25 I 3.5 ISO 3.5 M33 1 25.0
C25 I 4.0 ISO 4.0 M36, M39
M48-M80
1 25.0
C25 I 4.5 ISO 4.5 M42, M45 1 25.0
C25 I 5.0 ISO 5.0 M48, M52 1 25.0
C25 I 5.5 ISO 5.5 M56, M60 1 25.0
C25 I 6.0 ISO 6.0 M64, M68
M70-M80
1 25.0
D
Cutting Diameter
®
CMT Vertical Milling
B07-9
Insert
Type Ordering Code Pitch
mm
M
coarse
M
ne
Number
of Teeth DNo. of
Flutes Holder Code*
S17 S160 F 2.5 ISO 2.5 M20 1 16.0 6 H3, 3.1, 4, 5, 18,
19, 20
S20
S163 H 1.0 ISO 1.0 M18-M60 5 16.3 8
H5.1, 5.2, 6, 7,
8, 9, 21, 22, 23
S175 H 1.5 ISO 1.5 M20-M60 3 17.5 8
S186 F 2.0 ISO 2.0 M22-M60 2 18.6 6
S178 F 2.5 ISO 2.5 M22 2 17.8 6
S189 F 3.0 ISO 3.0 M24, M27 M28-M60 1 18.9 6
S200 F 3.5 ISO 3.5 M30, M33 1 20.0 6
S200 F 4.0 ISO 4.0 M36, M39 M40-M60 1 20.0 6
S200 E 4.5 ISO 4.5 M42 1 20.0 5
S200 D 5.0 ISO 5.0 M48, M52 1 20.0 4
S35 S350 F 4.5 ISO 4.5 M45 M54 1 35.0 6
H12, 13, 14, 26
S350 F 6.0 ISO 6.0 M64, M68 1 35.0 6
S350 F 8.0 ISO 8.0
M130-M200
1 35.0 6
Full Prole - ISO
Inserts for internal thread
Multi Flute
* For complete toolholder description see pages B07-22 and 23
D
Cutting Diameter
®
CMT Vertical Milling
B07-10
* For complete toolholder description see pages B07-22 and 23
Full Prole -
UN
Inserts for internal thread
Insert
Type
Ordering
Code
Pitch
TPI
Nominal
Size UNC UNF UNEF Number
of Teeth DHolder
Code*
C10
C10 I 20 UN
20
1/2 210.0 H1, 1.1, 2,
15, 16, 17
C10 I 18 UN
18
9/16 210.0
C10 I 13 UN
13
1/2 110.0 H1, 2, 15,
17
C10 I 12 UN
12
5/8, 11/16, 3/4 9/16 110.0
C12
C12 I 32 UN
32
9/16, 5/8 312.0
H3, 3.1, 4,
5, 18, 19,
20
C12 I 28 UN
28
9/16, 5/8, 11/16 312.0
C12 I 24 UN
24
9/16, 5/8,
11/16 212.0
C12 I 20 UN
20
9/16, 5/8, 11/16 3/4 212.0
C12 I 18 UN
18
5/8 212.0
C12 I 16 UN
16
5/8, 11/16 3/4 112.0
C12 I 12 UN
12
5/8 112.4
C12 I 11 UN
11
5/8 112.0 H3, 4,
5,18,20
C12 I 10 UN
10
3/4 112.0
C18
C18 I 32 UN
32
3/4, 13/16, 7/8 617.8
H5.1, 5.2,
6, 7, 8, 9,
21, 22, 23
C18 I 28 UN
28
3/4, 13/16, 7/8 517.8
C18 I 24 UN
24
417.8
C18 I 20 UN
20
11/16, 11/8 13/16, 7/8,
15/16 317.8
C18 I 18 UN
18
317.8
C18 I 16 UN
16
7/8, 1 317.8
C18 I 14 UN
14
7/8 217.8
C18 I 12 UN
12
7/8 1, 11/8 217.8
C18 I 11 UN
11
217.8
C18 I 9 UN
9
7/8 117.8
C18 I 8 UN
8
1 1 17.8
C25
C25 I 8 UN
8
13/16, 11/4, 15/16 225.0
H10, 11,
24, 25
C25 I 7 UN
7
11/4 125.0
C25 I 6 UN
6
17/16, 19/16 13/8, 11/2 125.0
C25 I 5 UN
5
1 3/4 125.0
C25 I 4 UN
4
21/2, 23/4 125.0
D
Cutting Diameter
®
CMT Vertical Milling
B07-11
Insert
Type Ordering Code Pitch
TPI
Nominal
size UNC UNF UNEF Number
of Teeth DNo. of
Flutes
Holder
Code*
S17 S150 F 10 UN 10 3/4 1 15.0 6
H3, 3.1, 4,
5, 18, 19,
20
S20
S160 H 24 UN 24 11/16 4 16.0 8
H5.1, 5.2,
6, 7, 8, 9,
21, 22, 23
S169 H 20 UN 20
3/4,
13/16,
7/8,
15/16,
1
4 16.9 8
S164 F 16 UN 16 7/8, 15/16, 1 3/4 3 16.4 6
S191 F 14 UN 14 7/8 2 19.1 6
S186 F 12 UN 12 7/8, 15/16 1 2 18.6 6
S178 F 9 UN 97/8 1 17.8 6
S200 F 8 UN 8 1 1/8 1 1 20.0 6
S200 F 7 UN 7 1 1/8, 1 1/4 1 20.0 6
S200 E 6 UN 61 7/16 1 3/8, 1 1/2 1 20.0 5
S200 D 5 UN 5 1 3/4 1 20.0 4
S35
S350 F 8 UN 81 5/8, 1 3/4 2 35.0 6 H12, 13,
14, 26
S350 F 4 UN 42 1/2, 2 3/4,
31 35.0 6
Full Prole
- UN
Inserts for internal thread
Multi Flute
* For complete toolholder description see pages B07-22 and 23
D
Cutting Diameter
®
CMT Vertical Milling
B07-12
* For complete toolholder description see pages B07-22 and 23
G 55˚
BSW, BSF, BSP
Same insert for internal and external thread
Trapez -
DIN 103
Inserts for internal thread
Insert
Type Ordering Code Pitch
TPI Standard Number
of Teeth D Holder Code*
C10 C10 19 W
19
G 1/4 210.0 H1, 1.1, 2, 15, 16, 17
C12 C12 19 W
19
G 3/8 212.0 H3, 3.1, 4, 5, 18,
19, 20
C18 C18 14 W
14
G 1/2 - 7/8 217.8 H5.1, 5.2, 6, 7, 8, 9,
21, 22, 23
C18 11 W
11
G ≥ 1 217.8
Insert
Type Ordering Code Pitch
mm Standard D Holder Code*
C10 C10 I 2 TR
2.0
Tr16x2, Tr18x2
10.0 H1, 2, 15, 17
C12 C12 I 2 TR
2.0
Tr20x2
12.0 H3, 4, 5, 18, 20
C18
C18 I 3 TR
3.0
Tr24x3
17.8 H5.1, 5.2, 6, 7, 8, 9, 21, 22, 23
C18 I 4 TR
4.0
Tr26x4
17.8 H5.1, 5.2, 21
C18 I 5 TR
5.0
Tr28x5
17.8
C25 C25 I 6 TR
6.0
Tr36x6
25.0 H10, 11, 24, 25
D
Cutting Diameter
D
Cutting Diameter
®
CMT Vertical Milling
B07-13
D
Cutting Diameter
Acme
Inserts for internal thread
Round-DIN 405
Inserts for internal thread
Insert
Type Ordering Code Pitch
TPI Standard D Holder Code*
C18 C18 I 5 ACME
5
11/8, 11/4 18.0 H5.1, 5.2, 21
C25 C25 I 4 ACME
4
11/2, 13/4, 2 25.0 H10, 11, 24, 25
Insert
Type Ordering Code Pitch
TPI Standard D Holder Code*
C18 C18 1/8RD
8
1/8RD 17.8 H5.1, 5.2, 6, 7, 8, 9, 21,
22, 23
C18 1/6RD
6
1/6RD 17.8 H5.1, 5.2, 21
C25 C25 1/4RD
4
1/4RD 25.0 H10, 11, 24, 25
* For complete toolholder description see pages B07-22 and 23
D
Cutting Diameter
®
CMT Vertical Milling
B07-14
Chamfering, Grooving and Boring
Multi Flute
Chamfering and Grooving
* For complete toolholder description see pages B07-22 and 23
Insert
Type Ordering Code D H W αHolder Code*
C10 C10 C90 10.0 1.30 0.4 90˚ H1, 2, 15, 17
C12 C12 C90 12.0 1.35 0.3 90˚ H3, 4, 5, 18, 20
C18 C18 C90 17.8 1.95 1.1 90˚ H5.1, 5.2, 6, 7, 8, 9, 21,
22, 23
C25 C25 C90 25.0 2.50 1.0 90˚ H10, 11, 24, 25
Insert
Type Ordering Code D H max W αNo. of
Flutes Holder Code*
S17 SC160 E H14 16.0 1.35 0.2 90° 5 H3, 3.1, 4, 5, 18, 19,
20
S20
SC170 E H14 17.0 1.35 0.2 90° 5 H6, 7, 8, 9, 21, 22, 23
SC200 F H14 20.0 1.35 0.2 90° 6 H5.1, 5.2, 6, 7, 8, 9,
21, 22, 23
SC200 F H24 20.0 2.35 0.2 90° 6
S35 SC350 F H42 35.0 4.20 0.2 90° 6 H12, 13, 14, 26
S20
SC200 F H20 20.0 1.95 1.0 90° 6
H5.1, 5.2, 6, 7, 8, 9,
21, 22, 23
SC200 F H17 20.0 1.70 1.5 90° 6
SC200 F H15 20.0 1.50 2.0 90° 6
SC200 F H12 20.0 1.20 2.5 90° 6
W
H max
α
α
D
Cutting Diameter
D
Cutting Diameter
®
CMT Vertical Milling
B07-15
Dovetail 45
˚
Multi Flute
Groove Milling
Insert
Type Ordering Code D W
±0.02
T
max. RGroove Dia.
(min.) Holder Code*
C10
C10 W08 10.0 0.80 0.80 0.1 Ø > 10.0
H1, 1.1, 2, 15,
16, 17
C10 W09 10.0 0.90 0.90 0.1 Ø > 10.0
C10 W10 10.0 1.00 0.90 0.1 Ø > 10.0
C10 W15 10.0 1.50 1.20 0.1 Ø > 10.0 H1, 2, 15, 17
C10 W20 10.0 2.00 1.20 0.1 Ø > 10.0
C12
C12 W08 12.0 0.80 0.80 0.1 Ø > 12.0 H3, 3.1, 4, 5, 18,
19, 20
C12 W10 12.0 1.00 0.90 0.1 Ø > 12.0
C12 W10T 12.3 1.00 1.60 0.2 Ø > 12.3
H3, 4, 5, 18, 20
C12 W15 12.4 1.50 1.60 0.1 Ø > 12.4
C12 W20 12.4 2.00 1.60 0.1 Ø > 12.4
C12 W25 12.4 2.50 1.60 0.1 Ø > 12.4
C18
C18 W10 17.8 1.00 1.50 0.1 Ø > 17.8
H5.1, 5.2, 6, 7, 8,
9, 21, 22, 23
C18 W12 17.8 1.20 1.50 0.1 Ø > 17.8
C18 W15 17.8 1.50 1.95 0.1 Ø > 17.8
C18 W20 17.8 2.00 2.80 0.1 Ø > 17.8 H5.1, 5.2, 21
C25
C25 W20 25.0 2.00 3.00 0.2 Ø > 25.0
H10, 11, 24, 25
C25 W25 25.0 2.50 3.00 0.2 Ø > 25.0
C25 W30 25.0 3.00 3.00 0.2 Ø > 25.0
C25 W35 25.0 3.50 3.50 0.2 Ø > 25.0
C25 W40 25.0 4.00 3.50 0.2 Ø > 25.0
C25 W50 25.0 5.00 3.50 0.2 Ø > 25.0
* For complete toolholder description see pages B07-22 and 23
Insert
Type Ordering Code D H W αNo. of
Flutes Holder Code*
S17 SC170 F A45 17.0 2.5 0.1 45° 6H3, 3.1, 4, 5, 18,
19, 20
S20 SC200 F A45 20.0 3.0 0.1 45° 6H5.1, 5.2, 6, 7, 8,
9, 21, 22, 23
D
Cutting Diameter
H max
w
α
D
Cutting Diameter
W
R
A
T
Detail A
®
CMT Vertical Milling
B07-16
* For complete toolholder description see pages B07-22 and 23
Groove Milling
DIN 471/472
Insert
Type Ordering Code D
Nom`
groove
width
W
-0.04
T
max. RGroove
Dia. (min.) Holder Code*
C10
C10 W087 10.0 0.8 0.87 1.3 0 Ø > 10.0
H1, 2, 15, 17
C10 W097 10.0 0.9 0.97 1.3 0 Ø > 10.0
C10 W121 10.0 1.10 1.21 1.3 0 Ø > 10.0
C10 W141 10.0 1.30 1.41 1.3 0.1 Ø > 10.0
C10 W171 10.0 1.60 1.71 1.3 0.1 Ø > 10.0
C12
C12 W121 12.4 1.10 1.21 1.7 0Ø > 12.4 H3, 4, 5, 18,
20
C12 W141 12.4 1.30 1.41 1.7 0.1 Ø > 12.4
C12 W171 12.4 1.60 1.71 1.7 0.1 Ø > 12.4
C18
C18 W121 17.8 1.10 1.21 2.9 0.1 Ø > 17.8
H5.1, 5.2, 21
C18 W141 17.8 1.30 1.41 2.9 0.1 Ø > 17.8
C18 W171 17.8 1.60 1.71 2.9 0.1 Ø > 17.8
C18 W196 17.8 1.85 1.96 2.9 0.15 Ø > 17.8
W
R
A
T
Detail A
D
Cutting Diameter
®
CMT Vertical Milling
B07-17
Insert
Type Ordering Code D W
±0.02
T
Max. RGroove Dia.
(min)
No. of
Flutes Holder Code*
S17
SG170 F W15 17.0 1.5 2.8 0.2 Ø > 17 6 H3, 3.1, 4, 5, 18,
19, 20
SG170 F W20 17.0 2.0 2.8 0.2 Ø > 17 6
SG170 F W25 17.0 2.5 2.8 0.2 Ø > 17 6
S20
SG200 F W15 20.0 1.5 2.9 0.2 Ø > 20 6
H5.1, 5.2, 6, 7, 8,
9, 21, 22, 23
SG200 F W20 20.0 2.0 2.9 0.2 Ø > 20 6
SG200 F W25 20.0 2.5 2.9 0.2 Ø > 20 6
SG200 F W30 20.0 3.0 2.9 0.2 Ø > 20 6
SG200 F W40 20.0 4.0 2.9 0.2 Ø > 20 6
SG200 F W49 20.0 4.9 2.9 0.2 Ø > 20 6
S20
SG200 E W20T 20.0 2.0 3.7 0.2 Ø > 20 5
SG200 E W25T 20.0 2.5 3.7 0.2 Ø > 20 5 H5.1, 5.2, 21
SG200 E W30T 20.0 3.0 3.7 0.2 Ø > 20 5
S35
SG350 F W30T 35.0 3.0 6.3 0.2 Ø > 35 6
H12, 13, 14, 26
SG350 F W40T 35.0 4.0 6.3 0.2 Ø > 35 6
SG350 F W50T 35.0 5.0 6.3 0.2 Ø > 35 6
SG350 F W60T 35.0 6.0 6.3 0.2 Ø > 35 6
SG350 F W80T 35.0 8.0 6.3 0.2 Ø > 35 6
Groove Milling
Multi Flute
* For complete toolholder description see pages B07-22 and 23
W
T max
R
D
Cutting Diameter
®
CMT Vertical Milling
B07-18
Insert
Type Ordering Code D
Nom`
groove
width
W
-0.04
T
Max. RGroove Dia.
(min)
No. of
Flutes Holder Code*
S20
SG200 F W121 20.0 1.10 1.21 4.0 0 Ø > 20 6
H5.1, 5.2, 21
SG200 F W141 20.0 1.30 1.41 4.0 0.1 Ø > 20 6
SG200 F W171 20.0 1.60 1.71 4.0 0.1 Ø > 20 6
SG200 F W196 20.0 1.85 1.96 4.0 0.1 Ø > 20 6
Groove Milling
Multi Flute
DIN 471/472
Full Radius Groove Milling
Insert
Type Ordering Code D RW
±0.02
T
Max.
Groove Dia.
(min) Holder Code*
C12 C12 R11 12.4 1.1 2.2 1.7 Ø >12.4 H3, 4, 5, 18, 20
C18 C18 R08 17.8 0.8 1.6 2.9 Ø >17.8 H5.1, 5.2, 21
C18 R11 17.8 1.1 2.2 2.9 Ø >17.8
W
T max
R
* For complete toolholder description see pages B07-22 and 23
D
Cutting Diameter
D
Cutting Diameter
AW
R
T max
Detail A
®
CMT Vertical Milling
B07-19
Insert
Type Ordering Code D W ± 0.1 RHolder Code*
C10 C10 F R0.1 10 3.0 0.1 H1, 1.1, 2, 15, 16, 17
C12 C12 F R0.1 12 3.0 0.1 H3, 3.1, 4, 5,18, 19, 20
C18 C18 F R0.1 17.8 5.0 0.1 H5.1, 5.2, 6, 7, 8, 9, 21, 22, 23
C25 C25 F R0.2 25.0 6.0 0.2 H10, 11, 24, 25
Face Milling and Finishing
Full Radius Groove Milling
Multi Flute
T max
W
R
* For complete toolholder description see pages B07-22 and 23
Insert
Type Ordering Code D RW
±0.02
T
Max.
Groove Dia.
(min)
No. of
Flutes
Holder
Code*
S20
SG200 F R10 20.0 1.0 2.0 2.9 Ø > 20 6
H5.1, 5.2, 6,
7, 8, 9, 21,
22, 23
SG200 F R12 20.0 1.2 2.4 2.9 Ø > 20 6
SG200 F R15 20.0 1.5 3.0 2.9 Ø > 20 6
SG200 F R20 20.0 2.0 4.0 2.9 Ø > 20 6
D
Cutting Diameter
D
Cutting Diameter
W
R
Insert
Type Ordering Code D
Nom`
groove
width
W
-0.04
T
Max. RGroove Dia.
(min)
No. of
Flutes Holder Code*
S20
SG200 F W121 20.0 1.10 1.21 4.0 0 Ø > 20 6
H5.1, 5.2, 21
SG200 F W141 20.0 1.30 1.41 4.0 0.1 Ø > 20 6
SG200 F W171 20.0 1.60 1.71 4.0 0.1 Ø > 20 6
SG200 F W196 20.0 1.85 1.96 4.0 0.1 Ø > 20 6
®
CMT Vertical Milling
B07-20
l
R
0.5
0.5
D
Cutting Diameter
R
0.5
0.5
Do
R
0.5
0.5
Insert
Type Ordering Code D Do RI Holder Code*
C10 C10 CR05 10.0 7.9 0.5 1.05 H1, 1.1, 2, 15, 16, 17
C10 CR10 10.0 6.9 1.0 1.55
C18
C18 CR13 17.8 14.2 1.25 1.80
C18 CR15 17.8 13.7 1.5 2.05 H5.1, 5.2, 6, 7, 8, 9, 21,
22, 23
C18 CR20 17.8 12.7 2.0 2.55
C25 C25 CR30 25.0 17.7 3.0 3.60 H10, 11, 24, 25
Corner Rounding
Corner Rounding
Multi Flute
* For complete toolholder description see pages B07-22 and 23
Insert
Type Ordering Code D Do RI No. of Flutes Holder Code*
S17
S170 E CR10 17.0 13.9 1.0 1.55 5H3, 3.1, 4, 5, 18,
19, 20
S170 E CR13 17.0 13.4 1.25 1.80 5
S170 E CR15 17.0 12.9 1.5 2.05 5
D
Cutting Diameter
D
Cutting Diameter
l
®
CMT Vertical Milling
B07-21
Front and Back Corner Rounding
Front and Back Corner Rounding
Multi Flute
Insert
Type Ordering Code D Do RW I Holder Code*
C10 C10 CRD08 10.0 8.2 0.8 1.2 0.90 H1, 1.1, 2, 15, 16, 17
C18 C18 CRD15 17.8 14.6 1.5 1.8 1.60 H5.1, 5.2, 6, 7, 8, 9,
21, 22, 23
C25 C25 CRD20 25.0 20.7 2.0 2.0 2.10 H10, 11, 24, 25
Insert
Type Ordering Code D Do RW I No. of
Flutes Holder Code*
S17 S170 F CRD08 17.0 15.2 0.8 1.2 0.90 6H3, 3.3, 4, 5, 18, 19,
20
S20 S200 F CRD15 20.0 16.8 1.5 1.8 1.60 6H5.1, 5.2, 6, 7, 8, 9,
21, 22, 23
* For complete toolholder description see pages B07-22 and 23
D
Cutting Diameter
W
I
R
0.1
0.1
Do
A
Detail A
D
Cutting Diameter
W
I
R
0.1
0.1
Do
A
Detail A
®
CMT Vertical Milling
B07-22
Steel Toolholders
With internal coolant
Tool No. Ordering Code Insert
Type d D2 I L Insert
Screw
Torx
Key
H1 SRC 1210 E
C10
12 7.3 19 70 S5 K5
H1.1 SRC 1210 F 12 8.0 25 80 S5 K5
H2 SRC 1610 G 16 7.3 19 90 S5 K5
H3 SRC 1212 E
C12,
S17
12 9.0 25 70 S10 K10
H3.1 SRC 1212 G 12 10.0 40 90 S10 K10
H4 SRC 1612 G 16 9.0 25 90 S10 K10
H5 SRC 1612 H 16 9.0 35 100 S10 K10
H5.1 SRC 1618 F
C18,
S20
16 12.0 25 80 S16 K16
H5.2 SRC 1618 G 16 12.0 40 90 S16 K16
H6 SRC 1618 H 16 13.8 48 100 S16 K16
H7 SRC 2018 H 20 13.8 32 100 S16 K16
H8 SRC 2018 J 20 13.8 48 110 S16 K16
H9 SRC 2018 L 20 13.8 74 140 S16 K16
H10 SRC 2525 J C25 25 17.5 45 115 S27 K27
H11 SRC 2525 M 25 17.5 80 150 S27 K27
H12 SRC 2035 K
S35
20 22.0 44 130 S33 K33
H13 SRC 2535 H 25 22.0 40 100 S33 K33
H14 SRC 2535 K 25 22.0 60 130 S33 K33
®
CMT Vertical Milling
B07-23
Carbide Shank Toolholders
Tool No. Ordering Code Insert
Type d D2 I L Insert
Screw
Torx
Key
H15 CRC 0810 L35 K
C10
87.3 35 125 S5 K5
H16 CRC 0810 K 88.0 --- 125 S5 K5
H17 CRC 1010 L45 M 10 7.3 45 150 S5 K5
H18 CRC 1012 L40 M
C12,
S17
10 9.0 40 150 S10 K10
H19 CRC 1012 M 10 10.0 --- 150 S10 K10
H20 CRC 1212 L57 P 12 9.0 57 165 S10 K10
H21 CRC 1218 P
C18,
S20
12 12.0 --- 170 S16 K16
H22 CRC 1618 L48 R 16 13.8 48 195 S16 K16
H23 CRC 1618 L74 R 16 13.8 74 195 S16 K16
H24 CRC 1625 R C25 16 17.5 28 205 S27 K27
H25 CRC 2025 L85 S 20 17.5 85 250 S27 K27
H26 CRC 2035 S S35 20 22.0 37 260 S33 K33
Toolholders without Weldon
With internal coolant
®
CMT Vertical Milling
B07-24
CMT Multi Insert Milling Cutters
CMT indexable milling inserts and cutters for
Grooving, Chamfering and Threading
Insert proles are fully ground
Spiral inserts for smooth cutting operation
Three cutting edges on each insert
For a wide range of materials and applications
Carbide grade: MT7
4 - 8 inserts per holder, for high productivity
For use with Carmex standard CMT S35 toolholders
The milling cutters are coated with a special layer (silver color) for high
anti-corrosive resistance and extra protection against cutting burrs
Inserts
Milling cutters / Disc milling cutter
Demonstration
®
CMT Vertical Milling
B07-25
Product Identication - Ordering Codes
S
Spiral CMT
insert
Clamping
method
S= Screw
G
G = Grooving
C = Chamfering
T = Threading
H05 MT7
I16
Groove depth
H05= 0.5 mm Carbide Grade
Insert type
I16= IC3/8"
16
16 = Insert size
IC3/8"
Cutting
Diameter
41= 41 mm
Shank
Diameter
Grooving
W12 = groove width
1.2 mm
H05 = groove depth
Chamfering
H20 = chamfer size
2.0 mm
Threading
partial prole G60/N60
R
R = Right hand
Toolholders
25 41
S
Inserts
RI
®
CMT Vertical Milling
B07-26
DIN 471 / 472
Right hand cutting
Left hand cutting
*Maximum groove depth (T max) according to the toolholder.
Groove Milling
Insert
Type I.C. Ordering Code W RHolder Code*
SI16 3/8"
SG 16 R W14 1.40 0.10
H27, 28, 29
SG 16 R W17 1.70 0.10
SG 16 R W19 1.95 0.15
SG 16 R W22 2.25 0.15
SG 16 R W27 2.75 0.20
SG 16 R W32 3.25 0.20
SG 16 R W42 4.25 0.20
SG 16 R W43 4.35 0.20 H27, 29, 30
Insert
Type I.C. Ordering Code W RHolder Code*
SI16 3/8" SG 16 L W43 4.35 0.20 H30
* For complete toolholder description see pages B07-29 and 30
I.C.
W
R
®
CMT Vertical Milling
B07-27
Groove Milling with Chamfer
Chamfering
Right hand cutting
Right hand cutting
Insert
Type I.C. Ordering Code W H max R α Holder Code*
SI16 3/8"
SG 16 R W12 H05 1.20 0.50
0.10
45°H27, 28, 29
SG 16 R W14 H07 1.40 0.70
SG 16 R W14 H08 1.40 0.85
SG 16 R W17 H08 1.70 0.85
SG 16 R W17 H10 1.70 1.00
SG 16 R W19 H12 1.95 1.25
0.15
SG 16 R W22 H15 2.25 1.50
SG 16 R W27 H15 2.75 1.50
SG 16 R W27 H17 2.75 1.75
SG 16 R W32 H17 3.25 1.75
SG 16 R W42 H20 4.25 2.00
SG 16 R W42 H25 4.25 2.50
Insert
Type I.C. Ordering Code H max W αHolder Code*
SI16 3/8" SC 16 R H20 2.00 0.2 90°H27, 28, 29
SC 16 R H19 1.90 0.5
DIN 471 / 472
* For complete toolholder description see pages B07-29 and 30
I.C.
W
H
α
R
I.C.
W
H
α
®
CMT Vertical Milling
B07-28
Partial Prole 60° - ISO, UN
Right hand cutting
Insert
Type I.C. Ordering Code Pitch Range
mm
Pitch Range
TPI Holder Code*
SI16 3/8"
ST 16 R G60 Int. 1.5-3.0 Int. 16-8
H27, 28, 29
Ex. 1.25-3.0 Ex. 20-8
ST 16 R N60 Int. 3.5-5.0 Int. 7-5
Ex. 3.0-4.5 Ex. 8-6
Same insert for internal and external thread
* For complete toolholder description see pages B07-29 and 30
I.C.
®
CMT Vertical Milling
B07-29
Toolholders
Milling Cutter - Arbor
Tool
No. Ordering Code Insert
Type D d T max B S Insert
Screw
Torx
Key
H27 SRI 41- I16 SI16 41 33.2 3.6 12.5 12.0 S16S K16
Tool
No. Ordering Code Insert
Type D d T max B S D1 Insert
Screw
Torx
Key
H28 SRI 0063-I16 SI16 63 57 3.0 44.5 44.0 22 S16S K16
Right hand cutting
To connect to the standard CMT toolholders S35: SRC 2035 K, SRC 2535 H, SRC 2535 K, CRC 2035 S
Right hand cutting
Milling Cutter - Shell Mill
D
Cutting Diameter
D
Cutting Diameter
T max
S
S
D 1d
B
B
d
T max
®
CMT Vertical Milling
B07-30
Milling Cutter - Weldon Shank
Tool
No. Ordering Code Insert
Type D d T max B S L Insert
Screw
Torx
Key
H29 SRI 2541-I16 SI16 41 25 3.6 12.5 12.0 125 S16S K16
Right hand cutting
Tool
No. Ordering Code Insert
Type D T max B S Insert
Screw
Torx
Key
H30 SRI 55-I16 SI16 55 15.5 8.2 7.2 S16M K16
Right hand cutting
To use only with inserts SG 16 R W43, and SG 16 L W43
To connect to the standard CMT toolholders S35: SRC 2035 K, SRC 2535 H, SRC 2535 K, CRC 2035 S
Milling Cutter - Disc Milling
D
Cutting Diameter
Left Hand Insert Right Hand Insert
D
Cutting Diameter
S
BL
d
T max
T max
S
B
®
Mill-Thread Solid Carbide
B08-1
Contents: Page: Contents: Page:
Thread is generated in one pass.
Spiral utes allow smooth cutting action.
Shorter machining time due to multi, 3 to 6 utes.
2.2 mm and up cutting diameter.
Threads up to shoulder in blind hole.
Longer tool life due to special multi-layer coating.
Same tool can be used for a variety of materials.
Excellent surface nish.
Low cutting pressure allows thin wall machining.
Same tool used for R.H and L.H. threads.
MT - Thread Mills without internal coolant
MTB - Thread Mills with internal coolant bore for blind holes
MTZ - Thread Mills with internal coolant through the utes
MTQ - Thread Mills that include relieved neck for deep work pieces
FMT - Fast Thread Mills with internal coolant bore
AMT - Solid Carbide Thread Mills for Aluminum machining
EMT - Thread Mills For External Threads
Product Identication 2
ISO - without coolant bore - MT 3
with internal coolant bore - MTB 4
with internal coolant through the utes - MTZ 5
with relieved neck and internal coolant bore - MTQ 6
with internal coolant bore - FMT 7
with internal coolant bore - AMT 8
with internal coolant bore and cutting chamfer - AMT 8
UN - without coolant bore - MT 9
with internal coolant bore - MTB 10
with internal coolant through the utes - MTZ 11
with relieved neck and internal coolant bore - MTQ 12
with internal coolant bore - FMT 13
with internal coolant bore - AMT 13
with internal coolant bore and cutting chamfer - AMT 14
G (55˚) - without coolant bore - MT 14
with internal coolant bore - MTB 15
with internal coolant through the utes - MTZ 15
with internal coolant bore - FMT 16
Whitworth - with internal coolant bore - MTB 17
with internal coolant through the utes - MTZ 17
BSPT - without coolant bore - MT 18
with internal coolant bore - MTB 18
with internal coolant through the utes - MTZ 19
NPT - without coolant bore - MT 20
with internal coolant bore - MTB 20
with internal coolant through the utes - MTZ 21
NPTF - without coolant bore - MT 21
with internal coolant bore - MTB 22
with internal coolant through the utes - MTZ 22
Solid Carbide Tapered End Mills 23
NPS - with internal coolant bore - MTB 24
NPSF - with internal coolant bore - MTB 24
MJ - Internal Thread - MTB 25
UNJ - Internal Thread - MTB 25
PG DIN 40430 - with internal coolant bore MTB 26
Mill - Thread Solid Carbide for External Threads EMT 27
ISO 27
UN 27
MJ 28
UNJ 28
Advantages of Mill-Thread Solid Carbide
Mill-Thread Solid Carbide
B08
Demonstration Demonstration
®
Mill-Thread Solid Carbide
B08-2
Shank Diameter
06 = 6 mm
08 = 8 mm
10 = 10 mm
12 = 12 mm
14 = 14 mm
16 = 16 mm
20 = 20 mm
25 = 25 mm
Product Identication
Mill-Thread Solid Carbide Ordering Codes
MT 06 04 14 1.0 ISOC
E = External
F = FMT
A = AMT
Carbide
Grade
MT7
MT8
K20
Mill
Thread
B = With Internal Coolant
Z = Internal Coolant through
the Flutes
Q = Tools for Threading Deep
Holes
The Approximate
Cutting Length
Cutting Diameter
04 = 4 mm
Thread Pitch
No. of
Flutes
C = 3
D = 4
E = 5
F = 6
G = 7
H = 8
Thread
Prole
ISO
UN
W
BSPT
NPT
NPTF
NPS
NPSF
PG
MJ
UNJ
®
Mill-Thread Solid Carbide
B08-3
ISO
Tools for Internal Thread
Pitch
mm
M
coarse
M
ne Ordering Code d D No. of
Flutes I L
0.5 M3 M4 MT 06022 C5 0.5 ISO 6 2.2 3 5.3 58
0.5 M5 MT 06038 C10 0.5 ISO 6 3.8 3 10.3 58
0.5 M6, M8 MT 06053 D10 0.5 ISO 6 5.3 4 10.3 58
0.7 M4 MT 06031 C7 0.7 ISO 6 3.1 3 7.4 58
0.75 M6, M8 MT 06045 C10 0.75 ISO 6 4.5 3 10.1 58
0.75 M6, M8 MT 0605 C13 0.75 ISO 6 5.0 3 13.1 58
0.8 M5 MT 06036 C9 0.8 ISO 6 3.6 3 9.2 58
0.8 M5 MT 0604 C13 0.8 ISO 6 4.0 3 13.2 58
1.0 M6 M8 MT 0604 C10 1.0 ISO 6 4.0 3 10.5 58
1.0 M6 M8 MT 0604 C14 1.0 ISO 6 4.0 3 14.5 58
1.0 M9 MT 0606 C12 1.0 ISO 6 6.0 3 12.5 58
1.0 M10 MT 0808 D16 1.0 ISO 8 8.0 4 16.5 64
1.25 M8 M10 MT 0605 C14 1.25 ISO 6 5.0 3 14.4 58
1.25 M8 M10 MT 0605 C19 1.25 ISO 6 5.0 3 19.4 58
1.5 M10 M12 MT 0807 C17 1.5 ISO 8 7.0 3 17.3 64
1.5 M10 M12 MT 0807 C24 1.5 ISO 8 7.0 3 24.8 76
1.5 M14 MT 1010 D21 1.5 ISO 10 10.0 4 21.8 73
1.5 M14 MT 1212 D29 1.5 ISO 12 12.0 4 29.3 84
1.5 M16, M18 MT 1414 D32 1.5 ISO 14 14.0 4 32.3 84
1.5 M20 MT 1616 F33 1.5 ISO 16 16.0 6 33.8 105
1.75 M12 MT 0808 C20 1.75 ISO 8 8.0 3 20.1 64
1.75 M12 MT 0808 C28 1.75 ISO 8 8.0 3 28.9 76
2.0 M14 M17 MT 1010 C27 2.0 ISO 10 10.0 3 27.0 73
2.0 M14 M17 MT 1010 C39 2.0 ISO 10 10.0 3 39.0 105
2.0 M16 M18, M20 MT 1212 D27 2.0 ISO 12 12.0 4 27.0 84
2.0 M16 M18, M20 MT 14128 D39 2.0 ISO 14 12.8 4 39.0 105
2.0 M26 MT 2020 F41 2.0 ISO 20 20.0 6 41.0 105
2.5 M18, M20 MT 1414 D33 2.5 ISO 14 14.0 4 33.8 84
2.5 M18, M20 MT 1414 D48 2.5 ISO 14 14.0 4 48.8 105
3.0 M24 M28 MT 1616 C40 3.0 ISO 16 16.0 3 40.5 105
3.0 M24 M28 MT 1616 C58 3.0 ISO 16 16.0 3 58.5 120
3.0 M27 M28, M30 MT 2020 D43 3.0 ISO 20 20.0 4 43.5 105
Order example: MT 1212 D27 2.0 ISO MT7
For thread mills with coolant bore see following pages
For small thread mills see pages B09-3, 4, 11, 15, 17 and B11-3, 6
Grade P M K N S H
MT7
First choice Alternative
®
Mill-Thread Solid Carbide
B08-4
For thread mills with coolant through the utes see next page
For small thread mills see pages B09-3, 4, 11, 15, 17 and B11-3, 6
ISO With internal coolant bore
Pitch
mm
M
coarse
M
ne Ordering Code d D No. of
Flutes I L
0.5 M5 MTB 06038 C10 0.5 ISO 6 3.8 3 10.3 58
0.7 M4 MTB 06031 C7 0.7 ISO 6 3.1 3 7.4 58
0.75 M6, M8 MTB 06045 C10 0.75 ISO 6 4.5 3 10.1 58
0.75 M12, M14 MTB 1010 D24 0.75 ISO 10 10.0 4 24.4 73
0.8 M5 MTB 06038 C9 0.8 ISO 6 3.8 3 9.2 58
0.8 M5 MTB 0604 C13 0.8 ISO 6 4.0 3 13.2 58
1.0 M6 MTB 06046 C10 1.0 ISO 6 4.6 3 10.5 58
1.0 M6 MTB 06046 C14 1.0 ISO 6 4.6 3 14.5 58
1.0 M8 MTB 0606 C12 1.0 ISO 6 6.0 3 12.5 58
1.0 M10 MTB 0808 D16 1.0 ISO 8 8.0 4 16.5 64
1.0 M12 MTB 1010 D24 1.0 ISO 10 10.0 4 24.5 73
1.25 M8 M10 MTB 0606 C14 1.25 ISO 6 6.0 3 14.4 58
1.25 M8 M10 MTB 0606 C19 1.25 ISO 6 6.0 3 19.4 58
1.5 M10 M12 MTB 08078 C17 1.5 ISO 8 7.8 3 17.0 64
1.5 M10 M12 MTB 08078 C24 1.5 ISO 8 7.8 3 24.8 76
1.5 M14 MTB 1010 D21 1.5 ISO 10 10.0 4 21.8 73
1.5 M14-M18 MTB 1212 D26 1.5 ISO 12 12.0 4 26.3 84
1.5 M20 MTB 1616 F33 1.5 ISO 16 16.0 6 33.8 105
1.75 M12 MTB 1009 C20 1.75 ISO 10 9.0 3 20.1 73
1.75 M12 MTB 1009 C28 1.75 ISO 10 9.0 3 28.9 73
2.0 M14 M17 MTB 1010 C27 2.0 ISO 10 10.0 3 27.0 73
2.0 M14 M17 MTB 1211 D39 2.0 ISO 12 11.0 4 39.0 105
2.0 M16 M18, M20 MTB 12118 D27 2.0 ISO 12 11.8 4 27.0 84
2.0 M16 M18, M20 MTB 12118 D39 2.0 ISO 12 11.8 4 39.0 105
2.0 M26 MTB 2020 F41 2.0 ISO 20 20.0 6 41.0 105
2.5 M20 MTB 1615 E33 2.5 ISO 16 15.0 5 33.8 105
2.5 M20 MTB 1615 E48 2.5 ISO 16 15.0 5 48.8 105
3.0 M24 M28 MTB 2018 D40 3.0 ISO 20 18.0 4 40.5 105
3.0 M24 M28 MTB 2018 D58 3.0 ISO 20 18.0 4 58.5 120
3.0 M27 M28, M30 MTB 2020 D43 3.0 ISO 20 20.0 4 43.5 105
Order example: MTB 08078 C17 1.5 ISO MT7
Tools for Internal Thread
Grade P M K N S H
MT7 ≤ 47 HRc
First choice Alternative
®
Mill-Thread Solid Carbide
B08-5
For small thread mills see pages B09-3, 4, 11, 15, 17 and B11-3, 6
ISO With internal coolant through the utes
Tools for Internal Thread
Pitch
mm
M
coarse
M
ne Ordering Code d D No. of
Flutes I L
1.0 M6 M8 MTZ 06048 C10 1.0 ISO 6 4.8 3 10.5 58
1.0 M8, M9 MTZ 0606 C12 1.0 ISO 6 6.0 3 12.5 58
1.0 M10 MTZ 0808 D16 1.0 ISO 8 8.0 4 16.5 64
1.25 M8 M10 MTZ 0606 C14 1.25 ISO 6 6.0 3 14.4 58
1.25 M8 M10 MTZ 0606 C19 1.25 ISO 6 6.0 3 19.4 58
1.5 M10 M12 MTZ 08078 C17 1.5 ISO 8 7.8 3 17.0 64
1.5 M10 M12 MTZ 0808 C23 1.5 ISO 8 8.0 3 23.3 64
1.5 M14 MTZ 1010 D21 1.5 ISO 10 10.0 4 21.8 73
1.5 M14, M16 MTZ 1212 D26 1.5 ISO 12 12.0 4 26.3 84
1.5 M16, M18 MTZ 1414 D32 1.5 ISO 14 14.0 4 32.3 101
1.5 M20 MTZ 1616 E33 1.5 ISO 16 16.0 5 33.8 101
1.75 M12 MTZ 1009 C20 1.75 ISO 10 9.0 3 20.1 73
1.75 M12 MTZ 1009 C28 1.75 ISO 10 9.0 3 28.9 73
2.0 M14 M17 MTZ 1010 C27 2.0 ISO 10 10.0 3 27.0 73
2.0 M16 M18, M20 MTZ 12118 D27 2.0 ISO 12 11.8 4 27.0 84
2.5 M20 MTZ 1615 E33 2.5 ISO 16 15.0 5 33.8 101
Order example: MTZ 08078 C17 1.5 ISO MT7
Grade P M K N S H
MT7 ≤ 47 HRc
First choice Alternative
Alternative
®
Mill-Thread Solid Carbide
B08-6
ISO With relieved neck and internal coolant bore
For small thread mills see pages B09-3, 4, 11, 15, 17 and B11-3, 6
Order example: MTQ 1010 D30 1.5 ISO MT7
Pitch
mm
M
ne Ordering Code d D No. of
Flutes l1 I L
1.0 ø ≥ 12 MTQ 1010 D32 1.0 ISO 10 10.0 4 18.0 32.0 73
1.0 ø ≥ 14 MTQ 1212 D38 1.0 ISO 12 12.0 4 21.0 38.0 84
1.0 ø ≥ 18 MTQ 1616 F45 1.0 ISO 16 16.0 6 26.0 45.0 105
1.5 ø ≥ 13 MTQ 1010 D30 1.5 ISO 10 10.0 4 18.0 30.0 73
1.5 ø ≥ 15 MTQ 1212 D34 1.5 ISO 12 12.0 4 19.5 34.5 84
1.5 ø ≥ 19 MTQ 1616 F43 1.5 ISO 16 16.0 6 25.5 43.5 105
1.5 ø ≥ 23 MTQ 2020 F60 1.5 ISO 20 20.0 6 36.0 60.0 105
2.0 ø ≥ 16 MTQ 1212 D42 2.0 ISO 12 12.0 4 24.0 42.0 84
2.0 ø ≥ 20 MTQ 1616 E45 2.0 ISO 16 16.0 5 26.0 45.0 105
2.0 ø ≥ 24 MTQ 2020 F56 2.0 ISO 20 20.0 6 34.0 56.0 105
3.0 ø ≥ 22 MTQ 1616 D45 3.0 ISO 16 16.0 4 30.0 45.0 105
3.0 ø ≥ 26 MTQ 2020 E54 3.0 ISO 20 20.0 5 33.0 54.0 105
3.5 ø ≥ 26 MTQ 2020 D45 3.5 ISO 20 20.0 4 28.0 45.5 105
4.0 ø ≥ 31 MTQ 2525 D64 4.0 ISO 25 25.0 4 40.0 64.0 160
Grade P M K N S H
MT7 ≤ 47 HRc
Tools for Internal Thread
First choice Alternative
®
Mill-Thread Solid Carbide
B08-7
Pitch
mm
M
coarse
M
ne Ordering Code d D Df Flutes I If L
0.5 M3 M3.5 *FMT 06024 D6
0.5 ISO 6 2.4 4.4 4 6.3 7.3 58
0.5 M4,M5 FMT 06033 E8 0.5 ISO 6 3.3 5.3 5 8.3 9.3 58
0.7 M4 FMT 06032 E7 0.7 ISO 6 3.2 4.8 5 7.4 8.2 58
0.75 M6 FMT 0805 F12
0.75 ISO 8 5.0 7.0 6 12.4 13.4 64
0.8 M5 FMT 0604 E9 0.8 ISO 6 4.0 5.7 5 9.2 10.1 58
1.0 M6 M8 FMT 08048 F10
1.0 ISO 8 4.8 6.8 6 10.5 11.5 64
1.0 M10,M12 FMT 12087 G20 1.0 ISO 12 8.7 11.7 7 20.5 22.0 84
1.25 M8 M10 FMT 10064 G14 1.25 ISO 10 6.4 9.6 7 14.4 16.0 73
1.5 M10 M14 FMT 1008 G17 1.5 ISO 10 8.0 9.8 7 17.3 18.2 73
1.75 M12 FMT 12095 G20 1.75 ISO 12 9.5 11.7 7 20.1 21.2 84
2.0 M14, M16 M18 FMT 1411 G29 2.0 ISO 14 11.0 13.4 7 29.0 30.2 83
D
L
A
I
d
lf
Df
Detail A
45˚
ISO
Tools for Internal Thread
Order example: FMT 1008 G17 1.5 ISO MT8
For small thread mills see page B09-17
Grade P M K N S H
MT8 ≤ 52 HRc
* Without internal coolant
Sub Micron grade with advanced PVD triple coating (ISO K10-K20).
Extremely high heat resistance and smooth cutting operation for high performance in
normal and general machining conditions on all materials.
Carbide grade MT8:
A unique line of solid carbide thread milling tools (FMT) for increased
productivity and extended tool life.
Large number of utes results in signicantly shorter machining time.
Fast MT with internal coolant bore
First choice Alternative
Alternative
®
Mill-Thread Solid Carbide
B08-8
ISO With internal coolant bore
ISO With internal coolant bore and cutting chamfer
Thread length: 2xD
Pitch
mm
M
coarse
M
ne Ordering Code d D Df No. of
Flutes I If L
0.8 M5 AMT 0604 C10 0.8 ISO-C 6 4.0 5.3 3 10.8 11.5 58
1.0 M6 AMT 08048 C13 1.0 ISO-C 8 4.8 6.4 3 13.5 14.3 64
1.25 M8 M10 AMT 10064 C16 1.25 ISO-C 10 6.4 8.3 3 16.9 17.9 73
1.5 M10 AMT 1208 C21 1.5 ISO-C 12 8.0 10.4 3 21.8 23.0 84
* Without internal coolant
Tools for Internal Thread
Tools for Internal thread
Thread length: 2xD
Pitch
mm
M
coarse
M
ne Ordering Code d D No. of
Flutes I L
0.5 M3 M4 3 2.4 3 6.8 39
0.5 M5 6 4.3 3 10.8 58
0.7 M4 6 3.1 3 8.8 58
0.75 M6 6 5.0 3 13.1 58
0.8 M5 6 4.0 3 10.8 58
1.0 M6 6 4.8 3 13.5 58
1.0 M10 8 8.0 4 21.5 64
1.25 M8 M10 8 6.4 3 16.9 64
1.5 M10 8 8.0 3 21.8 64
1.5 M14 12 11.2 4 29.3 84
1.75 M12 10 9.5 4 25.4 73
2.0 M16 M17 14 12.6 4 35.0 83
* AMT 03024 C6 0.5 ISO
AMT 06043 C10 0.5 ISO
AMT 06031 C8 0.7 ISO
AMT 0605 C13 0.75 ISO
AMT 0604 C10 0.8 ISO
AMT 06048 C13 1.0 ISO
AMT 0808 D21 1.0 ISO
AMT 08064 C16 1.25 ISO
AMT 0808 C21 1.5 ISO
AMT 12112 D29 1.5 ISO
AMT 10095 D25 1.75 ISO
AMT14126 D35 2.0 ISO
Order example: AMT 08064 C16 1.25 ISO K20
Grade P M K N S H
K20
Grade P M K N S H
K20
Order example: AMT 10064 C16 1.25 ISO-C K20
For information about AMT Thread Mills and cutting data see page B12-16 First choice Alternative
®
Mill-Thread Solid Carbide
B08-9
Tools for Internal Thread
UN
Order example: MT 1615 E37 14 UN MT7
Pitch
TPI UNC UNF UNEF Ordering Code d D No. of
Flutes I L
40 5 MT 06025 C6 40 UN 6 2.5 3 6.0 58
32 8 10 12 MT 06032 C6 32 UN 6 3.2 3 6.8 58
28 1/4 MT 0604 C11 28 UN 6 4.0 3 11.3 58
28 1/4 MT 06052 C15 28 UN 6 5.2 3 15.0 58
28 7/16-1/2 MT 0606 C14 28 UN 6 6.0 3 14.1 58
24 5/16 MT 0605 C14 24 UN 6 5.0 3 14.3 58
24 3/8 9/16-5/8 MT 0807 C21 24 UN 8 7.0 3 20.6 64
20 1/4 MT 06045 C12 20 UN 6 4.5 3 12.1 58
20 7/16-1/2 MT 0807 C21 20 UN 8 7.0 3 21.0 64
20 3/4-1 MT 1212 E27 20 UN 12 12.0 5 27.3 84
18 5/16 MT 0605 C14 18 UN 6 5.0 3 14.8 58
18 5/16 MT 0606 C20 18 UN 6 6.0 3 20.5 58
18 9/16-5/8 1 1/8-1 5/8 MT 1010 D26 18 UN 10 10.0 4 26.1 73
16 3/8 MT 0606 C16 16 UN 6 6.0 3 16.7 58
16 3/8 MT 08074 C24 16 UN 8 7.4 3 24.6 64
16 3/4 MT 1212 D31 16 UN 12 12.0 4 31.0 84
14 7/16 MT 0807 C20 14 UN 8 7.0 3 20.9 64
14 7/16 MT 10085 C28 14 UN 10 8.5 3 28.1 73
14 7/8 MT 1615 E37 14 UN 16 15.0 5 37.2 105
13 1/2 MT 0808 C22 13 UN 8 8.0 3 22.5 64
13 1/2 MT 10098 D32 13 UN 10 9.8 4 32.2 73
12 9/16 MT 1010 C26 12 UN 10 10.0 3 26.5 73
12 9/16 MT 12116 D37 12 UN 12 11.6 4 37.0 84
12 1-1 1/2 MT 1616 E41 12 UN 16 16.0 5 41.3 105
11 5/8 MT 1010 C28 11 UN 10 10.0 3 28.9 73
11 5/8 MT 1212 D38 11 UN 12 12.0 4 38.1 84
10 3/4 MT 1212 C34 10 UN 12 12.0 3 34.3 84
10 3/4 MT 16147 E49 10 UN 16 14.7 5 49.5 105
97/8 MT 1615 C38 9 UN 16 15.0 3 38.1 105
8 1 MT 1616 C42 8 UN 16 16.0 3 42.9 105
71 1/8 - 1 1/4 MT 2020 D45 7 UN 20 20.0 4 45.3 105
For thread mills with coolant bore see following pages
For small thread mills see pages B09-5, 6, 12, 15, 17 and B11-4, 6
Grade P M K N S H
MT7
Alternative
First choice Alternative
®
Mill-Thread Solid Carbide
B08-10
Tools for Internal Thread
UN With internal coolant bore
Pitch
TPI UNC UNF UNEF Ordering Code d D No. of
Flutes I L
32 8 10 12 MTB 06032 C6 32 UN 6 3.2 3 6.8 58
32 5/16 MTB 0606 C14 32 UN 6 6.0 3 14.7 58
32 3/8 MTB 0808 D18 32 UN 8 8.0 4 18.7 64
28 1/4 MTB 0605 C11 28 UN 6 5.0 3 11.3 58
28 1/4 MTB 06052 C15 28 UN 6 5.2 3 15.0 58
28 7/16-1/2 MTB 0606 C14 28 UN 6 6.0 3 14.1 58
24 5/16 MTB 08066 C14 24 UN 8 6.6 3 14.3 64
24 3/8 9/16-5/8 MTB 0808 D21 24 UN 8 8.0 4 20.6 64
20 1/4 MTB 06047 C12 20 UN 6 4.7 3 12.1 58
20 7/16-1/2 MTB 0808 C21 20 UN 8 8.0 3 21.0 64
20 1/2 MTB 1010 D22 20 UN 10 10.0 4 22.3 73
20 3/4-1 MTB 1212 E27 20 UN 12 12.0 5 27.3 84
18 5/16 MTB 06056 C14 18 UN 6 5.6 3 14.8 58
18 5/16 MTB 0606 C20 18 UN 6 6.0 3 20.5 58
18 9/16-5/8 1 1/8-1 5/8 MTB 12113 D26 18 UN 12 11.3 4 26.1 84
16 3/8 MTB 08067 C16 16 UN 8 6.7 3 16.7 64
16 3/8 MTB 08074 C24 16 UN 8 7.4 3 24.6 64
16 3/4 MTB 1212 D31 16 UN 12 12.0 4 31.0 84
14 7/16 MTB 08077 C20 14 UN 8 7.7 3 20.9 64
14 7/16 MTB 10085 C28 14 UN 10 8.5 3 28.1 73
14 7/8 MTB 1616 E37 14 UN 16 16.0 5 37.2 105
13 1/2 MTB 10092 C22 13 UN 10 9.2 3 22.5 73
13 1/2 MTB 10098 D32 13 UN 10 9.8 4 32.2 73
12 9/16 MTB 12105 C26 12 UN 12 10.5 3 26.5 84
12 9/16 MTB 12116 D37 12 UN 12 11.6 4 37.0 84
12 1-1 1/2 MTB 1616 E41 12 UN 16 16.0 5 41.3 105
11 5/8 MTB 12114 C28 11 UN 12 11.4 3 28.9 84
11 5/8 MTB 1212 D38 11 UN 12 12.0 4 38.1 84
10 3/4 MTB 16144 D34 10 UN 16 14.4 4 34.3 105
10 3/4 MTB 16147 E49 10 UN 16 14.7 5 49.5 105
97/8 MTB 1616 C38 9 UN 16 16.0 3 38.1 105
8 1 MTB 20195 D42 8 UN 20 19.5 4 42.9 105
71 1/8 - 1 1/4 MTB 2020 D45 7 UN 20 20.0 4 45.3 105
Order example: MTB 1212 D31 16 UN MT7
For thread mills with coolant through the utes see next page
For small thread mills see pages B09-5, 6, 12, 15, 17 and B11-4, 6
Grade P M K N S H
MT7 ≤ 47 HRc
First choice Alternative
®
Mill-Thread Solid Carbide
B08-11
Tools for Internal Thread
UN With internal coolant through the utes
Pitch
TPI UNC UNF UNEF Ordering Code d D No. of
Flutes I L
28 1/4 MTZ 0605 C11 28 UN 6 5.0 3 11.3 58
28 7/16-1/2 MTZ 0606 C14 28 UN 6 6.0 3 14.1 58
24 5/16 MTZ 08066 C14 24 UN 8 6.6 3 14.3 64
24 3/8 9/16-5/8 MTZ 0808 D21 24 UN 8 8.0 4 20.6 64
20 7/16 MTZ 0808 C21 20 UN 8 8.0 3 21.0 64
20 1/2 MTZ 1010 D22 20 UN 10 10.0 4 22.3 73
20 3/4-1 MTZ 1212 E27 20 UN 12 12.0 5 27.3 84
18 5/16 MTZ 06056 C14 18 UN 6 5.6 3 14.8 58
18 5/16 MTZ 0606 C20 18 UN 6 6.0 3 20.5 58
18 9/16-5/8 1 1/8-1 5/8 MTZ 12113 D26 18 UN 12 11.3 4 26.1 84
16 3/8 MTZ 08067 C16 16 UN 8 6.7 3 16.7 64
16 3/8 MTZ 08074 C24 16 UN 8 7.4 3 24.6 64
16 3/4 MTZ 1212 D31 16 UN 12 12.0 4 31.0 84
14 7/16 MTZ 08077 C20 14 UN 8 7.7 3 20.9 64
14 7/16 MTZ 10085 C28 14 UN 10 8.5 3 28.1 73
14 7/8 MTZ 1616 E37 14 UN 16 16.0 5 37.2 101
13 1/2 MTZ 10092 C22 13 UN 10 9.2 3 22.5 73
13 1/2 MTZ 10098 D32 13 UN 10 9.8 4 32.2 73
12 9/16 MTZ 12105 C26 12 UN 12 10.5 3 26.5 84
12 9/16 MTZ 12116 D37 12 UN 12 11.6 4 37.0 84
12 1-1 1/2 MTZ 1616 E41 12 UN 16 16.0 5 41.3 101
11 5/8 MTZ 12114 C28 11 UN 12 11.4 3 28.9 84
10 3/4 MTZ 16144 D34 10 UN 16 14.4 4 34.3 105
Order example: MTZ 0808 D21 24 UN MT7
For small thread mills see pages B09-5, 6, 12, 15, 17 and B11-4, 6
Grade P M K N S H
MT7 ≤ 47 HRc
Alternative
First choice Alternative
®
Mill-Thread Solid Carbide
B08-12
Tools for Internal Thread
UN With relieved neck and internal coolant bore
For small thread mills see pages B09-5, 6, 12, 15, 17 and B11-4, 6
Order example: MTQ 1212 D35 16 UN MT7
Pitch
TPI Thread
size Ordering Code d D No. of
Flutes I1 I L
20 ø ≥ 12 MTQ 1010 D30 20 UN 10 10.0 4 17.8 30.5 73
20 ø ≥ 14 MTQ 1212 E35 20 UN 12 12.0 5 20.3 35.6 84
20 ø ≥ 18 MTQ 1616 F43 20 UN 16 16.0 6 25.4 43.2 105
18 ø ≥ 15 MTQ 1212 D35 18 UN 12 12.0 4 19.7 35.3 84
16 ø ≥ 15 MTQ 1212 D35 16 UN 12 12.0 4 20.7 35.0 84
16 ø ≥ 19 MTQ 1616 E42 16 UN 16 16.0 5 25.4 42.9 105
16 ø ≥ 23 MTQ 2020 F58 16 UN 20 20.0 6 36.5 58.8 105
14 ø ≥ 20 MTQ 1616 E45 14 UN 16 16.0 5 25.4 45.3 105
12 ø ≥ 16 MTQ 1212 D42 12 UN 12 12.0 4 25.4 42.3 84
12 ø ≥ 24 MTQ 2020 E55 12 UN 20 20.0 5 33.9 55.1 105
Grade P M K N S H
MT7 ≤ 47 HRc
First choice Alternative
®
Mill-Thread Solid Carbide
B08-13
lf
Df
Detail A
45˚
Tools for Internal Thread
Order example: FMT 08048 E12 20 UN MT8
* without internal coolant
Pitch
TPI UNC UNF UNEF Ordering Code d D Df No. of
Flutes I If L
28 1/4 FMT 08052 F11 28 UN 8 5.2 7.0 6 11.3 12.3 64
28 7/16-1/2 FMT 12098 H19 28 UN 12 9.8 11.8 8 19.5 20.5 84
24 5/16 FMT 10066 G14 24 UN 10 6.6 9.6 7 14.3 15.8 73
24 3/8 9/16, 5/8, 11/16 FMT 12082 G17 24 UN 12 8.2 10.6 7 17.5 18.7 84
20 1/4 *FMT 08048 E12 20 UN 8 4.8 6.8 5 12.1 13.1 64
20 7/16 FMT 12092 H21 20 UN 12 9.2 11.4 8 21.0 22.1 84
20 1/2 3/4, 7/8, 1 FMT 14111 H22 20 UN 14 11.1 13.5 8 22.2 23.4 84
18 5/16 FMT 1006 F14 18 UN 10 6.0 8.4 6 14.8 16.0 73
18 9/16, 5/8 1 1/16, 1 1/8 FMT 16125 H26 18 UN 16 12.5 15.0 8 26.1 27.4 105
16 3/8 FMT 10074 F16 16 UN 10 7.4 9.6 6 16.7 17.8 73
16 3/4 FMT 20167 H34 16 UN 20 16.7 19.3 8 34.1 35.4 105
14 7/16 7/8 FMT 12085 F20 14 UN 12 8.5 10.7 6 20.9 22.0 84
13 1/2 FMT 12098 F24 13 UN 12 9.8 11.8 6 24.4 25.4 84
12 9/16 1FMT 16116 F26 12 UN 16 11.6 15.2 6 26.5 28.3 105
11 5/8 FMT 1612 F33 11 UN 16 12.0 15.4 6 33.4 35.1 105
D
L
A
I
d
UN Fast MT
with internal coolant bore
Grade P M K N S H
MT8 ≤ 52 HRc
UN With internal coolant bore
Thread length: 2xD
Pitch
TPI UNC UNF UNEF Ordering Code d D No. of
Flutes I L
32 8 10 12 AMT 06032 C9 32 UN 6 3.2 3 9.1 58
28 1/4 AMT 06052 C14 28 UN 6 5.2 3 14.0 58
24 3/8 9/16-5/8 AMT 0808 D20 24 UN 8 8.0 4 20.6 64
20 1/4 AMT 06048 C14 20 UN 6 4.8 3 14.6 58
20 7/16 AMT 10092 C23 20 UN 10 9.2 3 23.5 73
18 5/16 AMT 0606 C17 18 UN 6 6.0 3 17.6 58
18 9/16-5/8 1 1/8 - 1 5/8 AMT 1212 D30 18 UN 12 12.0 4 30.3 84
16 3/8 AMT 08074 C21 16 UN 8 7.4 3 21.4 64
16 3/4 AMT 1616 E38 16 UN 16 16.0 5 38.9 105
Tools for Internal Thread
Grade P M K N S H
K20
For information about AMT Thread Mills and cutting data see page B12-16 First choice Alternative
Alternative For small thread mills see page B09-17
®
Mill-Thread Solid Carbide
B08-14
Thread length: 2xD
UN With internal coolant bore and cutting chamfer
Tools for Internal Thread
Pitch
TPI UNC UNF UNEF Ordering Code d D Df No. of
Flutes I If L
20 1/4 8 4.8 6.8 3 14.6 15.6 64
18 5/16 10 6.0 8.4 3 17.6 18.8 73
16 3/8 12 7.4 10.0 3 21.4 22.7 84
AMT 08048 C14 20 UN-C
AMT 1006 C17 18 UN-C
AMT 12074 C21 16 UN-C
G (55º) BSF, BSP
Same Tool for Internal and External Thread
Order example: MT 1212 D19 14 W MT7
Order example: AMT 12074 C21 16 UN-C K20
For information about AMT Thread Mills and cutting data see page B12-16
Pitch
TPI Standard Ordering Code d D No. of
Flutes I L
28 G1/16-G1/8 MT 0606 C9 28 W 6 6.0 3 9.5 58
19 G1/4-3/8 MT 0808 C14 19 W 8 8.0 3 14.0 64
14 G1/2-7/8 MT 1212 D19 14 W 12 12.0 4 19.0 84
14 G1/2-7/8 MT 1212 D26 14 W 12 12.0 4 26.3 84
11 G 1 MT 1212 C24 11 W 12 12.0 3 24.2 84
11 G 1 MT 1616 D38 11 W 16 16.0 4 38.1 105
11 G 1 MT 2020 E47 11 W 20 20.0 5 47.3 105
For small thread mills see pages B09-7, B09-14 and B11-5
For thread mills with coolant see next page
Grade P M K N S H
MT7
Grade P M K N S H
K20
First choice Alternative
®
Mill-Thread Solid Carbide
B08-15
G (55º) BSF, BSP With internal coolant bore
Same Tool for Internal and External Thread
Order example: MTB 1010 D16 19 W MT7
Pitch
TPI Standard Ordering Code d D No. of
Flutes I L
28 G1/8 MTB 08078 C14 28 W 8 7.8 3 14.1 64
28 G1/8 MTB 0808 C20 28 W 8 8.0 3 20.4 64
19 G1/4 MTB 1010 D16 19 W 10 10.0 4 16.7 73
19 G1/4 MTB 1211 D27 19 W 12 11.0 4 27.4 84
19 G3/8 MTB 1414 D26 19 W 14 14.0 4 26.1 83
19 G3/8 MTB 1414 D34 19 W 14 14.0 4 34.1 83
14 G1/2-7/8 MTB 1616 E26 14 W 16 16.0 5 26.3 105
11 G 1 MTB 1616 D38 11 W 16 16.0 4 38.1 105
11 G 1 MTB 2020 E47 11 W 20 20.0 5 47.3 105
For small thread mills see pages B09-7, B09-14 and B11-5
Same Tool for Internal and External Thread
G (55º) BSF, BSP With internal coolant through the utes
Order example: MTZ 08078 C14 28 W MT7
Pitch
TPI Standard Ordering Code d D No. of
Flutes I L
28 G1/8 MTZ 08078 C14 28 W 8 7.8 3 14.1 64
19 G1/4-3/8 MTZ 1010 D16 19 W 10 10.0 4 16.7 73
14 G1/2-7/8 MTZ 1616 E26 14 W 16 16.0 5 26.3 101
11 G 1 MTZ 1616 D38 11 W 16 16.0 4 38.1 101
For small thread mills see pages B09-7, B09-14 and B11-5
Grade P M K N S H
MT7 ≤ 47 HRc
Grade P M K N S H
MT7 ≤ 47 HRc
Alternative First choice Alternative
®
Mill-Thread Solid Carbide
B08-16
Pitch
TPI Standard Ordering Code d D No. of
Flutes I L
28 G1/8 FMT 08078 H14 28 W 8 7.8 8 14.1 64
19 G1/4-3/8 FMT 1010 G16 19 W 10 10.0 7 16.7 73
14 G1/2-7/8 FMT 1414 H26 14 W 14 14.0 8 26.3 84
11 G 1 FMT 1616 H38 11 W 16 16.0 8 38.1 105
Order example: FMT 1616 H38 11W MT8
Same Tool for Internal and External Thread
G (55º) Fast MT With internal coolant bore
Grade P M K N S H
MT8 ≤ 52 HRc
D
L
I
d
First choice Alternative
®
Mill-Thread Solid Carbide
B08-17
Order example: MTB 06046 C13 20 W MT7
Whitworth With internal coolant bore
Pitch
TPI BSW BSF Ordering Code d D No. of
Flutes I L
20 1/4 MTB 06046 C13 20 W 6 4.6 3 13.3 58
20 3/8 MTB 08076 D19 20 W 8 7.6 4 19.7 64
18 5/16 MTB 06056 C16 18 W 6 5.6 3 16.2 58
18 7/16 MTB 10088 D23 18 W 10 8.8 4 23.3 73
16 3/8 MTB 0807 D19 16 W 8 7.0 4 19.8 64
16 1/2-9/16 MTB 1010 E26 16 W 10 10.0 5 26.1 73
14 7/16 MTB 0808 D22 14 W 8 8.0 4 22.7 64
14 5/8-11/16 MTB 14128 E31 14 W 14 12.8 5 31.8 83
12 1/2-9/16 3/4-13/16 MTB 1009 D26 12 W 10 9.0 4 26.5 73
11 5/8 7/8 MTB 12118 E33 11 W 12 11.8 5 33.5 84
10 3/4 1MTB 1414 E39 10 W 14 14.0 5 39.4 105
97/8 1 1/8 MTB 1616 E43 9 W 16 16.0 5 43.7 105
Grade P M K N S H
MT7 ≤ 47 HRc
Same Tool for Internal and External Thread
Whitworth With internal coolant through the utes
Order example: MTZ 08068 C16 16 W MT7
* Cutter without coolant
Pitch
TPI BSW BSF Ordering Code d D No. of
Flutes I L
20 1/4 3/8 * MTZ 06046 C12 20 W 6 4.6 3 12.1 58
18 5/16 7/16 MTZ 06053 C14 18 W 6 5.3 3 14.8 58
16 3/8 MTZ 08068 C16 16 W 8 6.8 3 16.7 64
16 1/2-9/16 MTZ 10092 D24 16 W 10 9.2 4 24.6 73
14 7/16 5/8-11/16 MTZ 08078 D20 14 W 8 7.8 4 20.9 64
12 1/2 3/4-13/16 MTZ 10086 D24 12 W 10 8.6 4 24.4 73
11 5/8 7/8 MTZ 12109 D28 11 W 12 10.9 4 28.9 84
Grade P M K N S H
MT7 ≤ 47 HRc
First choice Alternative
Alternative
Same Tool for Internal and External Thread
®
Mill-Thread Solid Carbide
B08-18
Same Tool for Internal and External Thread
BSPT With internal coolant bore
Order example: MTB 08078 C14 28 BSPT MT7
Pitch
TPI Standard Ordering Code d D No. of
Flutes I L
28 RC1/8 MTB 08078 C14 28 BSPT 8 7.8 3 14.1 64
19 RC1/4-3/8 MTB 1010 D16 19 BSPT 10 10.0 4 16.7 73
14 RC1/2-7/8 MTB 1616 E26 14 BSPT 16 16.0 5 26.3 105
11 RC1-2 MTB 1616 D28 11 BSPT 16 16.0 4 28.9 105
Grade P M K N S H
MT7 ≤ 47 HRc
Same Tool for Internal and External Thread
BSPT
For conical preparation end mills see page B08-23
Order example: MT 1616 D28 11 BSPT MT7
For thread mills with coolant through the utes see next page
Pitch
TPI Standard Ordering Code d D No. of
Flutes I L
28 RC1/16-1/8 MT 0606 C9 28 BSPT 6 6.0 3 9.5 58
19 RC1/4-3/8 MT 0808 C14 19 BSPT 8 8.0 3 14.0 64
14 RC1/2-7/8 MT 1212 D19 14 BSPT 12 12.0 4 19.1 84
11 RC1-2 MT 1616 D28 11 BSPT 16 16.0 4 28.9 105
Grade P M K N S H
MT7
First choice Alternative
®
Mill-Thread Solid Carbide
B08-19
Same Tool for Internal and External Thread
BSPT With internal coolant through the utes
Order example: MTZ 1010 D16 19 BSPT MT7
For conical preparation end mills see page B08-23
Pitch
TPI Standard Ordering Code d D No. of
Flutes I L
28 RC1/8 MTZ 08078 C14 28 BSPT 8 7.8 3 14.1 64
19 RC1/4-3/8 MTZ 1010 D16 19 BSPT 10 10.0 4 16.7 73
14 RC1/2-7/8 MTZ 1616 E26 14 BSPT 16 16.0 5 26.3 101
11 RC1-2 MTZ 1616 D28 11 BSPT 16 16.0 4 28.9 101
Grade P M K N S H
MT7 ≤ 47 HRc
Alternative
First choice Alternative
®
Mill-Thread Solid Carbide
B08-20
Same Tool for Internal and External Thread
Same Tool for Internal and External Thread
NPT
NPT With internal coolant bore
Pitch
TPI Standard Ordering Code d D No. of
Flutes I L
27 1/8 MTB 08076 C10 27 NPT 8 7.6 3 10.8 64
18 1/4-3/8 MTB 1010 D16 18 NPT 10 10.0 4 16.2 73
14 1/2-3/4 MTB 16155 D22 14 NPT 16 15.5 4 22.7 105
11.5 1-2 MTB 2020 D29 11.5 NPT 20 20.0 4 29.8 105
8≥2 1/2 MTB 2020 D39 8 NPT 20 20.0 4 39.7 105
Pitch
TPI Standard Ordering Code d D No. of
Flutes I L
27 1/16-1/8 MT 0606 C9 27 NPT 6 6.0 3 9.9 58
18 1/4-3/8 MT 0808 C14 18 NPT 8 8.0 3 14.8 64
14 1/2-3/4 MT 1212 D20 14 NPT 12 12.0 4 20.9 84
11.5 1-2 MT 1616 D27 11.5 NPT 16 16.0 4 27.6 105
8≥2 1/2 MT 2020 D39 8 NPT 20 20.0 4 39.7 105
Order example: MT 0808 C14 18 NPT MT7
Order example: MTB 1010 D16 18 NPT MT7
For thread mills with coolant through the utes see next page
For conical preparation end mills see page B08-23
Grade P M K N S H
MT7 ≤ 47 HRc
Grade P M K N S H
MT7
First choice Alternative
®
Mill-Thread Solid Carbide
B08-21
Same Tool for Internal and External Thread
Same Tool for Internal and External Thread
NPT With internal coolant through the utes
Pitch
TPI Standard Ordering Code d D No. of
Flutes I L
27 1/8 MTZ 08076 C10 27 NPT 8 7.6 3 10.8 64
18 1/4-3/8 MTZ 1010 D16 18 NPT 10 10.0 4 16.2 73
14 1/2-3/4 MTZ 16155 D22 14 NPT 16 15.5 4 22.7 101
Order example: MTZ 08076 C10 27 NPT MT7
Order example: MT 1212 D20 14 NPTF MT7
For thread mills with coolant bore see next page
For conical preparation end mills see page B08-23
NPTF
Pitch
TPI Standard Ordering Code d D No. of
Flutes I L
27 1/16-1/8 MT 0606 C9 27 NPTF 6 6.0 3 9.9 58
18 1/4-3/8 MT 0808 C14 18 NPTF 8 8.0 3 14.8 64
14 1/2-3/4 MT 1212 D20 14 NPTF 12 12.0 4 20.9 84
11.5 1-2 MT 1616 D27 11.5
NPTF 16 16.0 4 27.6 105
8≥2 1/2 MT 2020 D39 8 NPTF 20 20.0 4 39.7 105
Grade P M K N S H
MT7 ≤ 47 HRc
Grade P M K N S H
MT7
Alternative First choice Alternative
®
Mill-Thread Solid Carbide
B08-22
Same Tool for Internal and External Thread
Same Tool for Internal and External Thread
NPTF With internal coolant bore
NPTF With internal coolant through the utes
Pitch
TPI Standard Ordering Code d D No. of
Flutes I L
27 1/8 MTB 08076 C10 27 NPTF 8 7.6 3 10.8 64
18 1/4-3/8 MTB 1010 D16 18 NPTF 10 10.0 4 16.2 73
14 1/2-3/4 MTB 16155 D22 14 NPTF 16 15.5 4 22.7 105
11.5 1-2 MTB 2020 D29 11.5 NPTF 20 20.0 4 29.8 105
82 1/2 MTB 2020 D39 8
NPTF 20 20.0 4 39.7 105
Pitch
TPI Standard Ordering Code d D No. of
Flutes I L
27 1/8 MTZ 08076 C10 27 NPTF 8 7.6 3 10.8 64
18 1/4-3/8 MTZ 1010 D16 18 NPTF 10 10.0 4 16.2 73
14 1/2-3/4 MTZ 16155 D22 14 NPTF 16 15.5 4 22.7 101
Order example: MTB 16155 D22 14 NPTF MT7
Order example: MTZ 1010 D16 18 NPTF MT7
For conical preparation end mills see page B08-23
Grade P M K N S H
MT7 ≤ 47 HRc
Grade P M K N S H
MT7 ≤ 47 HRc
First choice Alternative
®
Mill-Thread Solid Carbide
B08-23
Solid Carbide Tapered End Mills
Ordering Code d D I L No. of
Flutes Size
SC0652D12 6 5.2 12 58 4
NPT 1/16” - 1/8”
NPTF 1/16” - 1/8”
BSPT 1/16” - 1/8”
SC1085D24 10 8.5 24 73 4
NPT 1/4” - 1”
NPTF 1/4” - 1”
BSPT 1/4” - 1”
SC1210D32 12 10 32 84 4
NPT 1/4” - 3”
NPTF 1/4” - 3”
BSPT 1/4” - 3”
Order example: SC 1085 D24 MT7
Carbide grade: MT7
External Preparation Internal Preparation
Solid carbide tapered end mills are used for milling preparation of
conical threads before the thread milling operation.
Advantages
Increases the tool life of mill thread cutters and indexable inserts.
Equal and uniform load along the cutting edge of the mill thread
cutter.
Shorter machining time during the mill thread operation, due to
the tapered preparation.
Same tool for internal and external preparation.
*
*
*
*
Advantages:
Alternative
®
Mill-Thread Solid Carbide
B08-24
Same Tool for Internal and External Thread - Inch Shank
NPS With internal coolant bore
Pitch
TPI Standard Ordering Code d
inch DNo. of
Flutes I L
27 1/8 MTB 0312 C04 27 NPS 5/16 7.6 3 10.8 63
18 1/4-3/8 MTB 0375 D06 18 NPS 3/8 9.5 4 16.2 76
14 1/2-3/4 MTB 0625 D08 14 NPS 5/8 15.5 4 22.7 101
11.5 1-2 MTB 0750 D11 11.5 NPS 3/4 19.0 4 29.8 101
Order example: MTB 0375 D06 18 NPS MT7
Same Tool for Internal and External Thread - Inch Shank
Pitch
TPI Standard Ordering Code d
inch DNo. of
Flutes I L
27 1/8 MTB 0312 C04 27 NPSF 5/16 7.6 3 10.8 63
18 1/4-3/8 MTB 0375 D06 18 NPSF 3/8 9.5 4 16.2 76
14 1/2-3/4 MTB 0625 D08 14 NPSF 5/8 15.5 4 22.7 101
11.5 1-2 MTB 0750 D11 11.5 NPSF 3/4 19.0 4 29.8 101
Order example: MTB 0312 C04 27 NPSF MT7
NPSF With internal coolant bore
Grade P M K N S H
MT7 ≤ 47 HRc
Grade P M K N S H
MT7 ≤ 47 HRc
First choice Alternative
®
Mill-Thread Solid Carbide
B08-25
Order example: MTB 06048 D12 1.0 MJ MT7
Order example: MTB 0606 C16 18 UNJ MT7
MJ With internal coolant bore
Tools for internal thread
UNJ With internal coolant bore
Tools for internal thread
Pitch
mm Thread Ordering Code d D No. of
Flutes I L
0.7 MJ4 MTB 06032 C8 0.7 MJ 6 3.2 3 8.1 58
0.8 MJ5 MTB 0604 C10 0.8 MJ 6 4.0 3 10.0 58
1.0 MJ6 MTB 06048 D12 1.0 MJ 6 4.8 4 12.5 58
1.25 MJ8 MTB 08064 D15 1.25 MJ 8 6.4 4 15.6 64
1.5 MJ10 MTB 0808 D20 1.5 MJ 8 8.0 4 20.3 64
1.75 MJ12 MTB 10095 D23 1.75 MJ 10 9.5 4 23.6 73
Pitch
TPI UNJC UNJF Ordering Code d D No. of
Flutes I L
28 1/4 MTB 06052 D13 28 UNJ 6 5.2 4 13.2 58
24 5/16 MTB 08066 D16 24 UNJ 8 6.6 4 16.4 64
24 3/8 MTB 10082 D19 24 UNJ 10 8.2 4 19.6 73
20 1/4 MTB 06048 C13 20 UNJ 6 4.8 3 13.3 58
20 7/16-1/2 MTB 10092 D22 20 UNJ 10 9.2 4 22.2 73
18 5/16 MTB 0606 C16 18 UNJ 6 6.0 3 16.2 58
16 3/8 MTB 08074 D19 16 UNJ 8 7.4 4 19.9 64
14 7/16 MTB 10085 D22 14 UNJ 10 8.5 4 22.7 73
13 1/2 MTB 10098 D26 13 UNJ 10 9.8 4 26.4 73
12 9/16 MTB 12116 D28 12 UNJ 12 11.6 4 28.6 84
Grade P M K N S H
MT7 ≤ 47 HRc
Grade P M K N S H
MT7 ≤ 47 HRc
Alternative First choice Alternative
®
Mill-Thread Solid Carbide
B08-26
Same Tool for Internal and External Thread
PG DIN 40430 - With internal coolant bore
Pitch
TPI Standard Ordering Code d D No. of
Flutes I L
20 Pg 7 MTB 1010 D19 20 PG 10 10.0 4 19.7 73
18 Pg 9, 11, 13.5, 16 MTB 1212 D20 18 PG 12 12.0 4 20.5 84
16 Pg 21, 29, 36, 42, 48 MTB 1212 D23 16 PG 12 12.0 4 23.0 84
Order example: MTB 1212 D20 18 PG MT7
Grade P M K N S H
MT7 ≤ 47 HRc
First choice Alternative
®
Mill-Thread Solid Carbide
B08-27
ISO
UN
Pitch
mm Ordering Code d D No. of
Flutes I L
1.0 EMT 1010 D16 1.0 ISO 10 10.0 4 16.5 73
1.0 EMT 1212 E20 1.0 ISO 12 12.0 5 20.5 84
1.25 EMT 1010 D16 1.25 ISO 10 10.0 4 16.9 73
1.5 EMT 1010 D15 1.5 ISO 10 10.0 4 15.8 73
1.5 EMT 1212 D20 1.5 ISO 12 12.0 4 20.3 84
1.75 EMT 1212 D20 1.75 ISO 12 12.0 4 20.1 84
2.0 EMT 1010 C17 2.0 ISO 10 10.0 3 17.0 73
2.0 EMT 1212 D21 2.0 ISO 12 12.0 4 21.0 84
Pitch
TPI Ordering Code d D No. of
Flutes I L
24 EMT 1010 D16 24 UN 10 10.0 4 16.4 73
20 EMT 1212 E21 20 UN 12 12.0 5 21.0 84
18 EMT 1212 D20 18 UN 12 12.0 4 20.5 84
16 EMT 1212 D21 16 UN 12 12.0 4 21.4 84
14 EMT 1212 D20 14 UN 12 12.0 4 20.9 84
12 EMT 1212 D20 12 UN 12 12.0 4 20.1 84
Order example: EMT 1010 D15 1.5 ISO MT7
Order example: EMT 1212 D20 18 UN MT7
Grade P M K N S H
MT7 ≤ 47 HRc
Grade P M K N S H
MT7 ≤ 47 HRc
Mill - Thread Solid Carbide for
External Threads
Advantages:
Excellent surface nish thanks to the spiral utes
Short machining time due to multi 3 to 5 utes
Alternative
First choice Alternative
®
Mill-Thread Solid Carbide
B08-28
Pitch
mm Ordering Code d D No. of
Flutes I L
1.0 EMT 1010 D20 1.0 MJ 10 10.0 4 20.5 72
1.0 EMT 1212 E24 1.0 MJ 12 12.0 5 24.5 83
1.25 EMT 1010 D19 1.25 MJ 10 10.0 4 19.4 72
1.5 EMT 1010 D21 1.5 MJ 10 10.0 4 21.8 72
1.5 EMT 1212 D26 1.5 MJ 12 12.0 4 26.3 83
1.75 EMT 1212 D27 1.75 MJ 12 12.0 4 27.1 83
2.0 EMT 1010 C21 2.0 MJ 10 10.0 3 21.0 72
2.0 EMT 1212 D27 2.0 MJ 12 12.0 4 27.0 83
MJ
Grade P M K N S H
MT7 ≤ 47 HRc
UNJ UNJC, UNJF, UNJEF, UNJS
Pitch
TPI Ordering Code d D No. of
Flutes I L
32 EMT 0606 C13 32 UNJ 6 6.0 3 13.9 57
28 EMT 0808 D17 28 UNJ 8 8.0 4 17.7 63
24 EMT 1010 D20 24 UNJ 10 10.0 4 20.6 72
20 EMT 1212 E27 20 UNJ 12 12.0 5 27.3 83
18 EMT 1212 D26 18 UNJ 12 12.0 4 26.1 83
16 EMT 1212 D26 16 UNJ 12 12.0 4 26.2 83
14 EMT 1212 D26 14 UNJ 12 12.0 4 26.3 83
12 EMT 1212 D26 12 UNJ 12 12.0 4 26.5 83
For cutting data information see page B12-12
Grade P M K N S H
MT7 ≤ 47 HRc
Order example: EMT 0808 D17 28 UNJ MT7
Order example: EMT 1010 C21 2.0 MJ MT7
First choice Alternative
®
Mini Mill-Thread
B09-1
Contents: Page: Contents: Page:
Threading from ISO M1 x 0.25 and 0-80UN.
Working in high cutting speed.
Short machining time.
Low cutting forces thanks to the short prole.
No broken taps.
Machining of hardened materials up to 45 HRc.
MTS
MTI - For threading deep parts
Advantages
Enables machining in deep holes.
Same tool can produce a wide range of threads
and pitches.
Same tool can produce both External and Internal
threads.
Coolant through the utes is very eective for
deep holes.
Spiral utes allow smooth cutting action.
Shorter machining time due to multi (3 to 5) utes.
Longer tool life due to special triple coating.
Product Identication 2
MTS 3-8
ISO 3-4
UN 5-6
G (55˚) BSW, BSP 7
MJ 8
UNJ 8
MTS Dental 9
ISO 9
UN 9
MTSB 10-12
ISO 11
UN 12
MTI 12-16
Partial Prole 60˚ 13
Partial Prole 60˚ with internal coolant 13
Partial Prole 55˚ 14
ISO 15
UN 15
Trapez-DIN 103 16
Acme 16
FMTI Multi Flute 17
ISO 17
UN 17
B09
Mini Mill-Thread
MTSB
Solid carbide thread mills with internal coolant
bore and increased number of utes for high
performance, shorter cycle time and improved
tool life.
FMTI
Thread mills with a large number of utes
that enables to achieve signicant shorter
machining time, increased productivity and high
performance.
®
Mini Mill-Thread
B09-2
Product Identication
Mini Mill-Thread MTS Ordering Codes
MTS 031 C
Mini Mill
Thread
Cutting Diameter
031 = 3.10 mm
12
The Approximate
Cutting Length
B = with internal
coolant
ISO
Thread Prole
ISO
UN
G55˚
UNJ
MJ
W
- L = Long
- L = 105 mm Grade
MT7
Grade
MT8
MT11
MT6
MTI
MTI = Thread Mills
F = FMTI
05
Cutting Diameter
05 = 5 mm
10 = 10 mm
20
Approximate
Cutting Length
20 = 20 mm
A60
Thread Prole
Partial Prole 60˚
Partial Prole 55˚
ISO
UN
ACME
TRAPEZ
06
Shank Diameter
03 = 3 mm
06 = 6 mm
08 = 8 mm
10 = 10 mm
12 = 12 mm
16 = 16 mm
Mini Mill-Thread MTI and FMTI Ordering Codes
No. of Flutes
C = 3
D = 4
E = 5
D
No. of Flutes
C = 3
D = 4
E = 5
Shank Diameter
03 = 3 mm
06 = 6 mm
08 = 8 mm
10 = 10 mm
12 = 12 mm
16 = 16 mm
06
®
Mini Mill-Thread
B09-3
ISO
Tools for Internal Thread
Pitch
mm
M
Coarse
M
Fine Ordering Code d D No. of
Flutes I L Thread
depth
0.25 M1, M1.1 MTS 03007 C2 0.25 ISO 3 0.72 3 2.5 39 2.5xD1
0.25 M1.2 M1.4 MTS 03009 C3 0.25 ISO 3 0.90 3 3.0 39 2xD1
0.3 M1.4 MTS 03011 C4 0.3 ISO 3 1.05 3 4.0 39 3xD1
0.35 M1.6,M1.8 M2, M2.5 MTS 03012 C5 0.35 ISO 3 1.20 3 4.8 39 3xD1
0.35 M1.6,M1.8 M2, M2.5 MTS 06012 C5 0.35 ISO-L 6 1.20 3 4.8 105 3xD1
0.35 M5, M6 MTS 06045 D14 0.35 ISO 6 4.50 4 14.5 58 3xD1
0.4 M2 MTS 06016 C4 0.4 ISO 6 1.53 3 4.5 58 2xD1
0.4 M2 MTS 06016 C4 0.4 ISO-L 6 1.53 3 4.5 105 2xD1
0.4 M2 MTS 03016 C6 0.4 ISO 3 1.53 3 6.0 39 3xD1
0.4 M2 MTS 03016 C10 0.4 ISO 3 1.53 3 10.4 39 5xD1
0.45 M2.2 MTS 06017 C5 0.45 ISO 6 1.65 3 5.0 58 2xD1
0.45 M2.2 MTS 03017 C7 0.45 ISO 3 1.65 3 7.0 39 3xD1
0.45 M2.5 MTS 0602 C5 0.45 ISO 6 1.95 3 5.5 58 2xD1
0.45 M2.5 MTS 0602 C5 0.45 ISO-L 6 1.95 3 5.5 105 2xD1
0.45 M2.5 MTS 0602 C7 0.45 ISO 6 1.95 3 7.5 58 3xD1
0.45 M2.5 MTS 0602 C8 0.45 ISO-L 6 1.95 3 8.0 105 3xD1
0.45 M2.5 MTS 0302 C10 0.45 ISO 3 1.95 3 10.5 39 4xD1
0.5 M3 MTS 06024 C6 0.5 ISO 6 2.37 3 6.5 58 2xD1
0.5 M3 MTS 06024 C6 0.5 ISO-L 6 2.37 3 6.5 105 2xD1
0.5 M3 MTS 06024 C9 0.5 ISO 6 2.37 3 9.5 58 3xD1
0.5 M3 MTS 06024 C9 0.5 ISO-L 6 2.37 3 9.5 105 3xD1
0.5 M3 MTS 03024 C12 0.5 ISO 3 2.40 3 12.5 39 4xD1
0.5 M3 MTS 03024 C15 0.5 ISO 3 2.40 3 15.5 39 5xD1
0.5 M4, M5 MTS 06034 D8 0.5 ISO 6 3.40 4 8.5 58 2xD1
0.5 M4, M5 MTS 06034 D12 0.5 ISO 6 3.40 4 12.5 58 3xD1
0.5 M6, M7 MTS 06054 D20 0.5 ISO 6 5.35 4 20.0 58 3xD1
0.6 M3.5 MTS 06028 C7 0.6 ISO 6 2.75 3 7.5 58 2xD1
0.6 M3.5 MTS 06028 C10 0.6 ISO 6 2.75 3 10.5 58 3xD1
0.7 M4 MTS 06031 C9 0.7 ISO 6 3.10 3 9.0 58 2xD1
0.7 M4 MTS 06031 C12 0.7 ISO 6 3.10 3 12.5 58 3xD1
0.7 M4 MTS 06031 C12 0.7 ISO-L 6 3.10 3 12.5 105 3xD1
0.7 M4 MTS 06031 C16 0.7 ISO 6 3.10 3 16.7 58 4xD1
Grade P M K N S H
MT7 ≤ 45 HRc
First choice Alternative
MTS
Carbide grade: MT7
Sub-Micron grade with Titanium Aluminum Nitride multi-layer coating (ISO K10 - K20).
To be run at medium to high cutting speeds. General purpose for all materials.
Demonstration
®
Mini Mill-Thread
B09-4
Order example: MTS 06047 C14 1.0 ISO MT7
ISO
Tools for Internal Thread
Pitch
mm
M
Coarse
M
Fine Ordering Code d D No. of
Flutes I L Thread
depth
0.75 M4.5 M5 MTS 06034 C9 0.75 ISO 6 3.40 3 9.8 58 2xD1
0.75 M6 MTS 06049 D12 0.75 ISO 6 4.90 4 12.8 58 2xD1
0.75 M10, M12 MTS 0808 D25 0.75 ISO 8 8.00 4 25.0 64 2.5xD1
0.8 M5 MTS 06038 C12 0.8 ISO 6 3.80 3 12.5 58 2xD1
0.8 M5 MTS 06038 C16 0.8 ISO 6 3.80 3 16.0 58 3xD1
0.8 M5 MTS 06038 C16 0.8 ISO-L 6 3.80 3 16.0 105 3xD1
0.8 M5 MTS 0604 C20 0.8 ISO 6 4.00 3 20.8 58 4xD1
1.0 M6 M8 MTS 06047 C14 1.0 ISO 6 4.65 3 14.0 58 2xD1
1.0 M6 M8 MTS 06047 C20 1.0 ISO 6 4.65 3 20.0 58 3xD1
1.0 M6 M8 MTS 06047 C20 1.0 ISO-L 6 4.65 3 20.0 105 3xD1
1.0 M6 M8 MTS 06048 C25 1.0 ISO 6 4.80 3 25.0 58 4xD1
1.0 M10, M12 MTS 0808 D31 1.0 ISO 8 8.00 4 31.0 64 3xD1
1.25 M8 M10, M12 MTS 0606 C18 1.25 ISO 6 6.00 3 18.0 58 2xD1
1.25 M8 M10, M12 MTS 0606 C24 1.25 ISO 6 6.00 3 24.0 58 3xD1
1.25 M8 M10, M12 MTS 0606 C24 1.25 ISO-L 6 6.00 3 24.0 105 3xD1
1.25 M8 M10, M12 MTS 08064 C33 1.25 ISO 8 6.40 3 33.5 64 4xD1
1.5 M10 M14, M16 MTS 08078 C23 1.5 ISO 8 7.80 3 23.0 64 2xD1
1.5 M10 M14, M16 MTS 08078 C31 1.5 ISO 8 7.80 3 31.5 64 3xD1
1.5 M10 M14, M16 MTS 08078 C31 1.5 ISO-L 8 7.80 3 31.5 105 3xD1
1.5 M10 M14, M16 MTS 0808 C41 1.5 ISO 8 8.00 3 41.5 76 4xD1
1.75 M12 MTS 1009 C26 1.75 ISO 10 9.00 3 26.0 73 2Xd1
1.75 M12 MTS 1009 C37 1.75 ISO 10 9.00 3 37.8 73 3xD1
2.0 M14 M17 MTS 1010 D30 2.0 ISO 10 10.00 4 30.0 73 2xD1
2.0 M16 M18, M20 MTS 12118 D35 2.0 ISO 12 11.80 4 35.0 84 2xD1
2.0 M16 M18, M20 MTS 12118 D50 2.0 ISO 12 11.80 4 50.0 105 3xD1
2.5 M20 MTS 1615 E43 2.5 ISO 16 15.00 5 43.0 105 2xD1
Grade P M K N S H
MT7 ≤ 45 HRc
First choice Alternative
®
Mini Mill-Thread
B09-5
UN
Tools for Internal Thread
Order example: MTS 06021C6 40 UN MT7
Pitch
TPI UNC UNF Ordering Code d D No. of
Flutes I L Thread
depth
80 0 MTS 06012 C4 80 UN 6 1.15 3 4.0 58 3XD1
80 0 MTS 03012 C8 80 UN 3 1.15 3 8.0 39 5XD1
72 1 MTS 06014 C3 72 UN 6 1.45 3 3.7 58 2XD1
72 1 MTS 03015 C6 72 UN 3 1.45 3 6.0 39 3xD1
64 1 2 MTS 06014 C3 64 UN 6 1.40 3 3.8 58 2xD1
56 2 3 MTS 03016 C4 56 UN 3 1.65 3 4.4 39 2xD1
56 2 3 MTS 06016 C4 56 UN 6 1.65 3 4.4 58 2xD1
56 2 3 MTS 03016 C6 56 UN 3 1.65 3 6.6 39 3xD1
56 2 3 MTS 06016 C6 56 UN 6 1.65 3 6.6 58 3xD1
56 2 3 MTS 06016 C6 56 UN-L 6 1.65 3 6.6 105 3xD1
56 2 3 MTS 03016 C9 56 UN 3 1.65 3 9.2 39 4xD1
56 2 3 MTS 03016 C11 56 UN 3 1.65 3 11.4 39 5xD1
48 3 4 MTS 06019 C5 48 UN 6 1.90 3 5.2 58 2xD1
40 4 MTS 06021 C6 40 UN 6 2.10 3 6.3 58 2xD1
40 4 MTS 06021 C6 40 UN-L 6 2.10 3 6.3 105 2xD1
40 4 MTS 03021 C8 40 UN 3 2.10 3 8.0 39 3xD1
40 4 MTS 06021 C8 40 UN 6 2.10 3 8.0 58 3xD1
40 4 MTS 06021 C8 40 UN-L 6 2.10 3 8.0 105 3xD1
40 4 MTS 03021 C12 40 UN 3 2.10 3 12.0 39 4xD1
40 5 6 MTS 06024 C7 40 UN 6 2.45 3 7.0 58 2xD1
40 5 6 MTS 06024 C9 40 UN 6 2.45 3 9.6 58 3xD1
36 8 MTS 06033 C9 36 UN 6 3.30 3 9.0 58 2xD1
32 6 MTS 06025 C7 32 UN 6 2.55 3 7.1 58 2xD1
32 6 MTS 06025 C7 32 UN-L 6 2.55 3 7.1 105 2xD1
32 6 MTS 03025 C10 32 UN 3 2.55 3 10.5 39 3xD1
32 6 MTS 06025 C10 32 UN 6 2.55 3 10.5 58 3xD1
32 6 MTS 06025 C10 32 UN-L 6 2.55 3 10.5 105 3xD1
32 6 MTS 03025 C14 32 UN 3 2.55 3 14.8 39 4xD1
32 8 MTS 06032 C9 32 UN 6 3.20 3 9.5 58 2xD1
32 8 MTS 06032 C9 32 UN-L 6 3.20 3 9.5 105 2xD1
32 8 MTS 06032 C12 32 UN 6 3.20 3 12.5 58 3xD1
32 8 MTS 06032 C12 32 UN-L 6 3.20 3 12.5 105 3xD1
32 8 MTS 06032 C17 32 UN 6 3.20 3 17.5 58 4xD1
32 10 MTS 06037 C10 32 UN 6 3.70 3 10.5 58 2xD1
32 10 MTS 06037 C15 32 UN 6 3.70 3 15.0 58 3xD1
32 10 MTS 06037 C15 32 UN-L 6 3.70 3 15.0 105 3xD1
32 10 MTS 06037 C20 32 UN 6 3.70 3 20.0 58 4xD1
28 12 MTS 06042 C11 28 UN 6 4.20 3 11.0 58 2xD1
Grade P M K N S H
MT7 ≤ 45 HRc
Alternative
First choice Alternative
®
Mini Mill-Thread
B09-6
UN
Tools for Internal Thread
Order example: MTS 0605C19 28 UN MT7
Pitch
TPI UNC UNF Ordering Code d D No. of
Flutes I L Thread
depth
28 1/4 MTS 0605 C14 28 UN 6 5.00 3 14.5 58 2xD1
28 1/4 MTS 0605 C19 28 UN 6 5.00 3 19.0 58 3xD1
28 1/4 MTS 0605 C19 28 UN-L 6 5.00 3 19.0 105 3xD1
24 10,12 MTS 06035 C10 24 UN 6 3.50 3 10.6 58 2xD1
24 10,12 MTS 06035 C15 24 UN 6 3.50 3 15.5 58 3xD1
24 10,12 MTS 06035 C15 24 UN-L 6 3.50 3 15.5 105 3xD1
24 5/16, 3/8 MTS 08066 C17 24 UN 8 6.60 3 17.0 64 2xD1
24 5/16, 3/8 MTS 08066 C24 24 UN 8 6.60 3 24.0 64 3xD1
20 1/4 MTS 06047 C14 20 UN 6 4.75 3 14.0 58 2xD1
20 1/4 MTS 06047 C14 20 UN-L 6 4.75 3 14.0 105 2xD1
20 1/4 MTS 06047 C19 20 UN 6 4.75 3 19.0 58 3xD1
20 1/4 MTS 06047 C19 20 UN-L 6 4.75 3 19.0 105 3xD1
20 7/16 MTS 0808 C25 20 UN 8 8.00 3 25.0 64 2xD1
20 7/16 MTS 0808 C34 20 UN 8 8.00 3 34.6 64 3xD1
18 5/16 MTS 0606 C17 18 UN 6 6.00 3 17.0 58 2xD1
18 5/16 MTS 0606 C23 18 UN 6 6.00 3 23.0 58 3xD1
18 5/8 MTS 1212 D35 18 UN 12 12.00 4 35.0 84 2xD1
18 5/8 MTS 1212 D49 18 UN 12 12.00 4 49.0 105 3xD1
16 3/8 MTS 08067 C22 16 UN 8 6.70 3 22.0 64 2xD1
16 3/8 MTS 08067 C30 16 UN 8 6.70 3 30.2 64 3xD1
14 7/16 MTS 08077 C25 14 UN 8 7.70 3 25.0 64 2xD1
14 7/16 MTS 08077 C35 14 UN 8 7.70 3 35.2 64 3xD1
13 1/2 MTS 10092 C27 13 UN 10 9.20 3 27.5 73 2xD1
13 1/2 MTS 10092 C40 13 UN 10 9.20 3 40.1 73 3xD1
12 9/16 MTS 12105 C31 12 UN 12 10.50 3 31.5 84 2xD1
12 9/16 MTS 12105 C45 12 UN 12 10.50 3 45.0 105 3xD1
11 5/8 MTS 12114 C34 11 UN 12 11.40 3 34.5 84 2xD1
11 5/8 MTS 12114 C50 11 UN 12 11.40 3 50.0 105 3xD1
10 3/4 MTS 16144 D41 10 UN 16 14.40 4 41.5 105 2xD1
10 3/4 MTS 16144 D59 10 UN 16 14.40 4 59.7 105 3xD1
Grade P M K N S H
MT7 ≤ 45 HRc
Order example: MTS 06035 C10 24 UN MT7 First choice Alternative
®
Mini Mill-Thread
B09-7
G (55˚) BSW, BSP
Same Tool for Internal and External Thread
Pitch
TPI Standard Ordering Code d D No. of
Flutes I L Thread
depth
28 G 1/8 MTS 08078 C19 28 W 8 7.8 3 19.5 64 2xD1
19 G 1/4 - 3/8 MTS 1010 D30 19 W 10 10.0 4 30.0 73 2xD1
14 G 1/2 - 7/8 MTS 1212 D37 14 W 12 12.0 4 37.0 84 2xD1
11 G ≥ 1 MTS 1616 D44 11 W 16 16.0 4 44.0 105 2xD1
Grade P M K N S H
MT7 ≤ 45 HRc
Order example: MTS 1212 D37 14 W MT7
Alternative
First choice Alternative
®
Mini Mill-Thread
B09-8
UNJ With internal coolant through the utes
Tools for Internal Thread
Pitch
TPI UNJC UNJF Ordering Code d D No. of
Flutes I L Thread
depth
32 6 *MTS 06025 C7 32 UNJ 6 2.55 3 7.1 58 2.5xD1
32 8 10 *MTS 06033 C10 32 UNJ 6 3.30 3 10.5 58 2.5xD1
28 1/4 MTS 08051 C16 28 UNJ 8 5.10 3 16.0 64 2.5xD1
24 5/16, 3/8 MTS 08067 C20 24 UNJ 8 6.70 3 20.0 64 2.5xD1
20 1/4 *MTS 06049 C16 20 UNJ 6 4.90 3 16.0 58 2.5xD1
20 7/16 MTS 0808 C28 20 UNJ 8 8.00 3 28.0 64 2.5xD1
18 5/16 9/16 MTS 08061 C20 18 UNJ 8 6.15 3 20.0 64 2.5xD1
16 3/8 MTS 08069 C24 16 UNJ 8 6.90 3 24.0 64 2.5xD1
14 7/16 MTS 08079 C25 14 UNJ 8 7.90 3 25.0 64 2.5xD1
13 1/2 MTS 10094 C27 13 UNJ 10 9.40 3 27.5 73 2.5xD1
* Cutters without coolant
Order example: MTS 06049 C16 20 UNJ MT8
Grade P M K N S H
MT8 ≤ 52 HRc
First choice Alternative
MJ With internal coolant through the utes
Tools for Internal Thread
Pitch
TPI D1 Ordering Code d D No. of
Flutes I L Thread
depth
0.5 MJ3 *MTS 03024 C7 0.5 MJ 3 2.40 3 7.5 38 2.5xD1
0.7 MJ4 *MTS 06032 C10 0.7 MJ 6 3.20 3 10.0 58 2.5xD1
0.8 MJ5 *MTS 06039 C12 0.8 MJ 6 3.90 3 12.5 58 2.5xD1
1.0 MJ6 *MTS 06048 C15 1.0 MJ 6 4.80 3 15.0 58 2.5xD1
1.25 MJ8 MTS 08061 C20 1.25 MJ 8 6.10 3 20.0 64 2.5xD1
1.5 MJ10 MTS 0808 C25 1.5 MJ 8 8.00 3 25.5 64 2.5xD1
1.75 MJ12 MTS 10092 C30 1.75 MJ 10 9.20 3 30.0 73 2.5xD1
2.0 MJ14, MJ16 MTS 1010 C35 2.0 MJ 10 10.00 3 35.0 73 2.5xD1
* Cutters without coolant
Order example: MTS 06048 C15 1.0 MJ MT8
Grade P M K N S H
MT8 ≤ 52 HRc
Sub Micron grade with advanced PVD triple coating (ISO K10-K20).
Extremely high heat resistance and smooth cutting operation for high
performance in normal and general machining conditions on all materials.
Carbide grade:
MT8
®
Mini Mill-Thread
B09-9
Pitch
TPI UNJC UNJF Ordering Code d D No. of
Flutes I L Thread
depth
32 6 *MTS 06025 C7 32 UNJ 6 2.55 3 7.1 58 2.5xD1
32 8 10 *MTS 06033 C10 32 UNJ 6 3.30 3 10.5 58 2.5xD1
28 1/4 MTS 08051 C16 28 UNJ 8 5.10 3 16.0 64 2.5xD1
24 5/16, 3/8 MTS 08067 C20 24 UNJ 8 6.70 3 20.0 64 2.5xD1
20 1/4 *MTS 06049 C16 20 UNJ 6 4.90 3 16.0 58 2.5xD1
20 7/16 MTS 0808 C28 20 UNJ 8 8.00 3 28.0 64 2.5xD1
18 5/16 9/16 MTS 08061 C20 18 UNJ 8 6.15 3 20.0 64 2.5xD1
16 3/8 MTS 08069 C24 16 UNJ 8 6.90 3 24.0 64 2.5xD1
14 7/16 MTS 08079 C25 14 UNJ 8 7.90 3 25.0 64 2.5xD1
13 1/2 MTS 10094 C27 13 UNJ 10 9.40 3 27.5 73 2.5xD1
Alternative
ISO
UN
Order example: MTS 03012 C3 80 UN-N5 MT11
Order example: MTS 03011 C4 0.3 ISO-N7 MT11
Pitch
mm
M
Coarse Ordering Code d D D1 No. of
Flutes I N L
0.25 M1.2 MTS 03009 C3 0.25 ISO-N4 3 0.90 1.25 3 3.0 4.7 39
0.3 M1.4 MTS 03011 C4 0.3 ISO-N7 3 1.05 1.40 3 4.0 7.2 39
0.35 M1.6,M1.8 MTS 03012 C5 0.35 ISO-N8 3 1.20 1.40 3 4.8 8.6 39
0.4 M2 MTS 03016 C4 0.4 ISO-N8 3 1.53 1.90 3 4.6 8.6 39
Pitch
TPI UNF Ordering Code d D D1 No. of
Flutes I N L
80 0 MTS 03012 C3 80 UN-N5 3 1.15 1.35 3 3.1 5.6 39
72 1 MTS 03015 C4 72 UN-N5 3 1.45 1.65 3 3.7 5.9 39
72 1 MTS 03015 C4 72 UN-N10 3 1.45 1.65 3 3.7 10.0 39
72 1 MTS 03015 C4 72 UN-N15 3 1.45 1.65 3 3.7 15.0 39
Grade P M K N S H
MT11 ≤ 62 HRc
Grade P M K N S H
MT11 ≤ 62 HRc
Tools for Internal Thread
Tools for Internal Thread
First choice Alternative
MTS Dental
Thread Mills for the Dental Implants Industry
Specially designed geometry with long overhang providing improved machining and
very high thread accuracy along with extended tool life.
Carbide grade:
MT11 Ultra-ne Sub-micron grade with advanced PVD triple blue coating.
®
Mini Mill-Thread
B09-10
An innovative solid carbide thread mills with internal coolant bore and increased
number of utes.
The coolant bore provides high coolant pressure through the tool into the application
pre-hole and washes the chips away during the threading cycle.
The coolant liquid also cools the tool cutting edge very efciently.
MTSB type
Small and deep threads.
Thread milling operations on horizontal machining centers, where chips are
concentrated at the bottom of the thread and external coolant can’t wash the chips
away.
Complicated applications where external coolant is inefcient or can’t reach the
machined area.
Case where the tool collet is close to the application pre-hole and blocks the
external coolant.
Increased number of utes for high performance, shorter cycle time and improved
tool life.
Working at high machining parameters (increasing productivity).
Advanced PVD triple coating.
Threads size: M1.2 up to M8
0-80 up to 12-24UNC
Can also be used in any other thread milling operation (blind or through hole) that
requires improved performance with high thread quality.
Our MT7 sub-micron grade with it’s advanced PVD triple coating provides extremely
high heat resistance along with smooth cutting action, delivering high performance under
normal machining conditions.
Excellent solution for:
Features:
Carbide grade: MT7
Demonstration
®
Mini Mill-Thread
B09-11
Increased number of utes for high performance, shorter cycle time and improved
tool life.
Working at high machining parameters (increasing productivity).
Advanced PVD triple coating.
Threads size: M1.2 up to M8
0-80 up to 12-24UNC
Order example: MTSB 1212 E50 2.0 ISO MT7
ISO
Tools for Internal Thread
Pitch
mm
M
Coarse
M
Fine Ordering Code d D No. of
Flutes I L Thread
Depth Version
0.25 M1.2 M1.4 MTSB 06009 C2 0.25 ISO 6 0.90 3 2.7 58 2xD1 A
0.3 M1.4 MTSB 06011 C4 0.3 ISO 6 1.05 3 4.5 58 3xD1 A
0.35 M1.6 M2 MTSB 06012 C5 0.35 ISO 6 1.20 3 5.2 58 3xD1 A
0.4 M2 MTSB 06016 C4 0.4 ISO 6 1.55 3 4.4 58 2xD1 A
0.4 M2 MTSB 06016 C6 0.4 ISO 6 1.55 3 6.4 58 3xD1 A
0.45 M2.5 MTSB 0602 D5 0.45 ISO 6 1.95 4 5.5 58 2xD1 A
0.45 M2.5 MTSB 0602 D7 0.45 ISO 6 1.95 4 7.9 58 3xD1 A
0.5 M3 MTSB 06024 D6 0.5 ISO 6 2.40 4 6.5 58 2xD1 A
0.5 M3 MTSB 06024 D9 0.5 ISO 6 2.40 4 9.5 58 3xD1 A
0.6 M3.5 MTSB 06028 D7 0.6 ISO 6 2.80 4 7.6 58 2xD1 A
0.7 M4 MTSB 06032 D8 0.7 ISO 6 3.20 4 8.7 58 2xD1 B
0.7 M4 MTSB 06032 D12 0.7 ISO 6 3.20 4 12.7 58 3xD1 B
0.8 M5 MTSB 06038 D10 0.8 ISO 6 3.80 4 10.8 58 2xD1 B
0.8 M5 MTSB 06038 D15 0.8 ISO 6 3.80 4 15.8 58 3xD1 B
1.0 M6 M8 MTSB 08048 D13 1.0 ISO 8 4.80 4 13.0 64 2xD1 B
1.0 M6 M8 MTSB 08048 D19 1.0 ISO 8 4.80 4 19.0 64 3xD1 B
1.25 M8 M10 MTSB 0606 D25 1.25 ISO 10 6.00 4 25.3 58 3xD1 C
1.5 M10 MTSB 0808 E31 1.5 ISO 8 8.00 5 31.5 64 3xD1 C
1.75 M12 MTSB 10095 E37 1.75 ISO 10 9.50 5 37.8 73 3xD1 C
2.0 M16 M17 MTSB 1212 E50 2.0 ISO 12 12.00 5 50.0 105 3xD1 C
Grade P M K N S H
MT7 ≤ 45 HRc
MTSB
Version B
One coolant hole
Version C
One coolant hole
passing through
Version A
Two coolant holes
First choice Alternative
With Internal Coolant
and Multi Flute
®
Mini Mill-Thread
B09-12
For Threading Deep Parts
UN
Tools for Internal Thread
Pitch
TPI UNC UNF Ordering Code d D No. of
Flutes I L Thread
Depth Version
80 0 MTSB 06012 C4 80 UN 6 1.15 3 4.9 58 3XD1 A
72 1 MTSB 06014 C5 72 UN 6 1.45 3 5.9 58 3xD1 A
56 2 3 MTSB 06016 C4 56 UN 6 1.65 3 4.8 58 2xD1 A
56 2 3 MTSB 06016 C7 56 UN 6 1.65 3 7.0 58 3xD1 A
48 3 4 MTSB 06019 D5 48 UN 6 1.90 4 5.6 58 2xD1 A
40 4 MTSB 06021 D6 40 UN 6 2.10 4 6.3 58 2xD1 A
40 4 MTSB 06021 D9 40 UN 6 2.10 4 9.2 58 3xD1 A
40 4 MTSB 06021 D12 40 UN 6 2.10 4 12.0 58 4xD1 A
40 5 6 MTSB 06024 D7 40 UN 6 2.45 4 7.0 58 2xD1 A
32 6 MTSB 06025 D7 32 UN 6 2.55 4 7.8 58 2xD1 A
32 6 MTSB 06025 D11 32 UN 6 2.55 4 11.3 58 3xD1 A
32 8 MTSB 06032 D9 32 UN 6 3.20 4 9.1 58 2xD1 B
32 8 MTSB 06032 D13 32 UN 6 3.20 4 13.3 58 3xD1 B
32 10 MTSB 06037 D10 32 UN 6 3.70 4 10.5 58 2xD1 B
32 10 MTSB 06037 D15 32 UN 6 3.70 4 15.3 58 3xD1 B
28 1/4 MTSB 06052 D20 28 UN6 5.20 4 20.0 58 3xD1 C
24 10,12 MTSB 06035 D10 24 UN 6 3.50 4 10.7 58 2xD1 B
24 10,12 MTSB 06035 D15 24 UN 6 3.50 4 15.5 58 3xD1 B
24 5/16, 3/8 MTSB 08066 D24 24 UN 8 6.60 4 24.9 64 3xD1 C
20 7/16,1/2 MTSB 10092 E34 20 UN 10 9.20 5 34.6 73 3xD1 C
Grade P M K N S H
MT7 ≤ 45 HRc
Order example: MTSB 06032 D13 32 UN MT7 First choice Alternative
MTI
Low cutting forces thanks to the short prole
Carbide grade:
MT11 Ultra-ne Sub-Micron grade with advanced PVD triple blue coating.
Sub-Micron grade with advanced PVD triple coating (ISO K10-K20).
Extremely high heat resistance and smooth cutting operation for high
performance in normal and general machining conditions on all materials.
MT8
Demonstration
®
Mini Mill-Thread
B09-13
Partial Prole 60˚
For threading deep parts
Pitch
mm
Pitch
TPI
Thread
Dia. (mm) Ordering Code d D No. of
Flutes I L
Int. 0.5 - 0.8
Ex. 0.4 - 0.8
56-28
64-32
ø≥ 6 MTI 0605 D20 A60 6 5.0 4 20 58
ø≥ 9 MTI 0808 D28 A60 8 8.0 4 28 64
ø≥13 MTI 1212 E38 A60 12 12.0 5 38 84
Int. 1.0 - 1.75
Ex. 0.8 - 1.5
28-14
32-16
ø≥10 MTI 0808 D30 A60 8 8.0 4 30 64
ø≥12 MTI 1010 D35 A60 10 10.0 4 35 73
ø≥14 MTI 1212 E39 A60 12 12.0 5 39 84
Int. 2.0 - 3.0
Ex. 1.75-2.5
13- 8
15-10
ø≥16 MTI 1212 E40 A60 12 12.0 5 40 84
ø≥18 MTI 1614 E45 A60 16 14.0 5 45 101
ø≥20 MTI 1616 E50 A60 16 16.0 5 50 101
With internal coolant
through the utes
Same Tool for Internal
and External Thread
Order example: MTI 0808 D28 A60 MT8
Partial Prole 60˚
Same Tool for Internal
and External Thread
Pitch
mm
Pitch
TPI
M
Coarse
M
Fine
UN, UNC, UNS
UNF, UNEF Ordering Code d
mm DNo. of
Flutes I L
0.25-0.35 100-72 M1.6 x 0.35
M1.6 x 0.25
M1.8 x 0.25
M2 x 0.25
0-80 UNF MTI 03012 C3 A60 3 1.15 3 3.1 39
0.35-0.45 72-56 M2 x 0.4
M2.2 x 0.45
M2 x 0.35
M2.2 x 0.35
1-64 UNC, 1-72 UNF,
2-56 UNC, 2-64 UNF MTI 03014 C4 A60 3 1.40 3 3.7 39
0.35-0.5 72-48
M4.5 x 0.35
M5 x 0.35
M5.5 x 0.35
M6.0 x 0.35
M5 x 0.5
M6 x 0.5
10-56 UNS, 10-48 UNS,
12-56 UNS, 12-48 UNS MTI 0604 C15 A60 6 4.00 3 15.0 58
0.35-0.6 72-40 M2.5 x 0.45 M2.5 x 0.35
M3 x 0.35
3-48 UNC, 3-56 UNF,
4-40 UNC, 4-48 UNF MTI 03019 C5 A60 3 1.90 3 5.2 39
0.5-0.8 48-32 M3 x 0.5
M3.5 x 0.6 M3.5 x 0.5 5-40 UNC, 5-44 UNF,
6-32 UNC, 6-40 UNF MTI 03024 C7 A60 3 2.45 3 7.0 39
0.5-1.0 48-24 M4 x 0.7
M4.5 x 0.75 M4 x 0.5
8-32 UNC, 8-36 UNF,
10-24 UNC, 10-28 UNS,
10-32 UNF MTI 06032 C9 A60 6 3.20 3 9.5 58
0.5-1.0 48-24 M5 x 0.8
M6 x 1.0
M5 x 0.5
M5.5 x 0.5
M5 x 0.75
10-36 UNS, 10-40 UNS,
10-48 UNS, 12-24 UNC,
12-28 UNF MTI 0604 C12 A60 6 4.00 3 12.5 58
Order example: MTI 03024 C7 A60 MT11
Grade P M K N S H
MT8 ≤ 52 HRc
Grade P M K N S H
MT11 ≤ 62 HRc
First choice Alternative
Alternative
MTI
®
Mini Mill-Thread
B09-14
Partial Prole 55˚
Same Tool for Internal and External Thread
Pitch
TPI Ordering Code d D No. of
Flutes I L
40-32 MTI 03023 C7 A55 3 2.25 3 7.0 39
28-20 MTI 06044 C14 A55 6 4.35 3 14.0 58
28-18 MTI 06059 C20 A55 6 5.85 3 20.5 58
20-14 MTI 0807 C23 A55 8 7.00 3 23.0 64
Grade P M K N S H
MT11 ≤ 62 HRc
First choice Alternative
Order example: MTI 03023 C7 A55 MT11
®
Mini Mill-Thread
B09-15
Alternative
ISO
Pitch
mm
M
Coarse
M
Fine Ordering Code d D No. of
Flutes I L Thread
depth
0.25 M1 MTI 03007 C3 0.25 ISO 3 0.72 3 3.6 39 3.5xD1
0.25 M1.2 M1.4
M1.6 MTI 03009 C4 0.25 ISO 3 3 3.5xD10.90 4.3 39
0.3 M1.4 MTI 03011 C5 0.3 ISO 3 1.05 3 5.0 39 3.5xD1
0.35 M2
M2.2 MTI 03012 C6 0.35 ISO 3 3.5xD1M1.6 1.20 3 5.7 39
0.4 M2 MTI 03016 C7 0.4 ISO 3 1.55 3 7.1 39 3.5xD1
0.45 M2.5 MTI 0302 C8 0.45 ISO 3 1.95 3 8.8 39 3.5xD1
M3.5
M4 MTI 03024 C10 0.5 ISO 3 2.37 10.6 3.5xD10.5 M3 3 39
0.7 M4 MTI 04032 D14 0.7 ISO 4 3.20 4 14.0 50 3.5xD1
Tools for Internal Thread
Order example: MTI 03012 C6 0.35 ISO MT11
Grade P M K N S H
MT11 ≤ 62 HRc
UN
Tools for Internal Thread
Order example: MTI 03016 C9 56 UN MT11
Pitch
TPI UNC UNF Ordering Code d D No. of
Flutes I L Thread
depth
80 0 MTI 03012 C5 80 UN 3 1.15 3 5.5 39 3.5xD1
72 1 MTI 03015 C7 72 UN 3 1.45 3 6.6 39 3.5xD1
56 2 3 MTI 03016 C9 56 UN 3 1.65 3 8.9 39 3.5xD1
40 4 MTI 03021 C10 40 UN 3 2.10 3 10.1 39 3.5xD1
Grade P M K N S H
MT11 ≤ 62 HRc
First choice Alternative
®
Mini Mill-Thread
B09-16
Acme
Tools for Internal Thread
Inch Shank
Pitch
TPI Thread size Ordering Code d D No. of
Flutes I L Thread
Depth
16 1/4-16 MTI 0250 C04 16 ACME 1/4 4.3 3 9.7 64 1.5xD1
14 5/16-14 MTI 0250 C06 14 ACME 1/4 5.2 3 15.2 64 2xD1
12 3/8-12
7/16-12 MTI 0250 C08 12 ACME 1/4 6.1 3 19.1 64 2xD1
10 1/2-10 MTI 0375 D10 10 ACME 3/8 8.3 4 25.4 76 2xD1
85/8-8 MTI 0500 D11 8 ACME 1/2 10.4 4 27.9 89 1.5xD1
63/4-6
7/8-6 MTI 0500 D12 6 ACME 1/2 12.0 4 30.5 89 1.5xD1
5
1-5
1 1/8-5
1 1/4-5 MTI 0625 E15 5 ACME 5/8 15.9 5 38.1 102 1.5xD1
Order example: MTI 0375 D10 10 ACME MT8
Trapez-DIN 103
Tools for Internal Thread
Order example: MTI 08066 C21 2TR MT8
Pitch
mm Thread size Ordering Code d D No. of
Flutes l L Thread
Depth
1.5 Tr8x1.5
Tr9x1.5 MTI 06055 C13 1.5 TR 6 5.5 3 13.5 58 2xD1
2Tr10x2
Tr11x2 MTI 08066 C21 2 TR 8 6.6 3 21.0 64 2xD1
2Tr12x2
Tr14x2 MTI 10086 D25 2 TR 10 8.6 4 25.0 73 2xD1
3 Tr12x3 MTI 0807 C25 3 TR 8 7.0 3 25.0 64 2xD1
3Tr14x3
Tr22x3 MTI 10089 D29 3 TR 10 8.9 4 29.0 73 2xD1
4
Tr16x4
Tr18x4
Tr20x4
MTI 10092 C33 4 TR 10 9.2 3 33.0 73 2xD1
5
Tr22x5
Tr24x5
Tr26x5
MTI 14135 D45 5 TR 14 13.5 4 45.0 105 2xD1
Grade P M K N S H
MT8 ≤ 52 HRc
Grade P M K N S H
MT8 ≤ 52 HRc
First choice Alternative
®
Mini Mill-Thread
B09-17
ISO
Tools for Internal Thread
Pitch
mm M Coarse M
Fine Ordering Code d D No. of
Flutes I L Thread
Depth
0.35 M1.6, M1.8 M2 FMTI 03012 E3 0.35 ISO 3 1.20 5 3.6 38 2xD1
0.4 M2 FMTI 03016 F4 0.4 ISO 3 1.55 6 4.4 38 2xD1
0.45 M2.5 FMTI 0302 F5 0.45 ISO 3 1.95 6 5.5 38 2xD1
0.5 M3 M4, M5 FMTI 03024 F6 0.5 ISO 3 2.40 6 6.5 38 2xD1
0.7 M4 FMTI 04032 F8 0.7 ISO 4 3.20 6 8.7 50 2xD1
0.8 M5 FMTI 0404 G10 0.8 ISO 4 4.00 7 10.8 50 2xD1
1.0 M6 M8 FMTI 06048 G13 1.0 ISO 6 4.80 7 13.0 57 2xD1
Grade P M K N S H
MT6 ≤ 58 HRc
UN
Tools for Internal Thread
Pitch
TPI UNC UNF Ordering Code d D No. of
Flutes I L Thread
Depth
72 1 FMTI 03015 E4 72 UN 3 1.45 5 4.1 38 2xD1
56 2 3 FMTI 03017 F4 56 UN 3 1.65 6 4.8 38 2xD1
40 4 FMTI 03021 F6 40 UN 3 2.10 6 6.3 38 2xD1
32 10 FMTI 04038 F10 32 UN 4 3.80 6 10.5 50 2xD1
28 1/4 FMTI 06052 G13 28 UN 6 5.20 7 13.6 57 2xD1
Grade P M K N S H
MT6 ≤ 58 HRc
Order example: FMTI 03024 F6 0.5 ISO MT6
Order example: FMTI 03017 F4 56 UN MT6
FMTI Multi Flute
First choice AlternativeAlternative
Carmex has designed a unique line of solid carbide thread milling tools FMTI for
increased productivity and high performance.
Large number of utes enables to achieve signicant shorter machining time.
Carbide grade:
MT6
Ultra-Fine carbide grade with high hardness and toughness provides an excellent
solution for machining steels, stainless steels, and super alloys Ni or Ti base.
With a universal PVD multi-layer coating, provides high heat and wear resistance.
®
Mini Mill-Thread
B09-18
®
Multi-Function Thread Mills
B10-1
DMT, DMTH Introduction 2
Advantages 2
Product Identication 2
DMT 3-5
ISO 3
UN 4
G (BSP) 5
NPT 5
DMTH 6-7
ISO 6
UN 6
Case Studies 7
MT Drill - MTD 8-9
Advantages 8
Product Identication 8
ISO 9
UNC 9
UNF 9
High Performance tools with internal coolant supply for the production of internal
threads.
Produces the thread hole, the thread and a chamfer
in one work process.
Contents: Contents:
Multi - Function Thread Mills
3 in 1 Operations
B10
Page:Page:
®
Multi-Function Thread Mills
B10-2
Product Identication
DMT 3 in 1 - *Drill, Thread, Chamfer Ordering Codes
DMT
D HMT 08 078 23 1.5 ISO MT11D
Drill Steels,
Hardened
Materials,
Stainless
Steels,
Super
Alloys
Mill-Thread Cutting Diameter
04 = 4 mm
The Approximate
Cutting Length
Thread
Pitch
- D =
Coolant
Version D
Grade
MT7
MT11
No. of Flutes
C = 3
D = 4
E = 5
Thread Prole
ISO
UN
W
NPT
Shank Diameter
06 = 6 mm
08 = 8 mm
10 = 10 mm
12 = 12 mm
* Circular movement
DMT and DMTH
Carbide grade: MT7 Sub-micron grade with Titanium Aluminum Nitride multi-layer coating (ISO K10-K20).
Contents: Page:
Cancels the need for drilling the hole.
Short cycle time and high performance reduces
machining costs.
Suitable for blind and through holes.
Full Prole thread.
No time lost for tool change, since drilling,
chamfering and thread milling are done with
one tool.
Same tool for right-hand or left-hand threads.
Cuts a wide range of materials.
Advantages
High Performance tools with internal coolant supply for the production of internal threads.
Circular movement produces the thread hole, the thread and a chamfer in one work process.
DMTH
Carbide grade: MT11 Ultra-ne Sub-micron grade with advanced PVD triple Blue coating (for DMTH).
The DMTH tools expand the range of the existing DMT line providing the ability to cut steels,
hardened materials, stainless steels and super alloys.
Advance Carbide grade dedicated for hardened materials
Triple blue coating for high wear and heat resistance
®
Multi-Function Thread Mills
B10-3
ISO
Tools for Internal Thread
Pitch
mm
M
Coarse
M
Fine Ordering Code d D No. of
Flutes I W V L Thread
depth
0.5 M3 M3.5,M4 *DMT 06024 C7 0.5 ISO-D 6 2.40 3 7.2 0.2 0.5 58 2xD1
0.7 M4 *DMT 06032 C11 0.7 ISO-D 6 3.15 3 11.6 0.2 0.7 58 2.5xD1
0.8 M5 *DMT 0604 C14 0.8 ISO-D 6 4.00 3 14.4 0.3 0.8 58 2.5xD1
1.0 M6, M7 M8,M9 DMT 08047 C14 1.0 ISO 8 4.70 3 14.0 0.4 1.0 64 2xD1
1.0 M6, M7 M8,M9 DMT 08047 C20 1.0 ISO 8 4.70 3 20.4 0.4 1.0 64 3xD1
1.25 M8,M9 M10,M12 DMT 08061 D18 1.25 ISO 8 6.10 4 18.0 0.5 1.25 64 2xD1
1.25 M8,M9 M10,M12 DMT 08061 D27 1.25 ISO 8 6.10 4 27.0 0.5 1.25 64 3xD1
1.5 M10 M13-M15 DMT 08078 D23 1.5 ISO 8 7.80 4 23.0 0.6 1.5 64 2xD1
1.75 M12 DMT 1009 D26 1.75 ISO 10 9.00 4 26.0 0.6 1.75 73 2xD1
2.0 M16 M17-M23 DMT 12118 D35 2.0 ISO 12 11.80 4 35.0 0.6 2.0 84 2xD1
Order example: DMT 08047 C14 1.0 ISO MT7
* Tools version-D
Left hand cutting
For CNC code use M04
With internal coolant bore
Grade P M K N S H
MT7
DMT
45°
P
WV
A
D
I
L
d
VERSION - D
A
D
I
L
d
D1
Demonstration
First choice Alternative
®
Multi-Function Thread Mills
B10-4
For thread depth up to 2 x D1
Pitch
TPI
UN, UNEF, UNF
UNC, UNS Ordering Code d D No. of
Flutes I W V L Thread
length
40 4, 5, 6 *DMT 06021 C7 40 UN-D 6 2.10 3 7.0 0.1 0.6 58 2xD1
36 8 *DMT 06033 C12 36 UN-D 6 3.30 3 12.0 0.2 0.7 58 2.5xD1
32 6 *DMT 06026 C8 32 UN-D 6 2.60 3 8.7 0.2 0.8 58 2xD1
32 8 *DMT 06032 C12 32 UN-D 6 3.20 3 12.3 0.3 0.8 58 2.5xD1
32 10 *DMT 06038 C14 32 UN-D 6 3.80 3 14.0 0.3 0.8 58 2.5xD1
28 1/4-3/8 DMT 0805 C14 28 UN 8 5.00 3 14.5 0.4 0.9 64 2xD1
24 10,12 *DMT 06035 C12 24 UN-D 6 3.50 3 12.1 0.3 1.05 58 2xD1
24 5/16-1/2 DMT 08065 D17 24 UN 8 6.50 4 17.0 0.5 1.05 64 2xD1
20 1/4-3/8 DMT 08048 C14 20 UN 8 4.80 3 14.0 0.4 1.25 64 2xD1
18 5/16-7/16 DMT 0806 D17 18 UN 8 6.00 4 17.0 0.5 1.4 64 2xD1
16 3/8-1/2 DMT 08067 C22 16 UN 8 6.70 3 22.0 0.5 1.6 64 2xD1
14 7/16 DMT 0808 D26 14 UN 8 8.00 4 26.5 0.6 1.8 64 2xD1
13 1/2 DMT 1010 D29 13 UN 10 10.00 4 29.8 0.6 2.0 73 2xD1
Order example: DMT 08067 C22 16 UN MT7
* Tools version-D
Grade P M K N S H
MT7
UN With internal coolant bore
Tools for Internal Thread
Left hand cutting
For CNC code use M04
A
d
D
IL
45°
P
WV
D1
VERSION - D
A
D
I
L
d
First choice Alternative
®
Multi-Function Thread Mills
B10-5
Pitch
TPI Standard Ordering Code d D No. of
Flutes I W V L Thread
length
28 G1/16 DMT 0806 D17 28 W 8 6.00 4 17.8 0.6 0.9 64 2xD1
28 G1/8 DMT 08078 D21 28 W 8 7.80 4 21.8 0.6 0.9 64 2xD1
19 G1/4 DMT 12104 D29 19 W 12 10.40 4 29.6 0.7 1.3 84 2xD1
19 G3/8 DMT 1414 D36 19 W 14 14.00 4 36.7 0.8 1.3 83 2xD1
Pitch
TPI Standard Ordering Code d D No. of
Flutes I W V L
27 1/16 DMT 08057 D11 27 NPT 8 5.70 4 11.2 0.4 0.9 64
27 1/8 DMT 08076 D12 27 NPT 8 7.60 4 12.1 0.4 0.9 64
18 1/4 DMT 1010 D18 18 NPT 10 10.00 4 18.2 0.6 1.4 73
18 3/8 DMT 1212 D19 18 NPT 12 12.00 4 19.6 0.6 1.4 84
14 1/2 DMT 1616 E26 14 NPT 16 16.00 5 26.9 0.6 1.8 92
G (BSP)
NPT
Grade P M K N S H
MT7
Grade P M K N S H
MT7
Tools for Internal Thread
Tools for Internal Thread
With internal coolant bore
With internal coolant bore
Order example: DMT 1010 D18 18 NPT MT7
Order example: DMT 08078 D21 28 W MT7
45°
P
WV
45°
P
WV
A
IL
d
D
A
d
D
IL
Alternative
First choice Alternative
D1
®
Multi-Function Thread Mills
B10-6
Order example: DMTH 1009 D28 1.75 ISO MT11
Left hand cutting
For CNC code use M04
UN
Tools for Internal Thread
Pitch
TPI
UN, UNEF, UNF
UNC, UNS Ordering Code d D No. of
Flutes I W V L Thread
depth
40 4, 5, 6 DMTH 06021 C7 40 UN 6 2.10 3 7.0 0.1 0.6 58 2xD1
32 6 DMTH 06026 C8 32 UN 6 2.60 3 8.7 0.1 0.8 58 2xD1
28 1/4-3/8 DMTH 0805 C14 28 UN 8 5.00 3 14.9 0.4 0.9 64 2xD1
24 5/16-1/2 DMTH 08065 D18 24 UN 8 6.50 4 18.5 0.5 1.05 64 2xD1
20 1/4-3/8 DMTH 08048 C15 20 UN 8 4.80 3 15.6 0.4 1.25 64 2xD1
18 5/16-7/16 DMTH 0806 D19 18 UN 8 6.00 4 19.2 0.5 1.4 64 2xD1
16 3/8-1/2 DMTH 08067 C22 16 UN 8 6.70 3 22.8 0.5 1.6 64 2xD1
13 1/2 DMTH 10092 C30 13 UN 10 9.20 3 30.0 0.6 2.0 73 2xD1
11 5/8 DMTH 12114 C37 11 UN 12 11.40 3 37.0 0.6 2.3 84 2xD1
Order example: DMTH 08048 C15 20 UN MT11
Pitch
mm
M
Coarse
M
Fine Ordering Code d D No. of
Flutes I W V L Thread
depth
0.7 M4 DMTH 06032 C11 0.7 ISO 6 3.15 3 11.6 0.2 0.7 58 2.5xD1
0.8 M5 DMTH 0604
C14 0.8 ISO 6 4.00 3 14.4 0.3 0.8 58 2.5xD1
1.0 M6,M7 M8,M9 DMTH 08047 C14 1.0 ISO 8 4.70 3 14.4 0.4 1.0 64 2xD1
1.25 M8,M9 M10,M12 DMTH 08061 D19 1.25 ISO 8 6.10 4 19.0 0.5 1.25 64 2xD1
1.5 M10 M13-M15 DMTH 08078 D23 1.5 ISO 8 7.80 4 23.6 0.6 1.5 64 2xD1
1.75 M12 DMTH 1009 D28 1.75 ISO 10 9.00 4 28.1 0.6 1.75 73 2xD1
2.0 M16 M17-M23 DMTH 12118
D36 2.0 ISO 12 11.80 4 36.6 0.6 2.0 84 2xD1
Grade P M K N S H
MT11 ≤ 55 HRc
Grade P M K N S H
MT11 ≤ 55 HRc
ISO
Tools for Internal Thread
DMTH
For information see page B10-2
A
I
L
d
D
45°
P
W
VD1
First choice Alternative
®
Multi-Function Thread Mills
B10-7
Case Study no. 1
Case Study no. 2
Tool Description
Internal Thread
Thread Length
Material
Cutting Data
Cycle Time
Tool Life
Tool Description
Internal Thread
Thread Length
Material
Cutting Data
Cycle Time
Tool Life
DMTH 08047 C14 1.0 ISO MT11
M6x1.0
12 mm
Steel 12-15 HRc SAE 4340
Vc= 90 m/min Fz= 0.03 mm/tooth
28 seconds
776
DMTH 08047 C14 1.0 ISO MT11
M6x1.0
12 mm
Steel 44-45 HRc SAE 4340
Vc= 71 m/min Fz= 0.02 mm/tooth
53 seconds
196
Case Studies
Alternative
®
Multi-Function Thread Mills
B10-8
No. of
Flutes
B = 2
Product Identication
Designed to drill, chamfer and thread mill the hole in one operation.
MT Drill - MTD
Two uted drill/thread milling cutter, with 45˚ chamfering.
Ideal for mass production applications.
Reduces cycle times by combining operations and
eliminating tool changes.
For both right and left hand internal threads.
Same tool for blind or through hole.
High thread surface quality.
Internal coolant.
Optimized carbide grade for Aluminum and Cast Iron.
Advantages
Mill-Thread Drill Ordering Codes
MTD
Shank Diameter
06 = 6 mm
08 = 8 mm
10 = 10 mm
12 = 12 mm
08 MT7
Carbide
Grade
K20
MT7
MT
Drill
12
Approximate
Cutting Length
12 = 12.0 mm
048
Cutting
Diameter
1.0
Thread Pitch
B ISO
Thread
Prole
ISO
UN
Carbide grade:
K20:
Uncoated Sub-Micron carbide grade dedicated for machining Aluminum
and Cast Iron.
MT7:
Sub-Micron carbide grade combines high hardness and toughness,
with PVD triple coating for smooth cutting and high performance.
®
Multi-Function Thread Mills
B10-9
Order example: MTD 08048 B12 20 UN MT7
MT Drill - MTD
Pitch
mm
M
Coarse Ordering Code d D Dth Df Dn In I th If L
0.7 M4 MTD 06032 B7 0.7 ISO 6 3.30 3.20 4.7 4.9 15 7.7 9.8 54
0.8 M5 MTD 0604 B9 0.8 ISO 6 4.20 4.00 5.5 5.7 18 9.6 11.9 54
1.0 M6 MTD 08048 B12 1.0 ISO 8 5.00 4.80 6.5 6.8 26 12.0 14.8 62
1.25 M8 MTD 10064 B15 1.25 ISO 10 6.75 6.40 8.6 8.9 34 15.1 18.7 74
1.5 M10 MTD 1208 B19 1.5 ISO 12 8.50 8.00 10.5 10.8 35 19.5 23.8 80
Pitch
TPI UNC Ordering Code d D Dth Df Dn In Ith If L
20 1/4 MTD 08048 B12 20 UN 8 5.20 4.80 6.7 6.9 26 12.7 15.9 62
18 5/16 MTD 10061 B15 18 UN 10 6.60 6.10 8.3 8.6 34 15.5 19.2 74
16 3/8 MTD 12075 B19 16 UN 12 8.00 7.50 10.0 10.3 35 19.1 23.4 80
14 7/16 MTD 12088 B21 14 UN 12 9.40 8.80 11.4 11.6 35 21.8 26.6 80
Pitch
TPI UNF Ordering Code d D Dth Df Dn In Ith If L
32 10 MTD 06038 B9 32 UN 6 4.10 3.80 5.4 5.6 18 9.5 11.8 54
28 1/4 MTD 08052 B13 28 UN 8 5.50 5.20 6.7 6.9 26 13.0 15.7 62
24 5/16 MTD 10066 B15 24 UN 10 6.90 6.60 8.4 8.7 34 15.9 19.1 74
24 3/8 MTD 12082 B19 24 UN 12 8.50 8.20 10.0 10.3 35 19.0 22.5 80
Thread length: 2xD
ISO
UNC
UNF
Tools for Internal thread
- Tools without coolant available upon request.
- Cylindrical shank DIN6535-HA (Weldon shank, available upon request).
Grade P M K N S H
K20
MT7
A
L
d
D
PDn
DfD th
In
I th
I th
If
If
First choice Alternative
®
Multi-Function Thread Mills
B10-10
®
HARDCUT
B11-1
MTSH Type
Carmex are pioneers in oering solid carbide thread
mills designed specically for the machining of
hardened materials up to 62HRc. These tools provide
high performance, improved cut and an excellent
surface nish.
MTH Type
Carmex provide innovative mill thread solid carbide
tools for machining:
Hardened steels and cast iron up to 62 HRc.
High temperature alloys.
Titanium alloys.
Super Alloys (Hastelloy, Inconel, Nickel Base Alloys).
Same tool performs thread milling and chamfering
- saves machining time.
Increased cutting diameter - better rigidity and
stability.
Coating provides high wear and heat resistance.
Ultra ne grade - dedicated for hardened
materials.
Short chips are produced, insure high process
security.
Short cycle time - increases productivity.
Thread length up to 2xD.
Threading from ISO M1.4 x 0.3 and 0-80UN
Perfect solution for the Die and Mold industry
Working at high cutting speeds
Short machining time
Low cutting forces thanks to the short prole
Advantages
Contents: Page: Contents: Page:
Product Identication 2
MTSH 3-5
ISO 3
UN 4
G55˚ - BSW, BSP 5
MJ 5
UNJ 5
FSH 6
ISO 6
UN 6
MTH 7
ISO 7
UN 7
B11
Mill-Thread Solid Carbide for machining hard materials
HARD
MTSH
Demonstration
FSH Type
High productive Solid Carbide Thread-Mills with a
large number of utes for machining hard materials
up to 65 HRC
®
HARDCUT
B11-2
Product Identication
Mini Mill-Thread MTSH Type Ordering Codes
MTH Type Ordering Codes
MTH ISO
06 04 C 9 0.8
C 9
06 0.7
031
MTSH
Mini Mill Thread
HARDCUT
FSH
Mini Mill Thread
fast machining
Mill-Thread
HARDCUT No. of Flutes
C = 3
D = 4
Cutting Diameter
04 = 4 mm
The Approximate
Cutting Length
Thread Pitch Thread
Prole
ISO
UN
The Approximate
Cutting Length
Grade
MT9
MT3
MT6
Grade
MT11
Cutting Diameter
031 = 3.10 mm
Thread
Pitch
No. of Flutes
C = 3
D = 4
E = 5
F = 6
G = 7
ISO
Thread Prole
ISO
UN
G (55˚)
MJ
UNJ
Shank Diameter
Shank Diameter
06 = 6 mm
08 = 8 mm
10 = 10 mm
12 = 12 mm
06 = 6 mm
08 = 8 mm
10 = 10 mm
12 = 12 mm
16 = 16 mm
®
HARDCUT
B11-3
ISO
Tools for Internal Thread
Left hand cutting
For CNC code use M04
D1
Pitch
mm M Coarse M Fine Ordering Code d D No. of
Flutes I L Thread
depth
0.3 M1.4 MTSH 03011 C4 0.3 ISO 3 1.05 3 4.0 39 3xD1
0.35 M1.6, M1.8 M2, M2.5 MTSH 03012 C5 0.35 ISO 3 1.20 3 4.8 39 3xD1
0.4 M2 MTSH 06016 C4 0.4 ISO 6 1.53 3 4.5 58 2xD1
0.4 M2 MTSH 03016 C6 0.4 ISO 3 1.53 3 6.0 39 3xD1
0.45 M2.2 MTSH 06017 C5 0.45 ISO 6 1.65 3 5.0 58 2xD1
0.45 M2.2 MTSH 06017 C7 0.45 ISO 6 1.65 3 7.0 58 3xD1
0.45 M2.5 MTSH 0602 C5 0.45 ISO 6 1.95 3 5.5 58 2xD1
0.45 M2.5 MTSH 0602 C7 0.45 ISO 6 1.95 3 7.5 58 3xD1
0.5 M3 M4,M5 MTSH 06024 C6 0.5 ISO 6 2.37 3 6.5 58 2xD1
0.5 M3 M4,M5 MTSH 06024 C9 0.5 ISO 6 2.37 3 9.5 58 3xD1
0.6 M3.5 MTSH 06028 C7 0.6 ISO 6 2.75 3 7.5 58 2xD1
0.6 M3.5 MTSH 06028 C10 0.6 ISO 6 2.75 3 10.5 58 3xD1
0.7 M4 MTSH 06031 C9 0.7 ISO 6 3.10 3 9.0 58 2xD1
0.7 M4 MTSH 06031 C12 0.7 ISO 6 3.10 3 12.5 58 3xD1
0.7 M4 MTSH 06032 C12 0.7 ISO-L 6 3.20 3 12.5 105 3xD1
0.8 M5 MTSH 06038 C12 0.8 ISO 6 3.80 3 12.5 58 2xD1
0.8 M5 MTSH 06038 C16 0.8 ISO 6 3.80 3 16.0 58 3xD1
0.8 M5 MTSH 0604 C16 0.8 ISO-L 6 4.00 3 16.0 105 3xD1
1.0 M6 M8 MTSH 06047 C14 1.0 ISO 6 4.65 3 14.0 58 2xD1
1.0 M6 M8 MTSH 06047 C20 1.0 ISO 6 4.65 3 20.0 58 3xD1
1.0 M6 M8 MTSH 06048 C20 1.0 ISO-L 6 4.80 3 20.0 105 3xD1
1.0 M10,M12 MTSH 0808 D31 1.0 ISO 8 8.00 4 31.0 64 3XD1
1.25 M8 M10,M12 MTSH 0606 C18 1.25 ISO 6 6.00 3 18.0 58 2xD1
1.25 M8 M10,M12 MTSH 0606 C24 1.25 ISO 6 6.00 3 24.0 58 3xD1
1.5 M10 M14,M16 MTSH 08078 C23 1.5 ISO 8 7.80 3 23.0 64 2xD1
1.5 M10 M14,M16 MTSH 08078 D31 1.5 ISO 8 7.80 4 31.5 64 3xD1
1.75 M12 MTSH 1009 C26 1.75 ISO 10 9.00 3 26.0 73 2xD1
2.0 M14 M17 MTSH 1010 D30 2.0 ISO 10 10.00 4 30.0 73 2xD1
2.0 M16 M18,M20 MTSH 12118 D35 2.0 ISO 12 11.80 4 35.0 84 2xD1
Grade P M K N S H
MT9 ≤ 62 HRc
Order example: MTSH 0808 D31 1.0 ISO MT9
MTSH
First choice Alternative
®
HARDCUT
B11-4
UN
Tools for Internal Thread
Order example: MTSH 06047 C14 20 UN MT9
Left hand cutting
For CNC code use M04
HARDCUT
Pitch
TPI UNC UNF Ordering Code d D No. of
Flutes I L Thread
depth
80 0 MTSH 06012 C4 80 UN 6 1.15 3 4.0 58 3xD1
72 1 MTSH 06014 C3 72 UN 6 1.45 3 3.7 58 2xD1
72 1 MTSH 03015 C6 72 UN 3 1.45 3 6.0 39 3xD1
64 1 2 MTSH 06014 C3 64 UN 6 1.40 3 3.8 58 2xD1
56 2 3 MTSH 06016 C4 56 UN 6 1.65 3 4.4 58 2xD1
56 2 3 MTSH 06016 C6 56 UN 6 1.65 3 6.6 58 3xD1
48 3 4 MTSH 06019 C5 48 UN 6 1.90 3 5.2 58 2xD1
40 4 MTSH 06021 C6 40 UN 6 2.10 3 6.3 58 2xD1
40 4 MTSH 06021 C8 40 UN 6 2.10 3 8.0 58 3xD1
40 5 6 MTSH 06024 C7 40 UN 6 2.45 3 7.0 58 2xD1
40 5 6 MTSH 06024 C9 40 UN 6 2.45 3 9.6 58 3xD1
36 8 MTSH 06033 C9 36 UN 6 3.30 3 9.0 58 2xD1
32 6 MTSH 06025 C7 32 UN 6 2.55 3 7.1 58 2xD1
32 6 MTSH 06025 C10 32 UN 6 2.55 3 10.5 58 3xD1
32 8 MTSH 06032 C9 32 UN 6 3.20 3 9.5 58 2xD1
32 8 MTSH 06032 C12 32 UN 6 3.20 3 12.5 58 3xD1
32 10 MTSH 06037 C10 32 UN 6 3.70 3 10.5 58 2xD1
32 10 MTSH 06037 C15 32 UN 6 3.70 3 15.0 58 3xD1
28 12 MTSH 06042 C11 28 UN 6 4.20 3 11.0 58 2xD1
28 1/4 MTSH 0605 C14 28 UN 6 5.00 3 14.5 58 2xD1
28 1/4 MTSH 0605 C19 28 UN 6 5.00 3 19.0 58 3xD1
24 10,12 MTSH 06035 C10 24 UN 6 3.50 3 10.6 58 2xD1
24 5/16, 3/8 MTSH 08066 C17 24 UN 8 6.60 3 17.0 64 2xD1
24 5/16, 3/8 MTSH 08066 C24 24 UN 8 6.60 3 24.0 64 3xD1
20 1/4 MTSH 06047 C14 20 UN 6 4.75 3 14.0 58 2xD1
20 1/4 MTSH 06047 C19 20 UN 6 4.75 3 19.0 58 3xD1
20 7/16 MTSH 0808 C25 20 UN 8 8.00 3 25.0 64 2xD1
18 5/16 MTSH 0606 C17 18 UN 6 6.00 3 17.0 58 2xD1
18 5/16 MTSH 0606 C23 18 UN 6 6.00 3 23.0 58 3xD1
18 5/8 MTSH 1212 D35 18 UN 12 12.00 4 35.0 84 2xD1
16 3/8 MTSH 08067 C22 16 UN 8 6.70 3 22.0 64 2xD1
16 3/8 MTSH 08074 D30 16 UN 8 7.40 4 30.2 64 3xD1
14 7/16 MTSH 08077 C25 14 UN 8 7.70 3 25.0 64 2xD1
13 1/2 MTSH 10092 C27 13 UN 10 9.20 3 27.5 73 2xD1
12 9/16 MTSH 12105 C31 12 UN 12 10.50 3 31.5 84 2xD1
11 5/8 MTSH 12114 C34
11 UN 12 11.40 3 34.5 84 2xD1
10 3/4 MTSH 16144 D41 10 UN 16 14.40 4 41.5 105 2xD1
Grade P M K N S H
MT9 ≤ 62 HRc
First choice Alternative
®
HARDCUT
B11-5
G (55º) BSW, BSP
MJ Tools for Internal Thread
Same Tool for Internal and External Thread
Pitch
mm D1 Ordering Code d D No. of
Flutes I L Thread
depth
0.5 MJ3 MTSH 06024 C9 0.5 MJ 6 2.40 3 9.5 58 3xD1
0.7 MJ4 MTSH 06032 C12 0.7 MJ 6 3.20 3 12.7 58 3xD1
0.8 MJ5 MTSH 0604 D15 0.8 MJ 6 4.00 4 15.8 58 3xD1
1.0 MJ6-MJ8 MTSH 06048 D19 1.0 MJ 6 4.80 4 19.0 58 3xD1
1.25 MJ8-MJ10 MTSH 08064 D25 1.25 MJ 8 6.40 4 25.3 64 3xD1
1.5 MJ10-MJ12 MTSH 0808 D31 1.5 MJ 8 8.00 4 31.5 64 3xD1
1.75 MJ12 MTSH 10095 D25 1.75 MJ 10 9.50 4 25.8 73 2xD1
2.0 MJ14-MJ20 MTSH 1211 D30 2.0 MJ 12 11.00 4 30.0 84 2xD1
Left hand cutting
For CNC code use M04
Pitch
TPI Standard Ordering Code d D No. of
Flutes I L Thread
depth
28 G1/8 MTSH 08078 C19 28 W 8 7.8 3 19.5 64 2xD1
19 G1/4-3/8 MTSH 1010 D30 19 W 10 10.0 4 30.0 73 2xD1
14 G1/2-7/8 MTSH 1212 D37 14 W 12 12.0 4 37.0 84 2xD1
11 G≥1 MTSH 1616 D44 11 W 16 16.0 4 44.0 105 2xD1
Grade P M K N S H
MT6 ≤ 58 HRc
Grade P M K N S H
MT9 ≤ 62 HRc
Pitch
TPI UNJC UNJF Ordering Code d D No. of
Flutes I L Thread
depth
56 2 MTSH 06016 C7 56 UNJ 6 1.65 3 7.0 58 3xD1
32 6 MTSH 06025 C11 32 UNJ 6 2.55 3 11.3 58 3xD1
32 8 10 MTSH 06033 C13 32 UNJ 6 3.30 3 13.3 58 3xD1
28 1/4 MTSH 06052 D20 28 UNJ 6 5.20 4 20.0 58 3xD1
24 5/16, 3/8 MTSH 08067 D24 24 UNJ 8 6.70 4 24.9 64 3xD1
20 1/4 MTSH 06049 D20 20 UNJ 6 4.90 4 20.3 58 3xD1
20 7/16 MTSH 10092 D23 20 UNJ 10 9.20 4 23.5 73 2xD1
18 5/16 MTSH 0606 D17 18 UNJ 6 6.00 4 17.3 58 2xD1
16 3/8 MTSH 08074 D20 16 UNJ 8 7.40 4 20.6 64 2xD1
14 7/16 MTSH 10085 D24 14 UNJ 10 8.5 4 24.0 73 2xD1
13 1/2 MTSH 10098 D27 13 UNJ 10 9.80 4 27.4 73 2xD1
UNJ Tools for Internal Thread
Grade P M K N S H
MT6 ≤ 58 HRc
Order example: MTSH 10095 D25 1.75 MJ MT6 First choice Alternative
®
HARDCUT
B11-6
ISO Tools for Internal Thread
Order example: FSH 0604 E10 0.8 ISO MT3
Pitch
mm M Coarse M Fine Ordering Code d D No. of
Flutes I L Thread
depth
0.45 M2.5 FSH 0602 E5 0.45 ISO 6 1.95 5 5.5 58 2xD1
0.45 M2.5 FSH 0602 E8 0.45 ISO 6 1.95 5 8.0 58 3xD1
0.5 M3 M4,M5 FSH 06024 E6 0.5 ISO 6 2.40 5 6.5 58 2xD1
0.5 M3 M4,M5 FSH 06024 E9 0.5 ISO 6 2.40 5 9.5 58 3xD1
0.7 M4 FSH 06032 E8 0.7 ISO 6 3.20 5 8.7 58 2xD1
0.7 M4 FSH 06032 E12 0.7 ISO 6 3.20 5 12.7 58 3xD1
0.8 M5 FSH 0604 E10 0.8 ISO 6 4.00 5 10.8 58 2xD1
0.8 M5 FSH 0604 E15 0.8 ISO 6 4.00 5 15.8 58 3xD1
1.0 M6 M8 FSH 06048 F13 1.0 ISO 6 4.80 6 13.0 58 2xD1
1.0 M6 M8 FSH 06048 F19 1.0 ISO 6 4.80 6 19.0 58 3xD1
1.25 M8 M10,M12 FSH 08064 G17 1.25 ISO 8 6.40 7 17.3 64 2xD1
1.25 M8 M10,M12 FSH 08064 G25 1.25 ISO 8 6.40 7 25.3 64 3xD1
Pitch
TPI UNC UNF Ordering Code d D No. of
Flutes I L Thread
depth
40 4 FSH 06021 D6 40 UN 6 2.10 4 6.3 58 2xD1
40 4 FSH 06021 D9 40 UN 6 2.10 4 9.2 58 3xD1
40 5 6 FSH 06024 D7 40 UN 6 2.45 4 7.0 58 2xD1
40 5 6 FSH 06024 D10 40 UN 6 2.45 4 10.2 58 3xD1
32 6 FSH 06025 D7 32 UN 6 2.55 4 7.8 58 2xD1
32 6 FSH 06025 D11 32 UN 6 2.55 4 11.3 58 3xD1
32 8 FSH 06032 D9 32 UN 6 3.20 4 9.1 58 2xD1
32 8 FSH 06032 D13 32 UN 6 3.20 4 13.3 58 3xD1
32 10 FSH 06038 E10 32 UN 6 3.80 5 10.5 58 2xD1
32 10 FSH 06038 E15 32 UN 6 3.80 5 15.3 58 3xD1
28 1/4 FSH 06052 F13 28 UN 6 5.20 6 13.6 58 2xD1
28 1/4 FSH 06052 F20 28 UN 6 5.20 6 20.0 58 3xD1
24 5/16, 3/8 FSH 08066 F16 24 UN 8 6.60 6 16.9 64 2xD1
24 5/16, 3/8 FSH 08066 F24 24 UN 8 6.60 6 24.9 64 3xD1
20 1/4 FSH 06048 E14 20 UN 6 4.80 5 14.0 58 2xD1
20 1/4 FSH 06048 E20 20 UN 6 4.80 5 20.3 58 3xD1
UN Tools for Internal Thread
Order example: FSH 08066 F24 24 UN MT3
Grade P M K N S H
MT3 ≤ 65 HRc
Left hand cutting
For CNC code use M04
Grade P M K N S H
MT3 ≤ 65 HRc
First choice Alternative
FSH
®
HARDCUT
B11-7
MTH
Pitch
TPI UNC UNF UNEF Ordering Code d D Df No. of
Flutes I If L
40 5 6 MTH 06025 C6 40 UN 6 2.5 3.7 3 6.0 6.6 58
32 6 MTH 06026 C5 32 UN 6 2.6 3.8 3 5.9 6.5 58
32 8 MTH 06032 C7 32 UN 6 3.2 4.4 3 7.5 8.1 58
32 10 12 MTH 06038 C9 32 UN 6 3.8 5.0 3 9.1 9.7 58
28 1/4 MTH 08052 D11 28 UN 8 5.2 6.8 4 11.3 12.1 64
28 7/16, 1/2 MTH 12096 D20 28 UN 12 9.6 11.2 4 20.4 21.2 84
24 5/16, 3/8 9/16, 5/8, 11/16 MTH 08066 D14 24 UN 8 6.6 8.0 4 14.3 15.0 64
20 1/4 MTH 06048 C12 20 UN 6 4.8 6.0 3 12.1 12.7 58
20 7/16, 1/2 3/4, 1 MTH 12092 D21 20 UN 12 9.2 10.8 4 21.0 21.8 84
18 5/16 9/16, 5/8 11/16 MTH 08057 C14 18 UN 8 5.7 7.5 3 14.8 15.7 64
16 3/8 3/4 MTH 10074 C16 16 UN 10 7.4 9.2 3 16.7 17.6 73
14 7/16 7/8 MTH 10085 D20 14 UN 10 8.5 9.9 4 20.9 21.6 73
13 1/2 MTH 12094 D22 13 UN 12 9.4 11.4 4 22.5 23.5 84
Order example: MTH 06048 C12 20 UN MT11
UN
Tools for Internal Thread
ISO Tools for Internal Thread
Pitch
mm
M
Coarse
M
Fine Ordering Code d D Df No. of
Flutes I If L
0.5 M3 ø ≥ 4 MTH 06024 C5 0.5 ISO 6 2.4 3.6 3 5.3 5.9 58
0.7 M4 ø ≥ 5 MTH 06031 C7 0.7 ISO 6 3.1 4.3 3 7.4 8.0 58
0.8 M5 ø ≥ 6 MTH 0604 C9 0.8 ISO 6 4.0 5.2 3 9.2 9.8 58
1.0 M6 ø ≥ 7 MTH 08048 D10 1.0 ISO 8 4.8 6.4 4 10.5 11.3 64
1.0 ø ≥ 9 MTH 0806 D13 1.0 ISO 8 6.0 7.6 4 13.5 14.3 64
1.0 ø ≥ 10 MTH 1008 D16 1.0 ISO 10 8.0 9.6 4 16.5 17.3 73
1.25 M8 ø ≥ 10 MTH 0806 D14 1.25 ISO 8 6.0 7.6 4 14.4 15.2 64
1.5 M10 ø ≥ 12 MTH 1008 D17 1.5 ISO 10 8.0 9.8 4 17.3 18.2 73
1.5 ø ≥ 14 MTH 1210 D21 1.5 ISO 12 10.0 11.8 4 21.8 22.7 84
1.75 M12 ø ≥ 12 MTH 12095 D20 1.75 ISO 12 9.5 11.5 4 20.1 21.1 84
Order example: MTH 08048 D10 1.0 ISO MT11
Grade P M K N S H
MT11 ≤ 62 HRc
Grade P M K N S H
MT11 ≤ 62 HRc
First choice AlternativeAlternative
®
HARDCUT
B11-8
®
B12-1
Mill-Thread Technical Section
Contents: Page: Contents: Page:
B12
Mill-Thread Technical Section
Conversion of Cutting Speed to Rotational Speed 2
Tool Selection 3
Carmex Mill-Thread catalog and CNC programming
Software 4
Example of Thread Milling CNC Program for Internal
Threading 4
Mill-Thread Inserts Speed and Feed
Selection 5
Cutting Data Slim MT Type 6
Spiral Mill-Thread Inserts Speed and Feed
Selection 7
Spiral Finish Speed Selection 7
Cutting Data D-Thread type 8
Cutting Data CMT type 9-11
Mill-Thread Solid Carbide Grades, Speed and Feed Selection
MT, MTB, MTZ, EMT types 12
Cutting Data MTQ type 13
FMT - Fast MT type 14
Cutting Data FMT type 15
Cutting Data AMT type 16
Cutting Data Mini Mill-Thread MTS, MTI & FMTI types
17-18
Cutting Data MTSB type 18
Cutting Data DMT type 19
Cutting Data DMTH type 19
Cutting Data MT Drill - MTD type 20
MT drill working cycle 20
Cutting Data Mini Mill-Thread MTSH and FSH type 21
Cutting Data MTH type 22
®
B12-2
Mill-Thread Technical Section
Conversion of Cutting Speed to
Rotational Speed
Conversion of selected cutting speed to rotational
speed is calculated by the following formula:
1000 1274
1000
30
120
Example:
D=Cutting diameter
V=120 m/min
D=30 mm
Internal Thread External Thread
®
B12-3
Mill-Thread Technical Section
Tool Selection
For indexable and solid carbide Mill Threads
The following chart provides a fairly accurate visual selection tool for Internal Threading.
The chart is suitable for the following thread forms: ISO, UN, WHIT, NPT, NPTF, BSPT and PG.
If you need assistance, please call your local
distributor and ask for help in selecting the appropriate
tool as well as for a CNC program to suit your CNC milling
machine.
Any tool with a small cutting diameter can produce larger diameter threads.
Example: Internal thread M30 x 1.5:
Find a Milling Tool to produce d=30 Internal
right hand ISO thread with a thread pitch P=1.5 mm.
As can be seen from the chart above, the two red lines
intersect at a selected tool with a cutting diameter of D=21 mm
Chosen toolholder: SR0021 H21
Insert: 21 I 1.5 ISO MT7
30
1.5
4 5 6 7 8 9 10 11 12 13 14 15 16 18 20 22 24 26 28 30 32 34 36 38 40 44 48 52 58 64
3
4
5
6
78
9
10
12
21 29
17
18
14
®
B12-4
Mill-Thread Technical Section
Carmex Mill-Thread catalog and
CNC programming Software
Example of Thread Milling CNC Program
for Internal Threading
This software is provided by Carmex to assist you, the
thread milling user, to select and apply the correct tool
to machine threads on CNC machining centers. The
program will nd tools and inserts which are suitable
for your application, calculate cutting data and
generate a CNC program for a variety of controls.
The software is available at our website:
carmex.com
Right hand thread (climb milling) from bottom up.
Program is based on tool center.
This method of programming needs no tool radius
compensation value other than an oset for wear.
General Program
G90 G00 G54 G40 G17 G94X0 Y0 S---M03
G43 H1 Z50.000 M08
G90 G01 Z- (TO THREAD DEPTH) F5000
G91 G41 D1 X(A/2) Y-(A/2) Z0 F---
G03 X(A/2) Y(A/2) Z(1/8 PITCH) I0 J(A/2) F---
G03 X0 Y0 Z(PITCH) I-(A) J0
G03 X-(A/2) Y(A/2) Z(1/8 PITCH) I-(A/2) J0
G01 G40 X-(A/2) Y-(A/2) Z0 F5000
G90 G00 Z50.000
Internal Thread
EXAMPLE : M 32 X 2.0 (Thread depth 18 mm)
TOOLHOLDER : SR0021 H20 (Cutting dia. 21 mm)
INSERT: 21 I 2.0 ISO
A = (32-21)/2 = 5.5
G90 G00 G54 G40 G17 G94 X0.000 Y0.000 S2986 M03
G43 H1 Z50.000 M08
G90 G01 Z-18.250 F5000
G91 G41 D1 X2.750 Y-2.750 Z0.000 F215
G03 X2.750 Y2.750 Z0.250 I0.000 J2.750 F74
G03 X0.000 Y0.000 Z2.000 I-5.500 J0.000
G03 X-2.750 Y2.750 Z0.250 I-2.750 J0.000
G01 G40 X-2.750 Y-2.750 Z0.000 F5000
G90 G00 Z50.000
0
00
®
B12-5
Mill-Thread Technical Section
Mill-Thread Inserts Speed and Feed
Selection
Sub-Micron Grade with Titanium Aluminum Nitride multi-layer coating (ISO K10 - K20).
This is a general purpose grade, which can be used with all materials; it should be run
at medium to high cutting speeds.
Recommended FEED RATE: 0.05 - 0.15 mm
MT7
ISO Materials Cutting Speed m/min
MT7
P
Low and Medium Carbon Steels 115 - 280
High Carbon Steels 130 - 200
Alloy Steels, Treated Steels 105 - 180
MStainless Steels 130 - 190
Cast Steels 150 - 190
KCast Iron 80 - 70
NNon-Ferrous & Aluminum 180 - 340
Synthetics, Duroplastics, Thermoplastics 115 - 460
SNickel Alloys, Titanium Alloys 25 - 90
®
B12-6
Mill-Thread Technical Section
Advanced New Sub-Micron carbide grade with multi-layer PVD coating, provides high
performance in all machining conditions. The new grade ensures high abrasive wear
resistance, machining wide range of materials including steels, tough and dicult
materials and high alloyed steels
.
MT17
ISO Material Conditions
Cutting Conditions
Cutting Speed
(m/min) Feed Rate
(mm/tooth)
P
Non-Alloy Steel and Cast Steel,
Free Cutting Steel
Annealed < 0.25
% C
Annealed ≥ 0.25
% C
Annealed ≥ 0.55
% C
Quenched & Tempered < 0.55
% C
Quenched & Tempered ≥ 0.55
% C
110-220
100-210
90-150
70-140
55-70
( 0.055 * D ) / 22
Low Alloy Steel and Cast Steel
(less than 5
% alloying elements
Annealed
Quenched & Tempered
60-110
60-90
( 0.055 * D ) / 22
High Alloy Steel, Cast Steel, and
Tool Steel
Annealed 55-90
Quenched & Tempered 45-80
M
Stainless Steel and Cast Steel
Ferritic
Martensitic
Austenitic
90-200
80-160
60-110
( 0.055 * D ) / 22
High alloy Austenitic & Duplex 40-70 ( 0.045 * D ) / 22
K
Cast Iron Nodular (GGG)
Ferritic 90-125
( 0.055 * D ) / 22
Pearlitic 90-110
Grey Cast Iron (GG)
Ferritic 110-145
Pearlitic 80-125
Malleable Cast Iron
Ferritic 110-125
Pearlitic 80-120
N
Aluminum-Wrought Alloy
Not Cureable 135-350
( 0.05 * D ) / 22
Cured 100-270
Aluminum-Cast, Alloyed
Not Cureable ≤ 12
% Si 90-270
Cured
High Temperature > 12
% Si
90-270
90-225
90-180
Copper Alloys
Free Cutting > 1
% Pb
Brass
Electrolytic Copper
70-225
70-180
70-270
Non Metalic Duroplastics, Fiber Plastics
Hard Rubber
70-270
70-270
S
High Temperature/Super Alloys (Fe
based)
Annealed
Cured 30-50
( 0.038 * D ) / 22
High Temperature/Super Alloys (Ni
or Co based
Annealed
25-45
Cured
Cast
Titanium Alloys Alpha + Beta Alloys Cured 30-40
D= Toolholder cutting diameter.
Cutting Data
Slim MT type
®
B12-7
Mill-Thread Technical Section
Spiral Finish Speed Selection
Sub-Micron Grade with Titanium Aluminum Nitride multi-layer coating (ISO K10 - K20).
This is a general purpose grade, which can be used with all materials; it should be run at
medium to high cutting speeds.
MT7
ISO Materials Cutting Speed (m/min)
MT7
P
Low and Medium Carbon Steels 200 - 330
High Carbon Steels 170 - 235
Alloy Steels, Treated Steels 100 - 195
MStainless Steels 180 - 230
Cast Steels 180 - 230
KCast Iron 200 - 350
NNon-Ferrous and Aluminum 500 - 1100
Synthetics, Duroplastics, Thermoplastics 400 - 1500
SNickel Alloys, Titanium Alloys 30 - 55
Spiral Mill-Thread Inserts Speed and Feed
Selection
Sub-Micron Grade with Titanium Aluminum Nitride multi-layer coating (ISO K10 - K20).
This is a general purpose grade, which can be used with all materials; it should be run at
medium to high cutting speeds.
As you may note, cutting speed is shown in range terms. In most standard cases choosing a speed
in the middle of the range would be a good choice for a start.
For hard metals reduce cutting speed.
Recommended FEED RATE: 0.05 - 0.15 mm
MT7
ISO Materials Cutting Speed m/min
MT7
P
Low and Medium Carbon Steels 145 - 360
High Carbon Steels 165 - 255
Alloy Steels, Treated Steels 135 - 230
MStainless Steels 165 - 245
Cast Steels 190 - 245
KCast Iron 100 - 220
NNon-Ferrous & Aluminum 230 - 440
Synthetics, Duroplastics, Thermoplastics 145 - 590
SNickel Alloys, Titanium Alloys 30 - 115
®
B12-8
Mill-Thread Technical Section
Cutting Data
D-Thread type
Sub-Micron Grade with Titanium Aluminum Nitride multi-layer coating (ISO K10 - K20).
This is a general purpose grade, which can be used with all materials; it should be run at
medium to high cutting speeds.
MT7
ISO Materials Cutting Speed
(m/min)
P
Low and Medium Carbon Steels <0.55%C 100 - 205
High Carbon Steels ≥0.55%C 100 - 180
Alloy Steels, Treated Steels 100 - 140
MStainless Steels - Free Cutting 85 - 125
Stainless Steels - Austenitic 80 - 115
Cast Steels 115 - 155
KCast Iron 75 - 145
NAluminum ≤12%Si, Copper 150 - 300
Aluminum >12% Si 150 - 300
Synthetics, Duroplastics, Thermoplastics 100 - 350
SNickel Alloys, Titanium Alloys 45 - 95
Recommended FEED RATE: 0.07 - 0.15 mm
®
B12-9
Mill-Thread Technical Section
Cutting Data
CMT type
Thread
Milling
start
position arc
entrance
arc
exit
end
point
Thread
Milling
Sub-Micron Grade with Titanium Aluminum Nitride multi-layer coating (ISO K10 - K20).
This is a general purpose grade, which can be used with all materials; it should be run at
medium to high cutting speeds.
MT7
ISO Materials
Cutting
Speed
m/min
Feed mm/tooth
Cutting Diameter=D
ø
10
ø
12
ø
18
ø
25
P
Low and Medium Carbon Steels <0.55%C 60 - 120 0.16 0.17 0.20 0.22
High Carbon Steels ≥0.55%C 60 - 90 0.14 0.16 0.20 0.22
Alloy Steels, Treated Steels 50 - 80 0.10 0.12 0.16 0.18
MStainless Steels - Free Cutting 70 - 100 0.10 0.11 0.15 0.17
Stainless Steels - Austenitic 60 - 90 0.10 0.11 0.15 0.17
Cast Steels 70 - 90 0.10 0.12 0.16 0.18
KCast Iron 40 - 80 0.16 0.17 0.20 0.22
N
Aluminum ≤12%Si, Copper 100 - 200 0.16 0.17 0.20 0.22
Aluminum >12% Si 60 - 140 0.10 0.11 0.16 0.18
Synthetics, Duroplastics, Thermoplastics 50 - 200 0.19 0.19 0.22 0.24
SNickel Alloys, Titanium Alloys 20 - 40 0.07 0.07 0.10 0.12
HHardened Steel 45 - 50HRc 60 - 70 0.09 0.09 0.13 0.15
Hardened Steel 50 - 55HRc 50 - 60 0.08 0.08 0.12 0.14
®
B12-10
Mill-Thread Technical Section
Carbide grade - MT8:
Sub-Micron Grade with Aluminum Titanium Nitride (AlTiN) multi-layer coating (ISO K10-K20).
Extremely high heat resistant and smooth cutting operation, for high performance, and normal
machining conditions. General purpose for all materials.
Feed mm/tooth
Cutting Diameter = D
Cutting Speed
m/min
Material
ISO
Standard
ø
16-
ø
35
0.14 - 0.2460 - 120Low and Medium Carbon Steels <0.55%C
P0.12 - 0.2460 - 90High Carbon Steels ≥0.55%C
0.08 - 0.2050 - 80Alloy Steels,Treated Steels
0.08 - 0.1970 - 100Stainless Steel-Free Cutting
M0.08 - 0.1960 - 90Stainless Steel-Austenitic
0.08 - 0.2070 - 90Cast Steels
0.14 - 0.2440 - 80Cast Iron
K
0.14 - 0.26100 - 200Aluminum ≤12%Si, Copper
N0.08 - 0.2260 - 140Aluminum >12%Si
0.17 - 0.2850 - 200Synthetics, Duroplastics, Thermoplastics
0.05 - 0.1420 - 40Nickel Alloys, Titanium Alloys.
S
0.07 - 0.1760 - 70Hardened Steel, 45-50HRc
H0.06 - 0.1650 - 60Hardened Steel, 51-55HRc
Cutting Data
CMT Spiral Multi Flute Inserts
®
B12-11
Mill-Thread Technical Section
Feed
mm/tooth
Cutting Speed
m/min
Material
ISO
Standard
0.05 - 0.15
60 - 120
Low and Medium Carbon Steels <0.55%C
P0.05 - 0.1060 - 90High Carbon Steels ≥0.55%C
0.05 - 0.1050 - 80Alloy Steels, Treated Steels
0.04 - 0.1370 - 100Stainless Steel-Free Cutting
M0.04 - 0.1060 - 90Stainless Steel-Austenitic
0.04 - 0.1370 - 90Cast Steels
0.05 - 0.1540 - 80Cast Iron
K
0.05 - 0.25100 - 200Aluminum ≤12%Si, Copper
N0.03 - 0.1060 - 140Aluminum >12%Si
0.05 - 0.2550 - 200Synthetics, Duroplastics, Thermoplastics
0.03 - 0.1020 - 40Nickel alloys, Titanium Alloys.
S
0.03 - 0.1060 - 70Hardened Steel, ≤ 45 HRc
H
Cutting Data
CMT Milling cutter
Sub-Micron Grade with Titanium Aluminum Nitride multi-layer coating (ISO K10 - K20).
This is a general purpose grade, which can be used with all materials; it should be run at
medium to high cutting speeds.
MT7
®
B12-12
Mill-Thread Technical Section
Mill-Thread Solid Carbide Grades, Speed
and Feed Selection
MTB, MTZ, EMT types
MT type
Sub-Micron Grade with Titanium Aluminum Nitride multi-layer coating (ISO K10 - K20).
This is a general purpose grade, which can be used with all materials; it should be run at
medium to high cutting speeds.
MT7
For cutters with long cutting length reduce feed rate by 40%
For cutters with long cutting length reduce feed rate by 40%
ISO Materials
Cutting
Speed
m/min
Feed mm/tooth
Cutting Diameter=D
ø
2
ø
3
ø
4
ø
6
ø
8
ø
10
ø
12
ø
14
ø
16
ø
20
ø
25
P
Low and Medium Carbon
Steels <0.55%C
90 - 200 0.03 0.04 0.04 0.06 0.07 0.08 0.09 0.11 0.12 0.15 0.18
High Carbon Steels ≥0.55%C
100 - 145 0.02 0.03 0.03 0.05 0.06 0.07 0.08 0.09 0.10 0.12 0.15
Alloy Steels, Treated Steels
M
Stainless Steels - Free Cutting
55 - 130 0.02 0.03 0.03 0.04 0.05 0.06 0.06 0.07 0.08 0.09 0.11
Stainless Steels - Austenitic
55 - 100 0.02 0.02 0.03 0.03 0.04 0.05 0.05 0.06 0.07 0.08 0.10
Cast Steels
120 - 135 0.02 0.02 0.03 0.03 0.04 0.05 0.05 0.06 0.07 0.08 0.10
K
Cast Iron
65 - 120 0.03 0.04 0.04 0.06 0.07 0.08 0.09 0.11 0.12 0.15 0.18
N
Aluminum ≤12%Si, Copper
135 - 280 0.03 0.04 0.04 0.06 0.07 0.08 0.09 0.11 0.12 0.15 0.18
Aluminum >12% Si
90 - 200 0.02 0.02 0.03 0.03 0.04 0.05 0.05 0.06 0.07 0.08 0.10
Synthetics, Duroplastics, Thermoplastics
90 - 320 0.05 0.06 0.07 0.08 0.10 0.11 0.12 0.14 0.15 0.18 0.22
S
Nickel Alloys, Titanium Alloys
ISO Materials
Cutting
Speed
m/min
Feed mm/tooth
Cutting Diameter=D
ø
2
ø
3
ø
4
ø
6
ø
8
ø
10
ø
12
ø
14
ø
16
ø
20
ø
25
P
Low and Medium Carbon
Steels <0.55%C
100 - 250 0.03 0.04 0.04 0.06 0.07 0.08 0.09 0.11 0.12 0.15 0.18
High Carbon Steels ≥0.55%C
110 - 180 0.02 0.03 0.03 0.05 0.06 0.07 0.08 0.09 0.10 0.12 0.15
Alloy Steels, Treated Steels
90 - 160 0.02 0.02 0.03 0.03 0.04 0.05 0.05 0.06 0.07 0.08 0.10
M
Stainless Steels - Free Cutting
60 - 160 0.02 0.03 0.03 0.04 0.05 0.06 0.06 0.07 0.08 0.09 0.11
Stainless Steels - Austenitic
60 - 120 0.02 0.02 0.03 0.03 0.04 0.05 0.05 0.06 0.07 0.08 0.10
Cast Steels
130 - 170 0.02 0.02 0.03 0.03 0.04 0.05 0.05 0.06 0.07 0.08 0.10
K
Cast Iron
70 - 150 0.03 0.04 0.04 0.06 0.07 0.08 0.09 0.11 0.12 0.15 0.18
N
Aluminum ≤12%Si, Copper
150 - 350 0.03 0.04 0.04 0.06 0.07 0.08 0.09 0.11 0.12 0.15 0.18
Aluminum >12% Si
100 - 250 0.02 0.02 0.03 0.03 0.04 0.05 0.05 0.06 0.07 0.08 0.10
Synthetics, Duroplastics, Thermoplastics
100 - 400 0.05 0.06 0.07 0.08 0.10 0.11 0.12 0.13 0.15 0.18 0.22
S
Nickel Alloys, Titanium Alloys
20 - 80 0.02 0.02 0.02 0.03 0.03 0.03 0.03 0.04 0.04 0.04 0.05
®
B12-13
Mill-Thread Technical Section
Sub-Micron Grade with Titanium Aluminum Nitride multi-layer coating (ISO K10 - K20).
This is a general purpose grade, which can be used with all materials; it should be run at medium to
high cutting speeds.
MT7
ISO Materials
Cutting
Speed
m/min
Feed mm/tooth
Cutting Diameter=D
ø
10
ø
12
ø
14
ø
16
ø
20
ø
25
P
Low and Medium Carbon Steels < 0.55%C 100 - 250 0.06 0.07 0.07 0.08 0.10 0.12
High Carbon Steels ≥ 0.55%C 110 - 180 0.05 0.05 0.06 0.07 0.09 0.10
Alloy Steels, Treated Steels 90 - 160 0.03 0.04 0.04 0.05 0.06 0.07
MStainless Steels - Free Cutting 60 - 160 0.04 0.04 0.05 0.06 0.06 0.08
Stainless Steels - Austenitic 60 - 120 0.04 0.04 0.04 0.05 0.06 0.07
Cast Steels 130 - 170 0.03 0.04 0.04 0.05 0.06 0.07
KCast Iron 70 - 150 0.06 0.07 0.07 0.08 0.10 0.12
N
Aluminum ≤ 12%Si, Copper 150 - 350 0.06 0.07 0.07 0.08 0.10 0.12
Aluminum > 12% Si 100 - 250 0.03 0.04 0.04 0.05 0.06 0.07
Synthetics, Duroplastics, Thermoplastics 100 - 400 0.08 0.09 0.10 0.11 0.13 0.15
SNickel Alloys, Titanium Alloys 20 - 80 0.02 0.02 0.02 0.03 0.03 0.03
start
point
Thread
Milling
start
position
(1. entry)
Thread
Milling
start
position
(2. entry)
Thread
Milling
(2. entry)
end
point
Thread
Milling
(1. entry)
MTQ type
Thread mills with relieved neck and internal coolant for milling medium and large threads on
relatively deep work pieces.
To produce medium and large threads on relatively
deep work pieces.
To use overhang according to the application.
To perform deep threads at the bottom of the
application.
Advantages
Provides high rigidity and stability (anti-vibration).
Accomplishes deep threads in one pass.
Relatively low cutting forces due to short cutting
length.
Threads length up to 3D.
Cutting Data
®
B12-14
Mill-Thread Technical Section
FMT - Fast MT type
FMT vs. Taps
Features FMT Taps
Thread up to bottom at blind hole Possible Not possible
Machining load Very low High
Thread surface quality High Medium
Process reliability Very reliable, especially
for expensive work pieces Medium
Thread geometry Very accurate Medium
Cycle time Same or faster than tap Fast
Case Study
Application
Internal right hand thread: M6x1.0
Thread length: 10 mm, Blind hole
Bore size: Ø 5 mm
Chamfer: 0.9 mm
Work piece material
Steel SAE 4340
Cutter description
FMT08048F10 1.0 ISO - with internal coolant
Shank diameter: Ø8 mm
Cutting diameter: Ø4.8 mm
Number of utes: 6
Cutting length: 10.5 mm
Total length: 64 mm
Cutting conditions
Cutting speed: 130 m/min Feed: 0.016 mm/tooth
Machine
Mori Seiki NV5000 Coolant: emulsion 5%
Results
Tool life : 2,170 threads
Cycle time: 1.5 sec
Carmex has designed a unique line of solid carbide thread milling tools FMT for
increased productivity and high performance.
Large number of utes enables to achieve signicant shorter machining time.
®
B12-15
Mill-Thread Technical Section
ISO
Standard Materials
Cutting
Speed
m/min
Feed mm/tooth
Cutting Diameter = D
ø
5
ø
6
ø
8
ø
10
ø
12
P
Low and Medium Carbon Steels < 0.55%C
100 - 250 0.03 0.06 0.07 0.08 0.09
High Carbon Steels ≥ 0.55%C
110 - 180 0.03 0.05 0.06 0.07 0.08
Alloy Steels, Treated Steels
90 - 60 0.02 0.03 0.04 0.05 0.05
M
Stainless Steel - Free Cutting
60 - 160 0.03 0.04 0.05 0.06 0.06
Stainless Steel - Austenitic
60 - 120 0.01 0.03 0.04 0.05 0.05
Cast Steels
130 - 170 0.02 0.03 0.04 0.05 0.05
K
Cast Iron
70 - 150 0.04 0.06 0.07 0.08 0.09
N
Aluminum ≤ 12%Si, Copper
150 - 350 0.04 0.06 0.07 0.08 0.09
Aluminum > 12%Si
100 - 250 0.03 0.03 0.04 0.05 0.05
Synthetics, Duroplastics, Thermoplastics
100 - 400 0.06 0.08 0.10 0.11 0.12
S
Nickel Alloys, Titanium Alloys.
20 - 80 0.02 0.03 0.03 0.03 0.03
H
Hardened Steel, 45-50HRc
60 - 70 0.02 0.03 0.03 0.03 0.03
FMT - Fast MT type
Cutting Data
Sub Micron grade with advanced PVD triple coating (ISO K10-K20).
Extremely high heat resistant and smooth cutting operation, for high performance and normal
machining conditions. General purpose for all materials.
MT8
®
B12-16
Mill-Thread Technical Section
AMT
Cutting Data
Uncoated Sub- Micron carbide grade for Aluminum and non- ferrous
materials, Stainless Steels and Titanium.
K20
ISO
Standard Materials
Cutting
Speed
m/min
Feed mm/tooth
Cutting Diameter = D
D ≤ 4
4 < D < 9
D ≥ 9
P
Low & Medium Carbon Steels
< 0.55%C 50-140 0.005-0.03 0.01-0.05 0.02-0.10
High Carbon Steels ≥0.55%C 60-130 0.005-0.02 0.01-0.04 0.02-0.09
Alloy Steels, Treated Steels
M
Stainless Steel-Free Cutting 40-120 0.005-0.02 0.01-0.04 0.02-0.09
Stainless Steel-Austenitic
Cast Steels 70-120 0.005-0.03 0.01-0.05 0.02-0.10
KCast Iron 50-120 0.005-0.03 0.01-0.05 0.02-0.10
N
Aluminum ≤12%Si, Copper 130-250 0.005-0.04 0.01-0.06 0.02-0.13
Aluminum >12%Si 80-180 0.005-0.04 0.01-0.06 0.02-0.13
Synthetics, Duroplastics,
Thermoplastics 80-180 0.005-0.04 0.01-0.06 0.02-0.13
SNickel alloys, Titanium alloys 20- 80 0.005-0.02 0.01-0.04 0.02-0.09
AMT Solid Carbide Thread Mills
for Aluminum Machining
Optimized carbide grade for Aluminum, cast iron and stainless steels
Cylindrical shank (Weldon shank - upon request)
With internal coolant bore
Uncoated, smooth cutting edge
High thread surface quality
Same tool for right hand or left hand internal threads
Additional items with cutting chamfer
Features
Solid carbide thread mills for High-speed Aluminum machining.
High-speed aluminum machining requires tools that minimize the tendency of Aluminum to stick to
the tool cutting edges, provides high surface nish, ensuring ecient chip evacuation and sufficient
strength of the cutting edge to absorb the cutting forces.
®
B12-17
Mill-Thread Technical Section
Cutting Data
Mini Mill-Thread MTS, MTI and FMTI types
Sub-Micron Grade with Titanium Aluminum Nitride multi-layer coating (ISO K10 - K20). This is a general
purpose grade, which can be used with all materials; it should be run at medium to high cutting speeds.
MT7
Sub-Micron Grade with Aluminum Titanium Nitride (AlTiN) multi-layer coating (ISO K10-K20). Extremely
high heat resistant and smooth cutting operation, for high performance, and normal machining
conditions. General purpose for all materials.
MT8
Ultra-ne Sub-Micron grade with advanced PVD triple coating.
MT11
start
point center
location arc
entrance thread
milling arc
exit end
point
ISO
Standard Materials
Cutting
Speed
m/min
Feed mm/tooth
Cutting Diameter = D
ø
1
ø
1.5
ø
2
ø
3
ø
4
ø
5
ø
6
ø
7
ø
8
ø
9
ø
10
ø
12
ø
14
ø
16
P
Low and Medium Carbon Steels
< 0.55%C
60-120 0.04 0.05 0.05 0.07 0.09 0.11 0.13 0.14 0.15 0.16 0.16 0.17 0.18 0.18
High Carbon Steels ≥ 0.55%C
60- 90 0.03 0.04 0.05 0.06 0.08 0.09 0.10 0.12 0.13 0.14 0.14 0.16 0.17 0.18
Alloy Steels, Treated Steels
50- 80 0.03 0.04 0.04 0.05 0.05 0.06 0.07 0.07 0.08 0.09 0.10 0.12 0.13 0.14
M
Stainless Steels - Free Cutting
70-100 0.02 0.03 0.03 0.04 0.05 0.06 0.06 0.07 0.08 0.09 0.10 0.11 0.12 0.13
Stainless Steels - Austenitic
60- 90 0.02 0.03 0.03 0.04 0.05 0.06 0.06 0.07 0.08 0.09 0.10 0.11 0.12 0.13
Cast Steels
70- 90 0.03 0.04 0.04 0.05 0.05 0.06 0.07 0.07 0.08 0.09 0.10 0.12 0.13 0.14
K
Cast Iron
40- 80 0.04 0.05 0.05 0.07 0.09 0.11 0.13 0.14 0.15 0.16 0.16 0.17 0.18 0.18
N
Aluminum ≤12%Si, Copper
100-200 0.04 0.05 0.05 0.07 0.09 0.11 0.13 0.14 0.15 0.16 0.16 0.17 0.18 0.18
Aluminum >12% Si
60-140 0.03 0.03 0.03 0.04 0.05 0.06 0.06 0.07 0.08 0.09 0.10 0.11 0.13 0.14
Synthetics, Duroplastics,
Thermoplastics
50-200 0.09 0.10 0.11 0.12 0.14 0.16 0.18 0.19 0.19 0.19 0.19 0.19 0.20 0.20
S
Nickel Alloys and Titanium Alloys
20- 40 0.03 0.03 0.03 0.04 0.04 0.05 0.06 0.06 0.06 0.07 0.07 0.07 0.08 0.08
MT6
Ultra-Fine carbide grade with high hardness and toughness provides an excel-
lent solution for machining steels, stainless steels, and super alloys Ni or Ti base.
With a universal PVD multi-layer coating, provides high heat and wear resistance.
®
B12-18
Mill-Thread Technical Section
MTSB
ISO
Standard Materials
Cutting
speed
Vc
[m/min]
Feed
Fz [mm/tooth]
Cutting Diameter=D
Ø
1
Ø
1.5
Ø2
Ø3 Ø4 Ø5
P
Low and Medium Carbon Steels < 0.55%C
60-120 0.04 0.05 0.05 0.07 0.09 0.11
High Carbon Steels ≥ 0.55%C
60- 90 0.03 0.04 0.05 0.06 0.08 0.09
Alloy Steels, Treated Steels
50- 80 0.03 0.04 0.04 0.05 0.05 0.06
M
Stainless Steel - Free Cutting
70-100 0.02 0.03 0.03 0.04 0.05 0.06
Stainless Steel - Austenitic
60- 90 0.02 0.03 0.03 0.04 0.05 0.06
Cast Steels
70- 90 0.03 0.04 0.04 0.05 0.05 0.06
K
Cast Iron
40- 80 0.04 0.05 0.05 0.07 0.09 0.11
N
Aluminum ≤ 12%Si, Copper
100-200 0.04 0.05 0.05 0.07 0.09 0.11
Aluminum > 12%Si
60-140 0.03 0.03 0.03 0.04 0.05 0.06
Synthetics, Duroplastics, Thermoplastics
50-200 0.09 0.10 0.11 0.12 0.14 0.16
S
Nickel Alloys, Titanium Alloys.
20- 40 0.03 0.03 0.03 0.04 0.04 0.05
H
Hardened Steel, 45-50HRc
60- 70 0.03 0.04 0.04 0.05 0.05 0.06
Cutting Data
Features Mini Mill-Thread Taps
Thread surface quality High Medium
Thread geometry Very accurate Medium
Thread tolerances 4H, 5H, 6H with std cutter 6H with standard tap, 4H with specic tap
Machining time Same as tap or shorter Short
Tool breakage Almost not possible Could happen often
Machining load Very low High
Range of thread diameters Wide range of diameters Specic tap for each diameter
Right/Left hand threading Same cutter Specic tap for each
Geometric shape Full prole Partial prole
Mini Mill-Thread vs. Taps
®
B12-19
Mill-Thread Technical Section
DMT type
DMTH type
Sub-Micron Grade with Titanium Aluminum Nitride multi-layer coating (ISO K10 - K20).
This is a general purpose grade, which can be used with all materials; it should be run at
medium to high cutting speeds.
Ultra-ne Sub-Micron grade with advanced PVD triple Blue coating.
MT7
MT11
ISO Materials
Cutting
Speed
m/min
Feed mm/tooth
ø
2
ø
3
ø
4
ø
5
ø
6
ø
8
ø
9
ø
10
ø
12
P
Low and Medium Carbon
Steels < 0.55%C 60 - 120 0.02 0.02 0.03 0.03 0.04 0.05 0.05 0.05 0.05
High Carbon Steels ≥ 0.55%C 60 - 90 0.02 0.02 0.02 0.03 0.03 0.04 0.04 0.04 0.05
Alloy Steels, Treated Steels 50 - 80 0.02 0.02 0.02 0.02 0.02 0.02 0.03 0.03 0.04
MStainless Steels - Free Cutting 70 - 100 0.02 0.02 0.02 0.02 0.02 0.02 0.03 0.03 0.03
Stainless Steels - Austenitic 60 - 90 0.02 0.02 0.02 0.02 0.02 0.02 0.03 0.03 0.03
Cast Steels 70 - 90 0.02 0.02 0.02 0.02 0.02 0.02 0.03 0.03 0.04
KCast Iron 40 - 80 0.03 0.03 0.03 0.03 0.04 0.05 0.05 0.05 0.05
N
Aluminum ≤10%Si, Copper 100 - 200 0.03 0.03 0.03 0.03 0.04 0.05 0.05 0.05 0.05
Aluminum >10% Si 60 - 140 0.02 0.02 0.02 0.02 0.02 0.02 0.03 0.03 0.03
Synthetics, Duroplastics,
Thermoplastics 50 - 200 0.04 0.05 0.05 0.05 0.05 0.06 0.06 0.06 0.06
SNickel Alloys, Titanium Alloys
and High Temp. Alloys 20 - 40 0.02 0.03 0.03 0.04 0.05 0.05 0.06 0.06 0.06
HHardened Steels 45-50 HRc 60 - 70 0.02 0.02 0.02 0.03 0.04 0.04 0.05 0.05 0.05
Hardened Steels 50-55 HRc 50 - 60 0.01 0.01 0.01 0.02 0.03 0.03 0.04 0.04 0.04
ISO Materials
Cutting
Speed
m/min
Feed mm/tooth
ø
3
ø
4
ø
5
ø
6
ø
8
ø
9
ø
10
ø
12
P
Low and Medium Carbon Steels < 0.55%C
60 - 120 0.02 0.03 0.03 0.04 0.05 0.05 0.05 0.05
High Carbon Steels ≥ 0.55%C
60 - 90 0.015 0.02 0.03 0.03 0.04 0.04 0.04 0.05
Alloy Steels, Treated Steels
50 - 80 0.015 0.02 0.02 0.02 0.02 0.03 0.03 0.04
M
Stainless Steels - Free Cutting
70 - 100 0.015 0.02 0.02 0.02 0.02 0.03 0.03 0.03
Stainless Steels - Austenitic
60 - 90 0.015 0.02 0.02 0.02 0.02 0.03 0.03 0.03
Cast Steels
70 - 90 0.015 0.02 0.02 0.02 0.02 0.03 0.03 0.04
K
Cast Iron
40 - 80 0.02 0.03 0.03 0.04 0.05 0.05 0.05 0.05
N
Aluminum ≤12%Si, Copper
100 - 200 0.02 0.03 0.03 0.04 0.05 0.05 0.05 0.05
Aluminum >12% Si
60 - 140 0.015 0.02 0.02 0.02 0.02 0.03 0.03 0.03
Synthetics, Duroplastics, Thermoplastics
50 - 200 0.03 0.04 0.05 0.05 0.06 0.06 0.06 0.06
Cutting Data
®
B12-20
Mill-Thread Technical Section
Material
Group Materials
Cutting Speed
m/min
Feed mm/r
Cutting Diameter = D
Feed mm/tooth
Cutting Diameter = D
Drilling Mill Thread
K20 MT7 D≤4 4<D<6 D≥6 D≤4 4<D<6 D≥6
KCast Iron
50- 80 80-120 0.10-0.15 0.15-0.20 0.15-0.30 0.005-0.03 0.01-0.05 0.02-0.10
N
Aluminum ≤12%Si,
Copper
100-250 100-350 0.06-0.10 0.10-0.20 0.20-0.30 0.005-0.04 0.01-0.06 0.02-0.13
Aluminum >12%Si
--- 80-180 0.05-0.07 0.10-0.15 0.15-0.25 0.005-0.04 0.01-0.06 0.02-0.13
Synthetics, Duroplastics,
Thermoplastics
60-100 80-180 0.10-0.20 0.20-0.30 0.20-0.30 0.005-0.04 0.01-0.06 0.02-0.13
Carbide grade K20: Uncoated Sub-Micron carbide grade dedicated for machining Aluminum
and Cast Iron.
MT7: Sub-Micron carbide grade combines high hardness and toughness, with
PVD triple coating for smooth cutting and high performance.
MT Drill - MTD
Cutting Data
Start
Position
Drill &
Chamfer
Moving
up
1/3xP
Arc
entrance
1/8xP
Thread
Milling
1xP
Arc
Exit
1/8xP
End
point
Right hand
cutting
MT Drill working cycle
®
B12-21
Mill-Thread Technical Section
Mini Mill-Thread MTSH and FSH
Sub-Micron Grade with advanced PVD triple coating.
Left hand cutting for CNC code use M04
MT9
ISO Materials
Hardness
HRc
Cutting
Speed
m/min
Feed mm/tooth
Cutting Diameter = D
ø
1
ø
1.5
ø
2
ø
3
ø
4
ø
5
ø
6
ø
7
ø
8
ø
9
ø
10
ø
12
ø
14
ø
16
S
Nickel Alloys, Titanium Alloys
and High Temp. Alloys 20-40 0.03 0.03 0.03 0.04 0.04 0.05 0.06 0.06 0.06 0.07 0.07 0.07 0.08 0.08
H
Hardened Steels
45 - 50
51 - 55
56 - 62
60 - 70
50 - 60
40 - 50
0.03
0.02
0.01
0.04
0.03
0.02
0.04
0.03
0.02
0.05
0.04
0.03
0.05
0.04
0.03
0.06
0.05
0.04
0.06
0.05
0.04
0.07
0.06
0.05
0.07
0.06
0.05
0.08
0.07
0.06
0.08
0.07
0.06
0.09
0.08
0.07
0.10
0.09
0.08
0.11
0.10
0.09
start
point center
location arc
entrance thread
milling arc
exit end
point
Case Study
Application
Thread Depth
Workpiece Material
Hardness
Machine
Control
Cooling Lubricant
Machining Conditions
Cutter Description
Tool Life (No. of Threads)
Internal Thread M4 X 0.7
8.0 mm
Tool Steel: D2
60-62 (HRc)
Mori Seiki VN5000
Fanuc
Emulsion
Cutting Speed: 44 m / min
Feed: 0.03 mm / tooth
MTSH06031C9 0.7 ISO
84
Cutting Data
MT6
MT3
Ultra-Fine carbide grade with high hardness and toughness provides an excellent
solution for machining steels, stainless steels, and super alloys Ni or Ti base.
With a universal PVD multi-layer coating, provides high heat and wear resistance.
U
ltra-Fine carbide grade with PVD multi-layer coating for machining Super
Alloys and Hard materials up to 65 HRc.
Provides supreme edge stability with high heat and wear resistance.
For increased productivity and high performance.
®
B12-22
Mill-Thread Technical Section
MTH type
Sub-Micron Grade with advanced PVD triple coating.
For cutters with long cutting length reduce feed rate by 40%
Positioning
Chamfering
Thread Milling
MT11
ISO Materials Hardness
HRc
Cutting
Speed
m/min
Feed mm/tooth
Cutting Diameter = D
ø
2.5
ø
3
ø
4
ø
5
ø
6
ø
7
ø
8
ø
9
ø
10
S
Nickel Alloys, Titanium Alloys
and High Temp. Alloys 20-50 0.02 0.02 0.02 0.02 0.03 0.03 0.03 0.03 0.04
H
Hardened Steels
Cast Iron
45 - 50
51 - 55
56 - 62
70 - 80
60 - 70
40 - 50
0.02
0.01
0.005
0.03
0.02
0.01
0.03
0.02
0.01
0.04
0.03
0.02
0.04
0.03
0.02
0.05
0.04
0.03
0.05
0.04
0.03
0.06
0.05
0.04
0.07
0.06
0.05
Cutting Data
®
B13-1
Contents: Page: Page:
Product Identication 2
Groove Milling with internal coolant
through the utes 3
Full Radius Groove Milling with internal
coolant through the utes 4
Deep Groove Milling 4
Technical Section 5
Advantages
For Grooving Deep Parts
F
Solid Carbide Grooving Tools
B13
Demonstration
®
B13-2
Product Identication
Groove Milling Ordering Codes
M G 06 06 C 8
G = Groove
Milling
D = Deep
Shank Diameter
06 = 6 mm
08 = 8 mm
10 = 10 mm
12 = 12 mm
16 = 16 mm
The Approximate
Cutting Length
8 = 8 mm
10 = 10 mm
W=Groove Width
08 = 0.8 mm
10 = 1.0 mm
R=Groove Radius
05 = 0.5 mm
06 = 0.6 mm
Cutting Diameter
06 = 6 mm
No. of Flutes
C = 3
D = 4
E = 5
F = 6
Grade
MT8
Solid Carbide Grooving Tools
®
B13-3
Groove Milling
with internal coolant through the utes
Same Tool for Internal and External Grooving
For grooving deep parts
Order example: MG 10098D20 W12 MT8
* Tools without coolant
0.1
Solid Carbide Grooving Tools
W
± 0.02
T
Max.
Groove
Dia. (min.)
mm
Ordering Code d D No. of
Flutes I
L
0.50 0.6 ø> 4 *MG 0604 C4 W05 6 4.0 3 4.2
51
1.00 0.6 ø> 4 *MG 0604 C4 W10 6 4.0 3 4.2
51
0.80 0.8 ø> 6 MG 0606 C8 W08 6 6.0 3 8.0
58
1.00 1.0 ø> 6 *MG 0606 C7 W10 6 6.0 3 7.0
58
1.50 1.0 ø> 6 *MG 0606 C7 W15 6 6.0 3 7.0
58
1.00 1.2 ø≥ 7.8 MG 08078 D10 W10 8 7.8 4 10.0
64
1.50 1.5 ø≥ 7.8 MG 08078 D15 W15 8 7.8 4 15.0
64
2.00 1.5 ø≥ 7.8 MG 08078 D15 W20 8 7.8 4 15.0
64
1.20 1.4 ø≥ 9.8 MG 10098 D20 W12 10 9.8 4 20.0
73
1.50 2.0 ø≥ 9.8 MG 10098 D20 W15 10 9.8 4 20.0
73
2.00 2.0 ø≥ 9.8 MG 10098 D20 W20 10 9.8 4 20.0
73
1.50 2.2 ø≥12 MG 1212 E30 W15 12 12.0 5 30.0
84
2.00 2.2 ø≥12 MG 1212 E30 W20 12 12.0 5 30.0
84
3.00 2.2 ø≥12 MG 1212 E30 W30 12 12.0 5 30.0
84
1.40 1.8 ø≥16 MG 1616 E30 W14 16 16.0 5 30.0
101
1.70 2.0 ø≥16 MG 1616 E40 W17 16 16.0 5 40.0
101
1.95 2.2 ø≥16 MG 1616 E45 W19 16 16.0 5 45.0
101
®
B13-4
Deep Groove Milling
Full Radius Groove Milling
with internal coolant through the utes
*Same Tool for Internal and External Grooving
with internal coolant bore
For grooving deep parts
Order example: MG 1010 D20 R06 MT8
* Same tool for internal and external grooving
* Tools without coolant
Solid Carbide Grooving Tools
Ordering Code W
± 0.02 RT
(max.)
Groove Dia.
(min.) d D No. of
Flutes L
MGD 10195 F W15 1.5 0.1 4.5 Ø > 19.5 10 19.5 6 128
MGD 10195 F W20 2.0 0.1 4.5 Ø > 19.5 10 19.5 6 128
MGD 10195 F W30 3.0 0.1 4.5 Ø > 19.5 10 19.5 6 128
MGD 10195 F W35 3.5 0.1 4.5 Ø > 19.5 10 19.5 6 128
MGD 10195 F W40 4.0 0.1 4.5 Ø > 19.5 10 19.5 6 128
MGD 10195 F W50 5.0 0.1 4.5 Ø > 19.5 10 19.5 6 128
RW
± 0.02
T
Max.
Groove
Dia. (min.) Ordering Code d D No. of
Flutes I L
0.5 1.00 0.6 ø> 4 *MG 0604 C4 R05 6 4.0 3 4.2 51
0.5 1.00 0.8 ø> 6 MG 0606 C8 R05 6 6.0 3 8.0 58
0.75 1.50 1.0 ø> 6 *MG 0606 C7 R075 6 6.0 3 7.0 58
0.5 1.00 1.0 ø≥ 8.8 MG 10088 D16 R05 10 8.8 4 16.0 73
0.6 1.20 1.0 ø≥10 MG 1010 D20 R06 10 10.0 4 20.0 73
0.75 1.50 2.0 ø≥10 MG 1010 D20 R075 10 10.0 4 20.0 73
1.00 2.00 2.0 ø≥10 MG 1010 D20 R10 10 10.0 4 20.0 73
0.9 1.80 1.4 ø≥12 MG 1212 D30 R09 12 12.0 4 30.0 84
1.0 2.00 1.6 ø≥16 MG 1616 E40 R10 16 16.0 5 40.0 101
1.5 3.00 2.2 ø≥16 MG 1616 E40 R15 16 16.0 5 40.0 101
®
B13-5
Solid Carbide Grooving Tools
Cutting Data
Technical Section
ISO Materials
Cutting
Speed
m/min
Feed mm/tooth
Cutting Diameter=D
Ø1.5 Ø2 Ø3 Ø4 Ø5 Ø6 Ø7 Ø8 Ø9 Ø10 Ø12 Ø14 Ø16
P
Low and Medium Carbon
Steels <0.55%C
60 - 120 0.03 0.04 0.05 0.06 0.08 0.09 0.10 0.11 0.11 0.11 0.12 0.13 0.13
High Carbon Steels ≥0.55%C
60 - 90 0.02 0.04 0.04 0.06 0.06 0.07 0.08 0.09 0.10 0.10 0.11 0.12 0.13
Alloy Steels, Treated Steels
50 - 80 0.02 0.03 0.04 0.04 0.04 0.05 0.05 0.06 0.06 0.07 0.08 0.09 0.10
M
Stainless Steels - Free Cutting
70 - 100 0.01 0.02 0.03 0.04 0.04 0.04 0.05 0.06 0.06 0.07 0.08 0.08 0.09
Stainless Steels - Austenitic
60 - 90 0.01 0.02 0.03 0.04 0.04 0.04 0.05 0.06 0.06 0.07 0.08 0.08 0.09
Cast Steels
70 - 90 0.02 0.03 0.04 0.04 0.04 0.05 0.05 0.06 0.06 0.07 0.08 0.09 0.10
K
Cast Iron
4 0 - 80 0.03 0.04 0.05 0.06 0.08 0.09 0.10 0.11 0.11 0.11 0.12 0.13 0.13
N
Aluminum ≤12%Si, Copper
100 - 200 0.03 0.04 0.05 0.06 0.08 0.09 0.10 0.11 0.11 0.11 0.12 0.13 0.13
Aluminum >12% Si
60 - 140 0.02 0.02 0.03 0.04 0.04 0.04 0.05 0.06 0.06 0.07 0.08 0.09 0.10
Synthetics, Duroplastics,
Thermoplastics
50 - 200 0.06 0.08 0.08 0.10 0.11 0.13 0.13 0.13 0.13 0.13 0.13 0.14 0.14
S
Nickel Alloys, Titanium Alloys
20 - 40 0.02 0.02 0.03 0.03 0.04 0.04 0.04 0.04 0.05 0.05 0.05 0.06 0.06
H
Hardened Steel, ≤50 HRc
60 - 70 0.02 0.03 0.04 0.04 0.04 0.04 0.05 0.05 0.06 0.06 0.06 0.07 0.08
®
B13-6
®
CMT Roughers and Finishers
B14-1
Contents: Contents:
End-Mills Features 2
Product Identication 3
High Performance Solid Carbide End-Mills 4-19
4 utes - Short or Long 5
4 utes with corner radius - Short or Long 6
4 utes with corner radius and neck 7
5 utes - Long 8
5 utes with corner radius - Long 8
5 utes with corner radius and neck 9
6 utes - Extra Long 10
6 utes with corner radius and neck 10
7 utes with corner radius 11
Ballnose End-Mills 4 utes with neck 11
Technical Section 12-15
High Performance Solid Carbide End-Mills for Aluminum
machining 16-19
Solid Carbide End-Mills 3 utes 17
Solid Carbide End-Mills 3 utes with corner radius 17
Technical Section 18
Application Example 19
Multi-Function Milling Tools (MF) 20-23
Product Identication 21
Working Methods 22
Technical Section 23
CR-Supercut Roughers 24-30
Product Identication 25
Short 26
Long 26
With Neck 27
Solid Carbide Roughers for Aluminum Machining 28-30
Without internal coolant 28
With internal coolant through the utes 29
Technical Section 30
Indexable CMT Roughers and Finishers 31-33
Product Identication 31
Roughers 32
Finishers 32
Toolholders 33
CR-Supercut High Feed End-Mills 34-39
CR-Supercut High Feed End-Mills Features 35
Product Identication 36
Solid Carbide High Feed End-Mills 37
Technical Section 38
Case Study 39
Supercut Solid Carbide Mills
B14
Page: Page:
®
Supercut Solid Carbide Mills
B14-2
Reinforced tool
corner
Prevents
chipping
Optimized cutting
edge geometry
For smooth cutting
and mirror surface
nish
Center cutting
For plunging and
ramping operations
Unequal helix
design
For minimum
vibration and high
feed rates
Unequal ute
indexing
Reduces harmonic
vibration
Unique core design
Polished surface
Provides an extra
smooth workpiece
surface nish
CR3 grade
Superior carbide
grade combined with
new generation of
PVD coating
HPC – High
Performance Cutting
High feed rate and
maximum metal
removal
End-Mills Features
®
Supercut Solid Carbide Mills
B14-3
Product Identication
Ordering Codes
Cutting
Diameter
03 = 3 mm
04 = 4 mm
06 = 6 mm
CR-Scut
End Mills Number
of Flutes
C = 3
D
= 4
E
= 5
F
= 6
G
= 7
Corner radius
R05 = 0.5 mm
R07 = 0.7 mm
R10 = 1.0 mm
D
EM 12
Cutting
Length
N - Neck length
N22 = 22 mm
N27 = 27 mm
Carbide
Grade
CR3
CR7
CA5
CR3
Shank Diameter
06 = 6 mm
08 = 8 mm
10 = 10 mm
12 = 12 mm
14 = 14 mm
16 = 16 mm
08 08
A - Aluminum
Machining
B - Ballnose
®
Supercut Solid Carbide Mills
B14-4
High Performance CR-Supercut End-Mills, designed for high feed machining and high
metal removal rate for a wide range of materials. Innovative tool geometry delivers high
performance with low vibration machining in one pass. One tool for semi-nishing and
ne-nishing operation with sharp corner or radii.
• High Performance Cutting (HPC)
• Center cutting
• Low vibration machining
• High metal removal rates in Slotting, Shouldering and Helical Plunging
operations.
• 3-7 utes
High Performance Solid Carbide End-Mills
Carbide grade: CR3
Ultra-Fine carbide grade with high hardness and toughness provides high cutting edge stability and wear
resistance.
A New Generation of PVD Coating for High-Performance Cutting Applications.
Carbide grade: CR7
Optimal combination of high hardness and excellent wear resistance grade, both in dry or wet machining.
Suitable for nishing and semi-nishing of steels, stainless steels and super alloys.
A New Generation of PVD Coating for High-Performance Cutting Applications.
CR-Supercut End-Mills
®
Supercut Solid Carbide Mills
B14-5
Solid Carbide End-Mills 4 utes
Ordering Code d D No. of
Flutes I L
EM 0604 D08 6 4 4 8 57
EM 0605 D10 6 5 4 10 57
EM 0606 D10 6 6 4 10 57
EM 0808 D12 8 8 4 12 63
EM 1010 D14 10 10 4 14 72
EM 1212 D16 12 12 4 16 73
EM 1414 D18 14 14 4 18 75
EM 1616 D24 16 16 4 24 82
EM 2020 D30 20 20 4 30 92
Ordering Code d D No. of
Flutes I L
EM 0603 D08 6 3 4 8 57
EM 0604 D11 6 4 4 11 57
EM 0605 D13 6 5 4 13 57
EM 0606 D16 6 6 4 16 57
EM 0807 D16 8 7 4 16 63
EM 0808 D19 8 8 4 19 63
EM 1009 D20 10 9 4 20 72
EM 1010 D22 10 10 4 22 72
EM 1212 D26 12 12 4 26 83
EM 1414 D26 14 14 4 26 85
EM 1616 D32 16 16 4 32 92
EM 2020 D38 20 20 4 38 104
First choice Alternative
Short Design
Long Design
36˚ 38˚
High Performance Solid Carbide End-Mills
4
4
Grade P M K N S H
CR3 ≤ 48 HRc
CR7 ≤ 58 HRc
Grade P M K N S H
CR3 ≤ 48 HRc
CR7 ≤ 58 HRc
Order example: EM 1212 D16 CR7
Order example: EM 0808 D19 CR3
36˚ 38˚
®
Supercut Solid Carbide Mills
B14-6
Solid Carbide End-Mills 4 utes with corner radius
Ordering Code d D No. of
Flutes RI L
EM 0606 D12 R02 6 6 4 0.2 12 57
EM 0808 D12 R05 8 8 4 0.5 12 63
EM 1010 D14 R05 10 10 4 0.5 14 72
EM 1212 D16 R07 12 12 4 0.7 16 73
EM 1414 D18 R07 14 14 4 0.7 18 75
EM 1616 D24 R10 16 16 4 1.0 24 82
EM 2020 D30 R10 20 20 4 1.0 30 92
Ordering Code d D No. of
Flutes RI L
EM 0603 D08 R03 6 3 4 0.3 8 57
EM 0604 D11 R03 6 4 4 0.3 11 57
EM 0605 D13 R03 6 5 4 0.3 13 57
EM 0606 D16 R05 6 6 4 0.5 16 57
EM 0807 D16 R03 8 7 4 0.3 16 63
EM 0808 D19 R05 8 8 4 0.5 19 63
EM 1010 D22 R03 10 10 4 0.3 22 72
EM 1010 D22 R05 10 10 4 0.5 22 72
EM 1212 D26 R03 12 12 4 0.3 26 83
EM 1212 D26 R07 12 12 4 0.7 26 83
EM 1414 D26 R07 14 14 4 0.7 26 85
EM 1616 D32 R03 16 16 4 0.3 32 92
EM 1616 D32 R10 16 16 4 1.0 32 92
EM 2020 D38 R10 20 20 4 1.0 38 104
First choice Alternative
Short Design
Long Design
4
4
Grade P M K N S H
CR3 ≤ 48 HRc
CR7 ≤ 58 HRc
Grade P M K N S H
CR3 ≤ 48 HRc
CR7 ≤ 58 HRc
Order example: EM 1616 D24 R10 CR3
Order example: EM 1212 D26 R03 CR7
36˚ 38˚
36˚ 38˚
®
Supercut Solid Carbide Mills
B14-7
Solid Carbide End-Mills 4 utes with corner radius and neck
Ordering Code d D I I1 d1 RNo. of
Flutes L
EM 0605 D13 R04 N20 6 5 13 20 4.8 0.4 4 57
EM 0605 D13 R10 N20 6 5 13 20 4.8 1.0 4 57
EM 0606 D13 R05 N22 6 6 13 22 5.8 0.5 4 57
EM 0606 D13 R10 N22 6 6 13 22 5.8 1.0 4 57
EM 0808 D17 R05 N29 8 8 17 29 7.7 0.5 4 80
EM 0808 D17 R10 N29 8 8 17 29 7.7 1.0 4 80
EM 1010 D22 R05 N33 10 10 22 33 9.7 0.5 4 80
EM 1010 D22 R10 N33 10 10 22 33 9.7 1.0 4 80
EM 1212 D26 R05 N40 12 12 26 40 11.6 0.5 4 102
EM 1212 D26 R10 N40 12 12 26 40 11.6 1.0 4 102
EM 1616 D32 R05 N46 16 16 32 46 15.5 0.5 4 105
EM 1616 D32 R10 N46 16 16 32 46 15.5 1.0 4 105
Alternative
4
Grade P M K N S H
CR7 ≤ 58 HRc
First choice Alternative
Order example: EM 0808 D17 R10 N29 CR7
36˚ 38˚
®
Supercut Solid Carbide Mills
B14-8
Solid Carbide End-Mills 5 utes
Solid Carbide End-Mills 5 utes with corner radius
Ordering Code d D No. of
Flutes I L
EM 0606 E13 6 6 5 13 57
EM 0808 E19 8 8 5 19 63
EM 1010 E22 10 10 5 22 72
EM 1212 E26 12 12 5 26 83
EM 1414 E26 14 14 5 26 85
EM 1616 E32 16 16 5 32 92
EM 2020 E38 20 20 5 38 104
Ordering Code d D No. of
Flutes RI L
EM 0606 E13 R05 6 6 5 0.5 13 57
EM 0808 E19 R05 8 8 5 0.5 19 63
EM 1010 E22 R05 10 10 5 0.5 22 72
EM 1212 E26 R07 12 12 5 0.7 26 83
EM 1414 E26 R07 14 14 5 0.7 26 85
EM 1616 E32 R10 16 16 5 1.0 32 92
EM 2020 E38 R10 20 20 5 1.0 38 104
First choice Alternative
Long Design
Long Design
5
5
Grade P M K N S H
CR3 ≤ 48 HRc
CR7 ≤ 58 HRc
Grade P M K N S H
CR3 ≤ 48 HRc
CR7 ≤ 58 HRc
Order example: EM 0606 E13 CR7
Order example: EM 0808 E19 R05 CR7
36˚
36˚
38˚
38˚
®
Supercut Solid Carbide Mills
B14-9
Solid Carbide End-Mills 5 utes with corner radius and neck
Alternative
5
Grade P M K N S H
CR7 ≤ 58 HRc
Ordering Code d D I I1 d1 RNo. of
Flutes L
EM 0606 E13 R05 N22 6 6 13 22 5.8 0.5 5 57
EM 0606 E13 R10 N22 6 6 13 22 5.8 1.0 5 57
EM 0808 E19 R05 N27 8 8 19 27 7.7 0.5 5 80
EM 0808 E19 R10 N27 8 8 19 27 7.7 1.0 5 80
EM 1010 E22 R05 N33 10 10 22 33 9.7 0.5 5 80
EM 1010 E22 R10 N33 10 10 22 33 9.7 1.0 5 80
EM 1212 E26 R05 N38 12 12 26 38 11.6 0.5 5 102
EM 1212 E26 R10 N38 12 12 26 38 11.6 1.0 5 102
EM 1616 E32 R05 N48 16 16 32 48 15.5 0.5 5 105
EM 1616 E32 R10 N48 16 16 32 48 15.5 1.0 5 105
First choice Alternative
Order example: EM 1212 E26 R05 N38 CR7
36˚ 38˚
®
Supercut Solid Carbide Mills
B14-10
Solid Carbide End-Mills 6 utes
Ordering Code d D No. of Flutes l L
EM 0606 F18 6 6 6 18 57
EM 0808 F24 8 8 6 24 63
EM 1010 F30 10 10 6 30 80
EM 1212 F36 12 12 6 36 83
EM 1414 F42 14 14 6 42 100
EM 1616 F48 16 16 6 48 105
EM 2020 F60 20 20 6 60 150
First choice Alternative
Extra-long Design
6
Solid Carbide End Mills 6 utes with corner Radius and neck
6
Grade P M K N S H
CR7 ≤ 58 HRc
Ordering Code d D I I1 d1 RNo. of
Flutes L
EM 1010 F22 R05 N33 10 10 22 33 9.7 0.5 6 80
EM 1010 F22 R10 N33 10 10 22 33 9.7 1.0 6 80
EM 1212 F26 R05 N38 12 12 26 38 11.6 0.5 6 102
EM 1212 F26 R10 N38 12 12 26 38 11.6 1.0 6 102
EM 1616 F34 R05 N48 16 16 34 48 15.5 0.5 6 105
EM 1616 F34 R10 N48 16 16 34 48 15.5 1.0 6 105
EM 2020 F38 R05 N60 20 20 38 60 19.0 0.5 6 150
EM 2020 F38 R10 N60 20 20 38 60 19.0 1.0 6 150
Grade P M K N S H
CR3 ≤ 48 HRc
CR7 ≤ 58 HRc
Order example: EM 1414 F42 CR7
Order example: EM 1010 F22 R10 N33 CR7
36˚ 38˚
36˚ 38˚
®
Supercut Solid Carbide Mills
B14-11
Alternative First choice Alternative
Solid Carbide End-Mills 7 utes with corner radius
Ordering Code d D No. of Flutes Rl L
EM 1010 G30 R05 10 10 7 0.5 30 80
EM 1010 G30 R10 10 10 7 1.0 30 80
EM 1212 G36 R05 12 12 7 0.5 36 102
EM 1212 G36 R10 12 12 7 1.0 36 102
EM 1616 G48 R05 16 16 7 0.5 48 110
EM 1616 G48 R10 16 16 7 1.0 48 110
7
Solid Carbide Ballnose End Mills 4 utes with neck
4
Grade P M K N S H
CR7 ≤ 58 HRc
Grade P M K N S H
CR7 ≤ 58 HRc
Ordering Code d D I I1 d1 No. of
Flutes L
EMB 0605 D09 N14 6 5 9 14 4.8 4 57
EMB 0606 D10 N15 6 6 10 15 5.8 4 57
EMB 0808 D15 N20 8 8 15 20 7.7 4 63
EMB 1010 D18 N25 10 10 18 25 9.7 4 80
EMB 1212 D24 N30 12 12 24 30 11.6 4 83
EMB 1616 D32 N38 16 16 32 38 15.5 4 105
Order example: EM 1010 G30 R05 CR7
Order example: EMB 1010 D18 N25 CR7
36˚ 38˚
36˚ 38˚
®
Supercut Solid Carbide Mills
B14-12
Cutting Data
4 uted End-Mills and Ballnose
Ap ≤ 1xD
Ae= 1xD
Ae ≤ 0.5xD
Ap
= 1.5xD
ISO Materials Class Vc
[m/min]
Fz [mm/tooth]
Cutting Diameter
Ø3 Ø4 - Ø5 Ø6 - Ø7 Ø8 - Ø9 Ø10 Ø12 Ø14 Ø16
Ø20
P
Low & Medium Carbon
Steels <0.55%C 120-160 0.006 0.020 0.030 0.040 0.047 0.056 0.059 0.064 0.078
High Carbon Steels
≥0.55%C 120-160 0.006 0.020 0.030 0.040 0.047 0.056 0.059 0.064 0.078
Alloy Steels, Treated
Steels 100-140 0.005 0.012 0.020 0.030 0.039 0.047 0.049 0.053 0.065
M
Stainless Steel-Free
Cutting 80-140 0.005 0.017 0.020 0.030 0.040 0.047 0.049 0.053 0.065
Stainless Steel-Austenitic 70-130 0.004 0.012 0.020 0.022 0.034 0.04 0.043 0.045 0.055
Cast Steels 70-130 0.004 0.012 0.020 0.022 0.034 0.04 0.043 0.045 0.055
KCast Iron 80-140 0.005 0.017 0.023 0.027 0.039 0.047 0.049 0.053 0.065
S
Heat-resistant alloys 20-40 0.005 0.010 0.018 0.031 0.048 0.056 0.060 0.064 0.077
Titanium alloys 80-100 0.005 0.010 0.018 0.031 0.048 0.056 0.060 0.064 0.077
H
Hardened Steel
<48 HRc 40-70 0.007 0.010 0.017 0.020 0.023 0.025 0.026 0.027 0.028
Hardened Steel
48-58 HRc 35-60 0.005 0.007 0.012 0.015 0.017 0.018 0.019 0.020 0.020
D = Cutting Dia
Technical Section
®
Supercut Solid Carbide Mills
B14-13
5 uted End-Mills
ISO Materials Class Vc
[m/min]
Fz [mm/tooth]
Cutting Diameter
Ø6 Ø8 Ø10 Ø12 Ø14 Ø16 Ø20
P
Low & Medium Carbon Steels <0.55%C 120-160 0.034 0.040 0.050 0.063 0.069 0.076 0.089
High Carbon Steels ≥0.55%C 120-160 0.034 0.040 0.050 0.063 0.069 0.076 0.089
Alloy Steels, Treated Steels 100-140 0.034 0.038 0.050 0.063 0.069 0.076 0.089
M
Stainless Steel-Free Cutting 80-140 0.030 0.032 0.045 0.063 0.065 0.069 0.076
Stainless Steel-Austenitic 70-130 0.030 0.032 0.045 0.063 0.065 0.069 0.076
Cast Steels 70-130 0.030 0.032 0.045 0.063 0.065 0.069 0.076
KCast Iron 80-140 0.035 0.037 0.048 0.068 0.068 0.073 0.080
SHeat-resistant alloys 20-40 0.018 0.031 0.048 0.056 0.060 0.064 0.077
Titanium alloys 80-100 0.018 0.031 0.048 0.056 0.060 0.064 0.077
HHardened Steel <48 HRc 40-70 0.020 0.020 0.025 0.027 0.030 0.035 0.040
Hardened Steel 48-58 HRc 35-60 0.015 0.015 0.018 0.020 0.022 0.026 0.030
®
Supercut Solid Carbide Mills
B14-14
6 uted End-Mills
Ap ≤ 1xD
Ae= 1xD
Ae ≤ 0.1xD
Ae ≤ 0.5xD
Ap
max
Ap
= 1.5xD
A B
ISO Materials Class Vc
[m/min]
Fz [mm/tooth]
Cutting Diameter
Ø6 Ø8 Ø10 Ø12 Ø14 Ø16 Ø20
P
Low & Medium Carbon
Steels <0.55%C
A:120-160 A:0.040 A:0.045 A:0.055 A:0.068 A:0.075 A:0.081 A:0.089
B:240-320 B:0.048 B:0.054 B:0.066 B:0.082 B:0.090 B:0.097 B:0.107
High Carbon Steels
≥0.55%C
A:120-160 A:0.040 A:0.045 A:0.055 A:0.068 A:0.075 A:0.081 A:0.089
B:240-320 B:0.048 B:0.054 B:0.066 B:0.082 B:0.090 B:0.097 B:0.107
Alloy Steels, Treated
Steels
A:100-140 A:0.040 A:0.045 A:0.055 A:0.068 A:0.075 A:0.081 A:0.089
B:200-280 B:0.048 B:0.054 B:0.066 B:0.082 B:0.090 B:0.097 B:0.107
M
Stainless Steel-Free
Cutting
A:80-140 A:0.035 A:0.037 A:0.050 A:0.068 A:0.070 A:0.074 A:0.081
B:160-280 B:0.042 B:0.044 B:0.060 B:0.078 B:0.084 B:0.089 B:0.097
Stainless Steel-Austenitic A:70-130 A:0.035 A:0.037 A:0.050 A:0.068 A:0.070 A:0.074 A:0.081
B:140-260 B:0.042 B:0.044 B:0.060 B:0.078 B:0.084 B:0.089 B:0.097
Cast Steels A:70-130 A:0.035 A:0.037 A:0.050 A:0.068 A:0.070 A:0.074 A:0.081
B:140-260 B:0.042 B:0.044 B:0.060 B:0.078 B:0.084 B:0.089 B:0.097
KCast Iron A:80-140 A:0.038 A:0.040 A:0.053 A:0.071 A:0.073 A:0.077 A:0.084
B:150-270 B:0.045 B:0.047 B:0.063 B:0.081 B:0.087 B:0.092 B:0.100
S
Heat-resistant alloys A:20-40 A:0.018 A:0.031 A:0.048 A:0.056 A:0.060 A:0.064 A:0.077
B:40-80 B:0.022 B:0.037 B:0.058 B:0.067 B:0.072 B:0.077 B:0.098
Titanium alloys A:80-100 A:0.018 A:0.031 A:0.048 A:0.056 A:0.060 A:0.064 A:0.077
B:160-200 B:0.022 B:0.037 B:0.058 B:0.067 B:0.072 B:0.077 B:0.098
H
Hardened Steel
<48 HRc
A:40-70 A:0.023 A:0.025 A:0.030 A:0.033 A:0.036 A:0.040 A:0.045
B:80-140 B:0.028 B:0.030 B:0.036 B:0.040 B:0.043 B:0.048 B:0.054
Hardened Steel
48-58 HRc
A:35-60 A:0.017 A:0.019 A:0.022 A:0.024 A:0.026 A:0.030 A:0.033
B:70-120 B:0.020 B:0.022 B:0.026 B:0.030 B:0.032 B:0.035 B:0.040
®
Supercut Solid Carbide Mills
B14-15
7 uted End-Mills
Ae ≤ 0.1xD
Ae ≤ 0.3xD
Ap
max
Ap = 2xD
A B
ISO Materials Class Vc
[m/min]
Fz [mm/tooth]
Cutting Diameter
Ø10 Ø12 Ø16
P
Low & Medium Carbon Steels
<0.55%C
A:120-160 A:0.055 A:0.068 A:0.081
B:240-330 B:0.066 B:0.082 B:0.097
High Carbon Steels ≥0.55%C A:120-160 A:0.055 A:0.068 A:0.081
B:240-330 B:0.066 B:0.082 B:0.097
Alloy Steels, Treated Steels A:100-140 A:0.055 A:0.068 A:0.081
B:200-280 B:0.066 B:0.082 B:0.097
M
Stainless Steel-Free Cutting A:80-140 A:0.050 A:0.068 A:0.074
B:160-280 B:0.060 B:0.078 B:0.089
Stainless Steel-Austenitic A:70-130 A:0.050 A:0.068 A:0.074
B:140-260 B:0.060 B:0.078 B:0.089
Cast Steels A:70-130 A:0.050 A:0.068 A:0.074
B:140-260 B:0.060 B:0.078 B:0.089
S
Heat-resistant alloys A:20-40 A:0.048 A:0.056 A:0.064
B:40-80 B:0.058 B:0.067 B:0.077
Titanium alloys A:80-100 A:0.048 A:0.056 A:0.064
B:160-200 B:0.058 B:0.067 B:0.077
H
Hardened Steel
<48 HRc
A:40-70 A:0.030 A:0.033 A:0.040
B:80-140 B:0.036 B:0.040 B:0.048
Hardened Steel
48-58 HRc
A:35-60 A:0.022 A:0.024 A:0.030
B:70-120 B:0.026 B:0.030 B:0.035
®
Supercut Solid Carbide Mills
B14-16
• High Performance Cutting (HPC)
• Center cutting
• Low vibration machining
• High metal removal rates in Slotting, Shouldering and Helical Plunging
operations.
• Smooth polished utes, more ute space and open ute design for better chip
ow away from cutting area.
• 3 utes
Carbide Grade: CA5
Ultra-Fine carbide grade with high hardness and toughness provides high cutting
edge stability and wear resistance.
High Performance Solid Carbide End-Mills
for Aluminum machining
CR-Supercut End-Mills
®
Supercut Solid Carbide Mills
B14-17
Ordering Code d D No. of Flutes l L
EMA 0303 C12 3 3 3 12 38
EMA 0404 C12 4 4 3 12 50
EMA 0505 C14 5 5 3 14 50
EMA 0606 C16 6 6 3 16 50
EMA 0808 C20 8 8 3 20 63
EMA 1010 C22 10 10 3 22 72
EMA 1212 C25 12 12 3 25 83
EMA 1414 C32 14 14 3 32 85
EMA 1616 C32 16 16 3 32 92
EMA 2020 C38 20 20 3 38 104
Ordering Code d D No. of Flutes Rl L
EMA 0303 C12 R03 3 3 3 0.3 12 38
EMA 0404 C12 R03 4 4 3 0.3 12 50
EMA 0505 C14 R03 5 5 3 0.3 14 50
EMA 0606 C16 R05 6 6 3 0.5 16 50
EMA 0808 C20 R05 8 8 3 0.5 20 63
EMA 1010 C22 R05 10 10 3 0.5 22 72
EMA 1212 C25 R07 12 12 3 0.7 25 83
EMA 1414 C32 R07 14 14 3 0.7 32 85
EMA 1616 C32 R10 16 16 3 1.0 32 92
EMA 2020 C38 R10 20 20 3 1.0 38 104
3
3
Solid Carbide End-Mills 3 utes
Solid Carbide End-Mills 3 utes with corner radius
Grade P M K N S H
CA5
Grade P M K N S H
CA5
Order example: EMA 1010 C22 CA5
Order example: EMA 1010 C22 R05 CA5 First choice Alternative
36˚ 38˚
36˚ 38˚
®
Supercut Solid Carbide Mills
B14-18
Cutting Data
Cutting conditions for side milling
Ap ≤ 1xD
Ae= 1xD
Ae ≤ 0.5xD
Ap
= 1.5xD
ISO Materials Class Vc
[m/min]
Fz [mm/tooth]
Cutting Diameter
Ø3 Ø4 Ø5 Ø6 Ø8 Ø10 Ø12 Ø14 Ø16
Ø20
N
Aluminum ≤12%Si, Copper 500-1000 0.025 0.035 0.045 0.055 0.070 0.090 0.105 0.125 0.145 0.180
Aluminum >12%Si 500-1000 0.020 0.030 0.038 0.049 0.063 0.081 0.096 0.115 0.130 0.160
Synthetics, duroplastics,
thermoplastics 500-1000 0.025 0.035 0.045 0.055 0.070 0.090 0.105 0.125 0.145 0.180
For slotting, reduce the Fz by 15%-25% depending on the application
Technical Section
®
Supercut Solid Carbide Mills
B14-19
EM 2020 F60
EM 1212 D26 R07
EM 0603 D08
EM 1010 E22 R05
EM 0604 D11
EM 1212 E26
Application Example
®
Supercut Solid Carbide Mills
B14-20
Multi-Function
Milling Tools (MF)
Performs multiple operations with one tool
Eliminates tool changes
Reduces programming and setup times
Reduces tool inventories
Ideal for machines with a limited number of
tool stations
Advantages
Spotting and Drilling
Side milling
Chamfering
Slotting
Grooving
Engraving
Applications
CR3
Ultra-Fine carbide grade with high hardness and toughness provides high cutting edge stability and
wear resistance.
A New Generation of PVD Coating for High-Performance Cutting Applications.
PVD coated New grade for machining hardened materials up to 56 HRc and Super alloys.
CR5
Carbide grades
Demonstration
®
Supercut Solid Carbide Mills
B14-21
Ordering Codes
Product Identication
Multi-Function
Tool
Point angle
90˚
60˚
120˚
Approximate cutting
length
L6 = 6.0 mm
L8 = 8.0 mm
L10 = 10.0 mm
MF
A90
CR3
Carbide Grade
CR3
CR5
04 03 L6
Shank
Diameter
04 = 4 mm
05 = 5 mm
06 = 6 mm
08 = 8 mm
Cutting
Diameter
03 = 3 mm
04 = 4 mm
05 = 5 mm
06 = 6 mm
Ordering Code d D α*T I L
MF 0403 L6 A90 4 3.0 90⁰ 0.3 6.0 51
MF 0504 L8 A90 5 4.0 90⁰ 0.4 8.0 51
MF 0605 L10 A90 6 5.0 90⁰ 0.5 10.0 58
MF 0806 L12 A90 8 6.0 90⁰ 0.6 12.0 64
MF 1008 L16 A90 10 8.0 90⁰ 0.8 16.0 73
MF 1210 L18 A90 12 10.0 90⁰ 1.0 18.0 84
MF 1212 L20 A90 12 12.0 90⁰ 1.2 20.0 84
First choice Alternative
* T = Web thickness No. of Flutes: 2
For 60˚, specify MF…A60 For 120˚, specify MF…A120
Grade P M K N S H
CR3
CR5 ≤ 56 HRc
Order example: MF 1210 L18 A90 CR3
®
Supercut Solid Carbide Mills
B14-22
Working Methods
* A, B, C refers to cutting data on next page.
Side Milling
A
Spotting
BChamfering
AGrooving
C
Chamfer along a
prole
A
Chamfering
Interpolation
A
Engraving
C
Drilling
B
®
Supercut Solid Carbide Mills
B14-23
Cutting Data
A: Side milling, Chamfering
B: Spotting, Drilling
C: Grooving, Engraving
ISO
Standard Materials Class Vc
m/min
Fz mm/tooth
Cutting Diameter
Ø3 - Ø4 Ø5 - Ø6 Ø8 - Ø12
P
Low & Medium Carbon Steels
<0.55%C 50-115
A: 0.003-0.01
B: 0.003-0.007
C: 0.005-0.015
A: 0.005-0.02
B: 0.004-0.009
C: 0.006-0.025
A: 0.013-0.038
B: 0.007-0.015
C: 0.015-0.038
High Carbon Steels ≥0.55%C 40-100
A: 0.002-0.012
B: 0.003-0.007
C: 0.005-0.018
A: 0.005-0.018
B: 0.006-0.01
C: 0.01-0.028
A: 0.009-0.03
B: 0.009-0.018
C: 0.016-0.047
Alloy Steels, Treated Steels 40-100
A: 0.002-0.008
B: 0.003-0.006
C: 0.005-0.015
A: 0.005-0.015
B: 0.004-0.009
C: 0.005-0.018
A: 0.013-0.031
B: 0.006-0.015
C: 0.015-0.031
M
Stainless Steel-Free Cutting 30-85
A: 0.004-0.012
B: 0.003-0.007
C: 0.004-0.018
A: 0.007-0.018
B: 0.004-0.016
C: 0.006-0.018
A: 0.018-0.047
B: 0008-0.024
C: 0.012-0.047
Stainless Steel-Austenitic 25-70
A: 0.005-0.010
B: 0.003-0.006
C: 0.004-0.015
A: 0.006-0.015
B: 0.004-0.015
C: 0.005-0.017
A: 0.017-0.04
B: 0.007-0.02
C: 0.01-0.035
Cast Steels 40-90
A: 0.004-0.012
B: 0.003-0.007
C: 0.004-0.018
A: 0.007-0.018
B: 0.004-0.016
C: 0.006-0.018
A: 0.018-0.047
B: 0008-0.024
C: 0.012-0.047
KCast Iron 30-120
A: 0.003-0.01
B: 0.003-0.007
C: 0.005-0.015
A: 0.005-0.02
B: 0.004-0.009
C: 0.006-0.025
A: 0.013-0.038
B: 0.007-0.015
C: 0.015-0.038
N
Aluminum ≤12%Si, Copper 90-120
A: 0.005-0.008
B: 0.004-0.007
C: 0.005-0.008
A: 0.01-0.02
B: 0.008-0.015
C: 0.01-0.02
A: 0.025-0.045
B: 0.02-0.04
C: 0.025-0.045
Aluminum >12%Si 75-100
A: 0.003-0.006
B: 0.003-0.005
C: 0.003-0.008
A: 0.005-0.015
B: 0.006-0.01
C: 0.005-0.015
A: 0.02-0.032
B: 0.015-0.035
C: 0.02-0.032
Synthetics, Duroplastics,
Thermoplastics 90-120
A: 0.005-0.008
B: 0.004-0.007
C: 0.005-0.008
A: 0.01-0.02
B: 0.008-0.015
C: 0.01-0.02
0.025-0.045
B: 0.02-0.04
C: 0.025-0.045
SNickel alloys, Titanium alloys 20-60
A: 0.004-0.008
B: 0.003-0.007
C: 0.002-0.005
A: 0.007-0.01
B: 0.006-0.008
C: 0.005-0.007
A: 0.01-0.025
B: 0.008-0.02
C: 0.007-0.015
H
Hardened Steel 40-45 HRc 20-60
A: 0.005-0.009
B: 0.004-0.008
C: 0.003-0.006
A: 0.008-0.015
B: 0.007-0.009
C: 0.006-0.008
A: 0.015-0.03
B: 0.009-0.025
C: 0.008-0.02
Hardened Steel 45-56 HRc 10-50
A: 0.004-0.009
B: 0.003-0.008
C: 0.002-0.006
A: 0.007-0.015
B: 0.006-0.009
C: 0.005-0.008
A: 0.014-0.03
B: 0.008-0.025
C: 0.007-0.02
Technical Section
®
Supercut Solid Carbide Mills
B14-24
Carmex solid carbide Roughers are innovative high performance mills,
specically designed for high volume machining applications.
Multi-ute, semi-nish prole and center cutting.
Provides high metal removal rates in Slotting, Shouldering and Helical
Plunging operations.
High Performance Cutting (HPC)
Innovative roughing geometry produces smaller chips
Low cutting forces
Extremely high material removal rate
Reinforced corner chamfer, promotes additional strength for
longer tool life
Designed to machine difcult and abrasive materials
Features
Carbide Grade: CR3
Ultra-Fine carbide grade with high hardness and toughness provides high cutting
edge stability and wear resistance.
CR-Supercut Roughers
A New Generation of PVD Coating for High-Performance Cutting Applications.
®
Supercut Solid Carbide Mills
B14-25
Product Identication
Ordering Codes
Cutting
Diameter
03 = 3 mm
04 = 4 mm
A - Aluminum
Machining
RM =
Roughers
End Mills
Number
of Flutes
C = 3
D = 4
E = 5
06RM
13
D06
The
Approximate
Cutting
Length
Neck Length
N20 = 20 mm
N26 = 26 mm
Z-Radial
internal
coolant
Carbide Grade
CR3
CA5
N18
Shank Diameter
06 = 6 mm
08 = 8 mm
10 = 10 mm
12 = 12 mm
14 = 14 mm
16 = 16 mm
®
Supercut Solid Carbide Mills
B14-26
Solid Carbide Roughers
Ordering Code d D W No. of
Flutes I L
RM 0603 C05 6 3 0.2 3 5 58
RM 0604 C09 6 4 0.3 3 9 58
RM 0605 D10 6 5 0.3 4 10 58
RM 0606 D10 6 6 0.3 4 10 58
RM 0808 D12 8 8 0.3 4 12 64
RM 1010 D14 10 10 0.3 4 14 73
RM 1212 D16 12 12 0.4 4 16 84
RM 1414 D20 14 14 0.5 4 20 84
RM 1616 E27 16 16 0.5 5 27 105
First choice Alternative
Short Design
Long Design
Ordering Code d D W No. of
Flutes I L
RM 0606 D16 6 6 0.3 4 16 58
RM 0807 D16 8 7 0.3 4 16 64
RM 0808 D18 8 8 0.3 4 18 64
RM 1010 D22 10 10 0.3 4 22 73
RM 1212 D26 12 12 0.4 4 26 84
RM 1414 D30 14 14 0.5 4 30 92
RM 1616 E32 16 16 0.5 5 32 92
RM 2020 E40 20 20 0.5 5 40 104
D d
A
L
I
Detail A
W
45˚
Grade P M K N S H
CR3≤ 56 HRc
Grade P M K N S H
CR3≤ 56 HRc
Order example: RM 0606 D10 CR3
Order example: RM 1212 D26 CR3
40˚ 45˚
40˚ 45˚
®
Supercut Solid Carbide Mills
B14-27
Alternative
First choice Alternative
Ordering Code d D I I1 d1 W No. of
Flutes L
RM 0606 D13 N18 6 6 13 18 5.8 0.3 4 58
RM 0808 D17 N24 8 8 17 24 7.7 0.3 4 64
RM 1010 D21 N30 10 10 21 30 9.7 0.3 4 73
RM 1212 D25 N36 12 12 25 36 11.6 0.4 4 84
RM 1616 E33 N48 16 16 33 48 15.5 0.5 5 105
Solid Carbide Roughers with Neck
D d
A
L
I
I1
d1
Detail A
W
45˚
Grade P M K N S H
CR3≤ 56 HRc
Order example: RM 1010 D21 N30 CR3
40˚ 45˚
®
Supercut Solid Carbide Mills
B14-28
Solid Carbide Roughers - Aluminum Machining
High Performance Cutting (HPC)
Optimal ute geometry delivers maximum metal removal rates
and better chip evacuation
Low cutting forces
Reinforced corner chamfer, promotes additional strength for
longer tool life
Uncoated smooth polished surface nish
Features
Ordering Code d D W No. of
Flutes I L
RMA 0604 C08 6 4 0.3 3 8 57
RMA 0606 C16 6 6 0.3 3 16 57
RMA 0808 C19 8 8 0.3 3 19 63
RMA 1010 C22 10 10 0.3 3 22 72
RMA 1212 C26 12 12 0.4 3 26 83
First choice Alternative
Carbide Grade: CA5
Ultra-Fine carbide grade with high hardness and toughness provides high cutting
edge stability and wear resistance.
Detail A
W
45˚
dD
I
A
L
Grade P M K N S H
CA5
Order example: RMA 0604 C08 CA5
40˚
®
Supercut Solid Carbide Mills
B14-29
Alternative
First choice Alternative
Solid Carbide Roughers - Aluminum Machining
Ordering Code d D W No. of
Flutes I L
RMA 0606 C16 Z 6 6 0.3 3 16 58
RMA 0808 C19 Z 8 8 0.3 3 19 64
RMA 1010 C22 Z 10 10 0.3 3 22 73
RMA 1212 C26 Z 12 12 0.4 3 26 84
with internal coolant through the utes
Carbide Grade: CA5
Dd
AL
I
Detail A
W
45˚
Grade P M K N S H
CA5
Order example: RMA 0808 C19 Z CA5
The coolant bores provides high coolant pressure through the tool into the
application pre-hole, and wash the chips away.
®
Supercut Solid Carbide Mills
B14-30
Cutting Data
ISO
Standard Materials Class Vc
[m/min]
Fz [mm/tooth]
Cutting Diameter
Ø3- Ø4
Ø5- Ø6
Ø7- Ø10 Ø12- Ø20
P
Low & Medium
Carbon Steels
<0.55%C
A: 120-180
B: 140-200
A: 0.012-0.02
B: 0.018-0.024
A: 0.025-0.03
B: 0.03-0.036
A: 0.035-0.05
B: 0.048-0.06
A: 0.055-0.08
B: 0.072-0.096
High Carbon
Steels ≥0.55%C
A: 110-160
B: 140-180
A: 0.01-0.015
B: 0.015-0.02
A: 0.015-0.02
B: 0.025-0.03
A: 0.03-0.04
B: 0.035-0.045
A:0.04-0.055
B: 0.06-0.08
Alloy Steels,
Treated Steels
A: 100-140
B: 130-160
A: 0.009-0.012
B: 0.009-0.012
A: 0.015-0.018
B: 0.015-0.018
A: 0.024-0.03
B: 0.024-0.03
A: 0.036-0.048
B: 0.036-0.048
M
Stainless Steel-
Free Cutting
A: 100-140
B: 130-150
A: 0.009-0.012
B: 0.012-0.016
A: 0.015-0.018
B: 0.02- 0.024
A: 0.024-0.03
B: 0.032-0.04
A: 0.036-0.048
B: 0.048-0.064
Stainless Steel-
Austenitic
A: 70-100
B: 90-130
A: 0.008-0.011
B: 0.01-0.016
A: 0.01-0.015
B: 0.015- 0.024
A: 0.02-0.025
B: 0.03-0.04
A: 0.03-0.04
B: 0.045-0.06
Cast Steels A: 120-160
B: 140-180
A: 0.009-0.012
B: 0.012-0.016
A: 0.015-0.018
B: 0.02- 0.024
A: 0.024-0.03
B: 0.032-0.04
A: 0.036-0.048
B: 0.048-0.064
KCast Iron A: 100-160
B: 140-180
A: 0.012-0.02
B: 0.018-0.024
A: 0.025-0.03
B: 0.03-0.036
A: 0.035-0.05
B: 0.048-0.06
A: 0.055-0.08
B: 0.072-0.096
N
Aluminum
≤12%Si, Copper
A: 180-250
B: 200-300
A: 0.015-0.025
B: 0.018-0.03
A: 0.03-0.04
B: 0.035-0.045
A: 0.04-0.06
B: 0.045-0.065
A: 0.06-0.09
B: 0.065-0.095
Aluminum >12%Si A: 100-200
B: 130-250
A: 0.01-0.02
B: 0.01-0.02
A: 0.025-0.035
B: 0.03-0.04
A: 0.035-0.055
B: 0.04-0.05
A: 0.055-0.08
B: 0.05-0.09
Synthetics,
Duroplastics,
Thermoplastics
A: 180-250
B: 200-300
A: 0.015-0.025
B: 0.018-0.03
A: 0.03-0.04
B: 0.035-0.045
A: 0.04-0.06
B: 0.045-0.065
A: 0.06-0.09
B: 0.065-0.095
SNickel alloys, Tita-
nium alloys
A: 50-70
B: 60-80
A: 0.012-0.016
B: 0.012-0.016
A: 0.02-0.024
B: 0.02-0.024
A: 0.032-0.04
B: 0.032-0.04
A: 0.048-0.064
B: 0.048-0.064
H
Hardened Steel
45-50 HRc
A: 50-70
B: 60-80
A: 0.01-0.02
B: 0.018-0.024
A: 0.02-0.025
B: 0.025-0.03
A: 0.03-0.04
B: 0.04-0.05
A: 0.04-0.06
B: 0.06-0.08
Hardened Steel
51-56 HRc
A: 40-60
B: 50-70
A: 0.01-0.015
B: 0.015-0.02
A: 0.015-0.025
B: 0.02-0.025
A: 0.02-0.035
B: 0.025-0.04
A: 0.03-0.055
B: 0.035-0.065
Roughers Roughers with Neck
D1 = Cutting
Dia
A B C D
Ap=1XD1
Ap=1XD1
Ap=1XD1
Ap=1.5XD1
Ae=1XD1
Ae=1XD1
Ae=0.5XD1
Ae=0.4XD1
Roughers with neck (C, D) can be used with same feed and speed as below.
Technical Section
®
CMT Roughers and Finishers
B14-31
Indexable
CMT Roughers and Finishers
Solid and accurate clamping method enables full repeatability
Working at high machining parameters
Modular system using the standard CMT tool holders with various shank
options
Enables machining with large overhang
For excellent performance
RM =
Roughers
End Mills
EM =
Finish
End Mills
RM
Number
of Flutes
F = 6
F
Cutting
Diameter
160 = 16.0 mm
170 = 17.0 mm
200 = 20.0 mm
160
Width
50 = 5.0 mm
W50C
C = CMT
Inserts
Carbide
Grade
CR3
Product Identication
Ordering Codes
Carbide grade: CR3
Ultra-Fine carbide grade with high hardness and toughness provides high cutting edge stability
and wear resistance.
A New Generation of PVD Coating for High-Performance Cutting Applications.
®
CMT Roughers and Finishers
B14-32
Finishers
Insert
Type Ordering Code D No. of
Flutes WR
S20 CEM160 F W50 16.0 6 5.0 0.1
S20 CEM170 F W50 17.0 6 5.0 0.1
S20 CEM200 F W50 20.0 6 5.0 0.1
Grade P M K N S H
CR3≤ 56 HRc
Order example: CEM200 F W50 CR3
Insert
Type Ordering Code D No. of
Flutes W CH
S20 CRM160 F W50 16.0 6 5.0 0.4
S20 CRM170 F W50 17.0 6 5.0 0.4
S20 CRM200 F W50 20.0 6 5.0 0.4
Roughers
The CMT Roughers should be used with the toolholders shown on page B14-33
D
Cutting Diameter
w
CHx45˚
Grade P M K N S H
CR3≤ 56 HRc
Order example: CRM170 F W50 CR3
First choice Alternative
D
Cutting Diameter
30˚
30˚
®
CMT Roughers and Finishers
B14-33
Carbide Shank Toolholders With internal coolant
Ordering Code Insert
Type d D2 I L Insert
Screw
Torx
Key
CRC 1218 P S20 12 12.0 - 170 S16 K16
CRC 1618 L48 R S20 16 13.8 48 195 S16 K16
CRC 1618 L74 R S20 16 13.8 74 195 S16 K16
Ordering Code Insert
Type d D2 I L Insert
Screw
Torx
Key
SRC 1618 F S20 16 12.0 25 80 S16 K16
SRC 1618 G S20 16 12.0 40 90 S16 K16
SRC 1618 H S20 16 13.8 48 100 S16 K16
SRC 2018 H S20 20 13.8 32 100 S16 K16
SRC 2018 J S20 20 13.8 48 110 S16 K16
SRC 2018 L S20 20 13.8 74 140 S16 K16
Steel Toolholders With internal coolant
Alternative
®
Supercut Solid Carbide Mills
B14-34
High Performance milling tools, designed for high feed rates with shallow cutting
depths.
Innovative tool geometry enables extremely high Material Removal Rate (MRR)
and high machine productivity.
High feed machining is the rst choice for applications with deep and shallow
workpiece features, 3D proling, mold & die applications and machining in
unstable conditions.
• High Performance Cutting (HPC)
• Up to 3xD neck length allowing ramping or helical interpolation working
techniques
• High rates of material removal, provides a reduced cycle time
• Same tool for roughing or semi-nishing operations
• For a wide range of materials up to 62 HRc
Carbide grade: CR3
Ultra-Fine carbide grade with high hardness and toughness provides high cutting edge stability and wear
resistance.
A New Generation of PVD Coating for High-Performance Cutting Applications.
CR-Supercut High Feed End-Mills
®
Supercut Solid Carbide Mills
B14-35
Multi-function
operation
Ramping,
Helical interpolation
Face milling
Short utes and
large core
For high rigidity
Optimized cutting-
edge geometry
For maximum
material removal rate
Long neck
Allows extended
reach to deep
applications
HPC – High
Performance Cutting
High feed rate for
maximum material
removal rate
CR3 grade
Superior carbide
grade combined with
new generation of
PVD coating
CR-Supercut High Feed End-Mills
Features
®
Supercut Solid Carbide Mills
B14-36
Product Identication
Ordering Codes
Cutting
Diameter
03 = 3 mm
04 = 4 mm
06 = 6 mm
08 = 8 mm
10 = 10 mm
12 = 12 mm
16 = 16 mm
CR-Scut
High Feed End
Mills
Neck Length
N09 = 9 mm
N10 = 10 mm
N15 = 15 mm
N20 = 20 mm
N26 = 26 mm
N30 = 30 mm
HFM N30
Carbide
Grade
CR3
CR3
Shank Diameter
6 = 6 mm
8 = 8 mm
10 = 10 mm
10 10
®
Supercut Solid Carbide Mills
B14-37
Ordering Code d D No. of
Flutes RI L
HFM 0603 N09 6 3 4 0.4 9 57
HFM 0604 N10 6 4 4 0.5 10 57
HFM 0605 N15 6 5 4 0.8 15 57
HFM 0606 N20 6 6 4 0.9 20 57
HFM 0808 N26 8 8 4 1.3 26 63
HFM 1010 N30 10 10 4 1.7 30 72
HFM 1212 N34 12 12 4 2.1 34 83
HFM 1616 N42 16 16 4 2.7 42 110
4
Grade P M K N S H
CR3 ≤ 62 HRc
Order example: HFM 0603 N09 CR3
Solid Carbide High Feed End-Mills
First choice Alternative
0˚
®
Supercut Solid Carbide Mills
B14-38
Cutting Data
ISO Materials
Cutting
Speed Vc
[m/min]
Feed Fz [mm/tooth]
Tool Cutting Diameter
Ø3 Ø4 Ø5 Ø6 Ø8 Ø10 Ø12 Ø16
P
Low & Medium Carbon Steels
<0.55%C 140 - 200 0.25 0.25 0.30 0.35 0.35 0.45 0.55 0.60
High Carbon Steels ≥0.55%C 140 - 200 0.25 0.25 0.30 0.35 0.35 0.45 0.55 0.60
Alloy Steels, Treated Steels 120 - 200 0.20 0.20 0.25 0.30 0.30 0.40 0.50 0.55
M
Stainless Steel-Free Cutting 100 - 140 0.10 0.15 0.20 0.20 0.30 0.30 0.40 0.50
Stainless Steel-Austenitic 90 - 130 0.10 0.10 0.15 0.15 0.20 0.20 0.30 0.40
Cast Steels 90 - 130 0.10 0.10 0.15 0.15 0.20 0.20 0.30 0.40
KCast Iron 100 - 140 0.10 0.15 0.20 0.20 0.30 0.30 0.40 0.50
S
Heat-resistant alloys 70 - 90 0.10 0.10 0.10 0.15 0.15 0.20 0.20 0.25
Titanium alloys 80 - 100 0.10 0.10 0.10 0.15 0.15 0.20 0.20 0.25
H
Hardened Steel 45-50 HRc 80 - 190 0.15 0.15 0.20 0.25 0.25 0.35 0.45 0.50
Hardened Steel 51-56 HRc 80 - 180 0.10 0.10 0.10 0.20 0.20 0.30 0.40 0.40
Hardened Steel 56-62 HRc 40 - 80 0.10 0.10 0.10 0.15 0.15 0.20 0.25 0.30
D = Cutting Dia
Technical Section
®
Supercut Solid Carbide Mills
B14-39
Case Study
Application
Pocket machining by helical interpolation
Workpiece material
Tempered steel SAE 4340
Hardness: 45 HRc
End-Mill description
HFM 0604 N10 CR3
Shank diameter: Ø6 mm
Cutting diameter: Ø4 mm
Number of utes: 4
Neck length: 10 mm
Cutting conditions
Cutting speed: 170 m/min
Feed: 0.15 mm/tooth
Ap=0.2 mm
Machine
Mazak Integrex
Coolant: emulsion 6%
Results
Tool life: The tool worked 94 minutes and is still in good condition to continue.
Ramping angle Feed
1° 100%
2° 80%
3° 70%
4° 60%
5° 50%
Ramping
®
Supercut Solid Carbide Mills
B14-40
B15-1
Contents: Contents:
Product Identication
Mini Chamfer 90
˚,
60
˚,
150
˚
Mini Chamfer Dovetail 45˚
Mini Chamfer Kit
Solid Carbide radius llet End-Mills
Countersink
Technical Section
Mini Chamfer Cutting Data
Solid Carbide radius llet End-Mills Cutting Data
Countersink Cutting Data
2
3-4
5
5
6
7
8-10
8
9
10
Mini Chamfer and Countersink
B15
Page: Page:
®
Mini Chamfer and Countersink
B15-2
Product Identication
Mini Chamfer, Solid Carbide Radius Fillet End-Mills and Countersink
MC 03 C
Shank Diameter
03 = 3 mm
04 = 4 mm
05 = 5 mm
06 = 6 mm
08 = 8 mm
10 = 10 mm
12 = 12 mm
No. of Flutes
B = 2
C = 3
D = 4
E = 5
F = 6
Carbide Grade
MT8
CR3
K20
Cutting Diameter
For Mini Chamfer
and Radius Fillet
015 = 1.5 mm
03 = 3 mm
04 = 4 mm
06 = 6 mm
Neck Length For
Mini Chamfer
and Radius Fillet
3 = 3 mm
4 = 4 mm
5 = 5 mm
6 = 6 mm
L = Long
L = 105 mm
R = Radius
R05 = 0.5 mm
R10 = 1.0 mm
Mini Chamfer
A = Prole Angle
A60 = 60˚
A90 = 90˚
A45 = 45˚
A150 = 150˚
Ordering Codes
®
Mini Chamfer and Countersink
B15-3
90˚
Ordering Code d D I H B αNo. of
Flutes L
MC 03015 C3 A90 3 1.5 3.8 0.3 0.4 90˚3 39
MC 0302 C5 A90 3 2.0 5.0 0.4 0.5 90˚ 3 39
MC 03025 C6 A90 3 2.5 6.3 0.5 0.6 90˚3 39
MC 0303 C7 A90 3 3.0 7.5 0.6 0.7 90˚3 39
MC 04035 C9 A90 4 3.5 8.8 0.7 0.8 90˚3 51
MC 0404 C10 A90 4 4.0 10.0 0.8 0.9 90˚3 51
MC 05045 C11 A90 5 4.5 11.3 1.0 1.1 90˚3 51
MC 0505 C12 A90 5 5.0 12.5 1.1 1.2 90˚3 51
MC 06055 C13 A90 6 5.5 13.8 1.2 1.3 90˚3 51
MC 0606 C15 A90 6 6.0 15.0 1.5 1.6 90˚3 51
0.2
Mini Chamfer
Optimal for deburring, back chamfering and grooving.
Double side cutting.
Spiral ute allows smooth cutting action.
Sub-micron grade with advanced PVD triple coating (ISO K10-K20). Extremely high heat resistant
and smooth cutting operation, for high performance and normal machining condition.
General purpose for all materials.
Carbide grade: MT8
↓
↓
↓
↓
Grade P M K N S H
MT8 ≤ 50 HRc
Order example: MC 0302 C5 A90 MT8
Demonstration
First choice Alternative
®
Mini Chamfer and Countersink
B15-4
Long Reach 90˚
Ordering Code d D I H B αNo. of
Flutes L
MC 0303 C12 A90 3 3.0 12.0 0.6 0.7 90˚ 3 39
MC 04035 C14 A90 4 3.5 14.0 0.7 0.8 90˚ 3 51
MC 0404 C16 A90 4 4.0 16.0 0.8 0.9 90˚ 3 51
MC 0404 C16L A90 4 4.0 16.0 0.8 0.9 90˚ 3 105
MC 05045 C18 A90 5 4.5 18.0 1.0 1.1 90˚ 3 51
MC 0505 C20 A90 5 5.0 20.0 1.1 1.2 90˚ 3 51
MC 0505 C20L A90 5 5.0 20.0 1.1 1.2 90˚ 3 105
MC 06055 C22 A90 6 5.5 22.0 1.2 1.3 90˚ 3 58
MC 0606 C24 A90 6 6.0 24.0 1.5 1.6 90˚ 3 58
MC 0606 C24L A90 6 6.0 24.0 1.5 1.6 90˚ 3 105
MC 0808 D28 A90 8 8.0 28.0 1.6 1.7 90˚ 4 64
MC 0808 D28L A90 8 8.0 28.0 1.6 1.7 90˚ 4 105
MC 1010 E35 A90 10 10.0 35.0 1.8 1.9 90˚ 5 73
MC 1212 F42 A90 12 12.0 42.0 2.1 2.2 90˚ 6 84
60˚
Ordering Code d D I H B αNo. of
Flutes L
MC 0302 C5 A60 3 2.0 5.0 0.4 0.3 60˚3 39
MC 0303 C7 A60 3 3.0 7.5 0.6 0.3 60˚3 39
MC 04035 C9 A60 4 3.5 8.8 0.7 0.5 60˚3 51
MC 0404 C10 A60 4 4.0 10.0 0.8 0.5 60˚3 51
MC 05045 C11 A60 5 4.5 11.3 1.0 0.6 60˚3 51
MC 0505 C12 A60 5 5.0 12.5 1.1 0.7 60˚3 51
150˚
Ordering Code d D I H B No. of
Flutes L
MC 0303 C12 A150 3 3.0 12.0 0.6 2.2 3 39
MC 0404 C16 A150 4 4.0 16.0 0.8 3.0 3 51
MC 0404 C16L A150 4 4.0 16.0 0.8 3.0 3 105
MC 0505 C20 A150 5 5.0 20.0 1.0 3.8 3 51
MC 0505 C20L A150 5 5.0 20.0 1.0 3.8 3 105
MC 0606 C24 A150 6 6.0 24.0 1.0 3.8 3 58
MC 0606 C24L A150 6 6.0 24.0 1.0 3.8 3 105
MC 0808 C28 A150 8 8.0 28.0 1.0 3.8 3 64
MC 0808 C28L A150 8 8.0 28.0 1.0 3.8 3 105
Order example: MC 0303 C12 A150 MT8
Grade P M K N S H
MT8 ≤ 50 HRc
Grade P M K N S H
MT8 ≤ 50 HRc
First choice Alternative
®
Mini Chamfer and Countersink
B15-5
Dovetail 45˚
Kit Description: Kit KMC
Ordering Code d D I H αNo. of
Flutes L
MC 03015 C4 A45 3 1.5 4.5 0.3 45˚3 39
MC 0302 C6 A45 3 2.0 6.0 0.4 45˚3 39
MC 03025 C7 A45 3 2.5 7.5 0.5 45˚ 3 39
MC 0303 C12 A45 3 3.0 12.0 0.6 45˚ 3 39
MC 04035 C14 A45 4 3.5 14.0 0.7 45˚ 3 51
MC 0404 C16 A45 4 4.0 16.0 0.8 45˚ 3 51
MC 05045 C18 A45 5 4.5 18.0 1.0 45˚ 3 51
MC 0505 C20 A45 5 5.0 20.0 1.1 45˚ 3 51
MC 06055 C22 A45 6 5.5 22.0 1.2 45˚ 3 58
MC 0606 C24 A45 6 6.0 24.0 1.5 45˚ 3 58
One side cutting
0.1
Mini Chamfer Kit
MC 0303 C12 A90
MC 03025 C6 A90
MC 0404 C10 A90
MC 04035 C9 A90
MC 05045 C11 A90
MC 0606 C24 A90
1
1
1
1
1
1
Contents Qty
Grade P M K N S H
MT8 ≤ 50 HRc
Order example: MC 0303 C12 A45 MT8
Alternative
First choice Alternative
®
Mini Chamfer and Countersink
B15-6
Tools for different radius lleting
Two, three and four utes
Cylindrical shank DIN6535-HA
Solid Carbide radius llet End-Mills
Features
Carbide grade: CR3
Ultra-Fine carbide grade with high hardness and toughness provides high cutting edge stability and
wear resistance.
A New Generation of PVD Coating for High-Performance Cutting Applications.
Ordering Code d D l RWNo. of
Flutes L
MC 0302 B8 R02 3 2.0 8.0 0.2 1.4 2 38
MC 03025 B9 R03 3 2.5 9.0 0.3 1.6 2 38
MC 03025 B10 R04 3 2.5 10.0 0.4 2.0 2 38
MC 0303 B12 R05 3 3.0 12.0 0.5 2.2 2 38
MC 0605 C20 R05 6 5.0 20.0 0.5 2.5 3 57
MC 0605 C25 R06 6 5.0 25.0 0.6 2.7 3 57
MC 0606 C30 R08 6 6.0 30.0 0.8 3.3 3 57
MC 08065 C35 R10 8 6.5 35.0 1.0 3.7 3 63
MC 08075 D35 R12 8 7.5 35.0 1.2 4.1 4 63
MC 10085 D35 R15 10 8.5 35.0 1.5 4.9 4 72
MC 1009 D35 R18 10 9.0 35.0 1.8 5.6 4 72
MC 1010 D35 R20 10 10.0 35.0 2.0 6.0 4 72
MC 1211 D35 R25 12 11.0 35.0 2.5 7.5 4 83
MC 1212 D35 R30 12 12.0 35.0 3.0 8.5 4 83
W
l
Grade P M K N S H
CR3≤ 50 HRc
Order example: MC 0303 B12 R05 CR3 First choice Alternative
®
Mini Chamfer and Countersink
B15-7
Ordering Code d D I1 L No. of
Flutes α
MC03 D A60 3 0.2 2.4 38
460˚
MC04 D A60 4 0.3 3.2 50
MC05 D A60 5 0.4 4.0 50
MC06 D A60 6 0.5 4.8 57
MC08 D A60 8 0.6 6.4 63
MC10 D A60 10 0.8 8.0 72
MC12 D A60 12 1.0 9.5 83
MC03 D A90 3 0.2 1.4 38
490˚
MC04 D A90 4 0.3 1.8 50
MC05 D A90 5 0.4 2.3 50
MC06 D A90 6 0.5 2.7 57
MC08 D A90 8 0.6 3.7 63
MC10 D A90 10 0.8 4.6 72
MC12 D A90 12 1.0 5.5 83
Countersink
Solid Carbide chamfering End-Mills
Tools for 45˚ and 30˚ chamfering and deburring
Four utes
Cylindrical shank DIN6535-HA (Weldon shank available upon request)
Features
CR3
Ultra-Fine carbide grade with high hardness and toughness provides high cutting edge
stability and wear resistance.
A New Generation of PVD Coating for High-Performance Cutting Applications
Uncoated Sub-Micron carbide grade for Aluminum and non-ferrous materials, Stainless Steels
and Titanium.
K20
Carbide grades
Grade P M K N S H
CR3≤ 58 HRc
K20
Order example: MC04 D A90 K20 First choice Alternative
Alternative
®
Mini Chamfer and Countersink
B15-8
Technical Section
Cutting Data
Mini Chamfer
ISO Materials
Cutting
Speed
m/min
Feed mm/tooth
Cutting Diameter=D
Ø1.5 Ø2 Ø3 Ø4 Ø5 Ø6 Ø7 Ø8 Ø9 Ø10 Ø12 Ø14 Ø16
P
Low and Medium Carbon
Steels <0.55%C
60 - 120 0.03 0.04 0.05 0.06 0.08 0.09 0.10 0.11 0.11 0.11 0.12 0.13 0.13
High Carbon Steels ≥0.55%C
60 - 90 0.02 0.04 0.04 0.06 0.06 0.07 0.08 0.09 0.10 0.10 0.11 0.12 0.13
Alloy Steels, Treated Steels
50 - 80 0.02 0.03 0.04 0.04 0.04 0.05 0.05 0.06 0.06 0.07 0.08 0.09 0.10
M
Stainless Steels - Free Cutting
70 - 100 0.01 0.02 0.03 0.04 0.04 0.04 0.05 0.06 0.06 0.07 0.08 0.08 0.09
Stainless Steels - Austenitic
60 - 90 0.01 0.02 0.03 0.04 0.04 0.04 0.05 0.06 0.06 0.07 0.08 0.08 0.09
Cast Steels
70 - 90 0.02 0.03 0.04 0.04 0.04 0.05 0.05 0.06 0.06 0.07 0.08 0.09 0.10
K
Cast Iron
4 0 - 80 0.03 0.04 0.05 0.06 0.08 0.09 0.10 0.11 0.11 0.11 0.12 0.13 0.13
N
Aluminum ≤12%Si, Copper
100 - 200 0.03 0.04 0.05 0.06 0.08 0.09 0.10 0.11 0.11 0.11 0.12 0.13 0.13
Aluminum >12% Si
60 - 140 0.02 0.02 0.03 0.04 0.04 0.04 0.05 0.06 0.06 0.07 0.08 0.09 0.10
Synthetics, Duroplastics,
Thermoplastics
50 - 200 0.06 0.08 0.08 0.10 0.11 0.13 0.13 0.13 0.13 0.13 0.13 0.14 0.14
S
Nickel Alloys, Titanium Alloys
20 - 40 0.02 0.02 0.03 0.03 0.04 0.04 0.04 0.04 0.05 0.05 0.05 0.06 0.06
H
Hardened Steel, 45-50 HRc
60 - 70 0.02 0.03 0.04 0.04 0.04 0.04 0.05 0.05 0.06 0.06 0.06 0.07 0.08
®
Mini Chamfer and Countersink
B15-9
Cutting Data
ISO Materials Class
Cutting Speed
Vc
(m/min)
Fz [mm/tooth]
Ø1-Ø2 Ø3-Ø4 Ø6-Ø8 Ø10-Ø12 Ø16
P
Low & Medium Carbon Steels
<0.55%C 60-70 0.010 0.012 0.015 0.020 0.030
High Carbon Steels ≥0.55%C 40-60 0.010 0.012 0.015 0.020 0.030
Alloy Steels, Treated Steels 30-40 0.010 0.012 0.013 0.017 0.025
M
Stainless Steel-Free Cutting 20-30 0.007 0.010 0.010 0.015 0.020
Stainless Steel-Austenitic 20-30 0.007 0.010 0.010 0.015 0.020
Cast Steels 20-30 0.007 0.010 0.010 0.015 0.020
KCast Iron 30-40 0.010 0.012 0.013 0.017 0.025
N
Aluminum ≤6%Si, Copper 70-100 0.012 0.012 0.015 0.020 0.030
Aluminum >6%Si 90-150 0.012 0.012 0.015 0.020 0.030
Synthetics, duroplastics,
thermoplastics 100-150 0.015 0.025 0.030 0.040 0.050
SNickel alloys, Titanium alloys. 15-30 0.007 0.010 0.010 0.015 0.020
HHardened Steel, 45-50 HRc 20-40 0.007 0.010 0.013 0.017 0.025
Application example
Solid Carbide radius llet End-Mills
®
Mini Chamfer and Countersink
B15-10
Cutting Data
ISO Materials Class
Cutting Speed
Vc
(m/min)
P
Low & Medium Carbon Steels <0.55%C 120 - 240
High Carbon Steels ≥0.55%C 80 - 180
Alloy Steels, Treated Steels 50 - 120
M
Stainless Steel-Free Cutting 70 - 100
Stainless Steel-Austenitic 60 - 140
Cast Steels 70 - 100
KCast Iron 80 - 160
N
Aluminum ≤6%Si, Copper 150 - 500
Aluminum >6%Si 100 - 250
Synthetics, duroplastics, thermoplastics 80 - 200
SNickel alloys, Titanium alloys. 30 - 90
H
Hardened Steel, 45-50 HRc 60 - 70
Hardened Steel, 51-58 HRc 50 - 60
Countersink
d
Feed
fz
mm/tooth
Ø3-Ø4 0.04 - 0.06
Ø5-Ø6 0.05 - 0.07
Ø8 0.06 - 0.08
Ø10 0.07 - 0.10
Ø12 0.08 - 0.15
B16-1
Contents: Contents:
Introduction
Indexable inserts and holder - U Type
Mini Mill Thread - MTI
CMT- Vertical Milling
CMT- Multi Spiral Flute
Indexable inserts and holder - V type
Applying a Gear Milling request
2
2
3
3
3
4
4
Gear Milling
B16
Page: Page:
®
Gear Milling
B16-2
Weldon shank
Gear Milling
Innovative tools for producing Gears, Spline and Rack offering versatile solutions
according to customer’s application.
Wide range of inserts geometries and grades.
Proles according to DIN 5480, DIN 867, ANSI B92.1 standards.
Same tool can be used for different gear sizes and proles
Variety of production options on advanced machining centers,
multi task machines and 5 axis machines
In most cases the components can be machined with just one setup
High Flexibility
Carmex Gear Milling line is based on standard or special
toolholders and custom made inserts according to
customer’s application, for maximum exibility and short
delivery time. All tools prole are fully ground
and highly accurate.
Inserts with up to three cutting edges
Multi ute
For relatively large proles, and high-powered cuts
High precision insert’s pockets and insert’s tips to
ensure small run-outs
Indexable inserts and holder - U Type
Shell Mill
®
Gear Milling
B16-3
Mini Mill Thread - MTI
Solid carbide tool for high rigidity and stability
For small and medium proles
3 to 6 cutting edges
Large range of carbide grades
Vertical gear milling cutters with indexable inserts
3 to 4 cutting edges
Standard steel or carbide CMT toolholders
With internal coolant
CMT - Vertical Milling
Multi spiral ute (6 to 8) for high performance and
smooth cutting
Standard steel or carbide CMT toolholders
With internal coolant
CMT - Multi Spiral Flute
®
Gear Milling
B16-4
Disc Mill
Inserts with up to three cutting edges
High precision inserts pocket and inserts
tip to ensure small run-outs
Indexable inserts and holder - V type
Every Gear / Spline request has its own geometry and specications,
in order to provide the best solution the following data is needed:
Gear / Spline standard
Complete drawing of the required Gear / Spline standard, according
the following specications:
- Shape of tooth
- Number of teeth
- Major pitch and minor diameter
- Quality requirements
- Gear / Spline material
Preferred solution: Solid carbide or holder with inserts
Appling a Gear Milling request
