^
/
TDDTDDL
Technical
Information
for
Auto
Tools
Tooling
example
for
small
CNC
automatic
Lathe
(
type
)
Recommendation
for
Auto
Tooling
-
©
S
'
:
©
3
^
-
3
Sa
©
©
©©©
©
External
/
Copying
O
Zoj
o
U
I
ta
a
Q
I
I
£
Cut
-
off
Back
Grooving
External
Threading
Turning
Tools
installed
on
gang
tool
post
I
I
15
^
Tooling
example
for
a
small
CNC
automatic
Lathe
(
turret
type
)
i
I
=
!
d
1
1
d
d
£
§§
001
002
A
\
Technical
Information
for
Auto
Tools
General
Turning
Inserts
Explained
Roughing
and
Finishing
Long
Work
on
Swiss
Lathes
Advantage
for
each
geometry
I
Conventional
toolholders
are
not
suitable
for
roughing
or
finishing
of
long
parts
.
The
guide
-
bushing
cannot
hold
machined
bar
stock
.
CC
.
.
Style
(
80
°
)
DC
..
Style
(
55
°
)
VB
/
VC
/
VP
Style
(
35
°
)
Single
pass
machining
is
common
in
Swiss
front
turning
operations
.
-
D
§
30
-
I
'
Guide
-
bushing
Guide
-
bushing
'
45
-
Shifted
Holders
Increased
toughness
.
Cutting
edge
is
close
to
insert
pocket
.
Not
applicable
to
undercut
Versatile
geometry
.
Toughness
of
CC
..
with
flexibility
of
VC
.
.
Up
to
30
deg
.
undercuts
Wide
coverage
in
work
geometry
.
Up
to
45
deg
.
undercuts
1
SCLC
-
N
-
F
Shifted
Holders
make
a
finishing
process
possible
without
worrying
about
the
bar
stock
coming
out
of
the
guide
-
bushing
.
Coolant
flows
effectively
which
improves
chip
control
thanks
to
the
increased
room
between
the
tools
and
guide
-
bushing
.
:
Chip
Control
and
Finish
SDJC
-
N
-
F
SVJC
-
N
-
F
@
u
SCLCR
SDJCR
SDNCN
Guide
-
bushing
Sh
Combination
of
Grooving
Tool
and
DS
Holders
Rigid
clamping
High
dimensional
repeatability
Increased
room
for
chip
evacuation
creates
better
surface
finish
Chips
flow
away
from
the
work
Rough
with
grooving
tool
for
good
chip
control
Finish
by
using
general
turning
inserts
with
DS
Holders
3
t
*
t
003
004
A
\
Auto
Tools
(
ISO
Type
)
0
SCACR
/
L
-
FF
S
-
SCLCL
Without
setoff
,
External
/
Facing
External
Sleeve
Holder
(
External
/
Facing
)
1
I
i
!
m
!
S
L
i
.
16
.
H
Lw
L
20
L
-
i
-
J
L
H
0
*
80
/
Only
SCACR
/
L
1010
-
X
09
A
is
designed
as
above
picture
.
1
si
H
h
T
1
-
it
d
7
Q
CD
Left
-
hand
shown
Right
-
hand
Insert
for
Left
-
hand
Toolholder
.
Spare
parts
Stock
Dimensions
(
mm
)
Spare
parts
Designation
Insert
Stock
Dimensions
(
mm
)
h
i
S
R
L
H
W
L
Designation
Insert
Wrench
screw
d
R
L
H
L
S
BD
Wrench
screw
SCACR
/
L
0808
-
X
06
FF
8 8 8
10
120
8
CCDT
0602
nn
M
2.5
x
7
T
-
8
S
12
F
-
SCLCL
06
12.000
80
6
13.4
11
1010
-
X
06
FF
10 10
10
10
120
10
M
2.5
x
7
T
-
8
S
14
H
-
SCLCL
06
14.000
13
100
6
13.4
1010
-
X
09
FF
10 10
10
13
120
10
S
15
F
-
SCLCL
06
15.875
15
85
6
15.4
CCDT
09
T
3
nn
1212
-
X
09
FF
12 12
12
16
120
12
M
4.0
X
10
T
-
15
S
16
F
-
SCLCL
06
16.000
15
85
6
15.4
1616
-
X
09
FF
16 16
16
16
120
16
CC
010602
S
19
G
-
SCLCL
06
19.050
17
90
6
18.4
M
2.5
x
7
T
-
8
S
19
K
-
SCLCL
06
19.050
17
120
6
18.4
S
20
G
-
SCLCL
06
20.000
18
90
6
19.4
SCLCR
/
L
-
FF
S
20
K
-
SCLCL
06
20.000
18
120
6
19.4
S
19
G
-
SCLCL
09
19.050
17
90
10
18.4
Without
setoff
,
External
/
Facing
S
19
K
-
SCLCL
09
19.050
17
120
10
18.4
S
20
G
-
SCLCL
09
20.000
18
90
10
19.4
CCDT
09
T
3
nn
M
4.0
X
7
T
-
15
S
20
K
-
SCLCL
09
20.000
18
120
10
19.4
*
9
K
-
21
S
w
A
S
25
H
-
SCLCL
09
25.000
23
100
10
24.4
*
L
iVH
T
!
®
s
S
25
K
-
SCLCL
09
25.400
23
120
10
24.8
'
95
*
I
L
*
Only
SCLCR
/
L
1010
-
X
09
A
is
designed
as
above
picture
.
*
i
-
h
I
Spare
parts
Stock
Dimensions
(
mm
)
Designation
Insert
h
R
L
H
W
L
S
l
Wrench
screw
SCLCR
/
L
0808
-
X
06
FF
8 8 8
10
120
8
CCnT
0602
DD
M
2.5
x
7
T
-
8
1010
-
X
06
FF
10 10 10 10
120
10
1010
-
X
09
FF
10 10 10
13
120
10
CCDT
09
T
3
DD
1212
-
X
09
FF
12
12 12
16
120
12
M
4.0
X
10
T
-
15
1616
-
X
09
FF
16 16 16 16
120
16
005
006
A
\
Auto
Tools
(
ISO
Type
)
0
Inserts
CCGT
SDJCR
/
L
-
FF
Without
setoff
,
External
/
Copying
r
4
i
K
*
S
w
di
T
93
*
t
l
L
X
Only
SDJCR
/
L
0808
-
X
07
A
,
1010
-
X
11
A
,
1212
-
X
11
A
is
designed
as
above
picture
.
*
7
H
s
*
*
Steel
^
Stainless
steel
Machining
Type
t t
t
S S
X
*
M
Spare
parts
o
Stock
Dimensions
(
mm
)
flIB
*
t t
Cast
iron
Non
-
ferrous
metal
O
Heat
resistant
alloy
,
Titanium
alloy
CD
Hardened
steel
Designation
Insert
h
R
L
H
W
i
L
S
K
Continuous
cutting
General
cutting
Interrupted
cutting
Wrench
screw
CD
s
SDJCR
/
L
0808
-
X
07
FF
8 8 8
18
120
8
2
DCDT
0702
nn
M
2.5
x
7
T
-
8
1010
-
X
07
FF
10
10
10
15
120
12
H
1010
-
X
11
FF
10
10
10
18
120
10
4
Dimensions
(
mm
)
Coated
Uncoated
Cermet
DCDTllT
3
Dn
1212
-
X
11
FF
12 12
12
18
120
10
2
M
4.0
X
10
T
-
15
co
1616
-
X
11
FF
16 16
16
22
120
12
LD
O
LD
LR
un
LTl
O
CO
o
CN
Designations
r
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i
(
N
m
m
LD
o
rn
O
CNJ
§
CO
rn
co
CO
CO
co
£
I
d
dl
t
co
=
)
r
CL
Q
_
CL
CL CL CL
CL
CL
SDLCR
/
L
-
FF
Without
setoff
,
External
/
Copying
o o
CCGT
-
F
030102
R
-
F
4.0
3.500
1.39
0.2
1.9
030104
R
-
F
4.0
3.500
1.39
0.4
1.9
O O
030102
L
-
F
4.0
3.500
1.39
0.2
1.9
O
O
030104
L
-
F
4.0
3.500
1.39
0.4
1.9
A
A
O
040102
R
-
F
4.8
4.300
1.79
0.2
2.3
O
W
s
OO
040104
R
-
F
4.8
4.300
1.79
0.4
2.3
f
I
f
2.3
O
040102
L
-
F
4.8
4.300
1.79
0.2
95
'
L
0
SDLC
&
1010
..
-
11
FF
SDLC
&
1212
..
-
11
FF
shows
above
tiger
O
4.300
1.79
2.3
040104
L
-
F
4.8
0.4
i
I
CCGT
-
U
060202
ER
-
U
O
6.5
6.350
2.38
0.2
2.8
h
Right
-
hand
shown
O
060204
ER
-
U
6.5
6.350
2.38
0.4
2.8
O
060202
EL
-
U
6.5
6.350
2.38
0.2
2.8
060204
EL
-
U
6.5
6.350
2.38
0.4
2.8
O
Spare
parts
Stock
Dimensions
(
mm
)
09
T
302
ER
-
U
9.7
9.525
3.97
0.2
4.4
O
Designation
Insert
09
T
304
ER
-
U
9.7
9.525
3.97
0.4
4.4
O
h
f
H
W
L
S
K
R
L
Wrench
screw
09
T
302
EL
-
U
9.7
9.525
3.97
0.2
4.4
O
SDLCR
/
L
1010
-
X
07
FF
10
10 10
120
10
0
9.525
3.97
09
T
304
EL
-
U
9.7
0.4
4.4
O
DCDT
0702
Dn
1212
-
X
07
FF
1212 12
120
12
0
M
2.5
x
7
T
-
8
060202
R
-
W
15
6.5
6.350
2.38
0.2
2.8
O
CCGT
-
W
1616
-
X
07
FF
16
16
16
120
16
0
060204
R
-
W
15
6.5
6.350
2.38
0.4
2.8
O
1010
-
X
11
FF
10
10
10
120
10
0
4
060202
L
-
W
15
6.5
6.350
2.38
0.2
2.8
O
1212
-
X
11
FF
12
12 12
120
12
0
DCDTllT
3
nn
2
M
4.0
X
10
T
-
15
O
060204
L
-
W
15
6.5
6.350
2.38
0.4
2.8
1616
-
X
11
FF
16
16
16
120
16
0
09
T
302
R
-
W
20
9.7
9.525
3.97
0.2
4.4
O
1212
-
F
07
FF
12 12 12
80
12
0
DCDT
0702
DD
M
2.5
x
7
T
-
8
09
T
304
R
-
W
20
9.7
9.525
3.97
0.4
4.4
O
1010
-
FUFF
10
10 10
80
10
0
4
09
T
302
L
-
W
20
9.7
9.525
3.97
0.2
4.4
O
1212
-
FUFF
12 12 12
80
12
0
DcDTimnn
2
o
M
4.0
X
10
T
-
15
09
T
304
L
-
W
20
9.7
9.525
3.97
0.4
4.4
1616
-
HUFF
16
16 16
100
16
0
007
008
A
\
Auto
Tools
(
ISO
Type
)
0
SDXCR
/
L
External
/
Facing
/
Copying
S
-
SDUCL
/
SDLCL
External
Sleeve
Holder
(
External
/
Facing
)
T
k
-
20
^
(
r
1
1
£
[
S
w
H
T
s
L
KAPR
H
or
2
a
H
L
0
'
KAPR
=
93
(
S
-
SDUC
)
KAPR
=
95
°
(
S
-
SDLC
)
=
30
°
(
S
-
SDUC
)
=
28
(
S
-
SDLC
)
f
f
(
S
-
SDUC
,
3
-
F
^
'
(
S
-
SDLC
)
5
°
-
'
7
SDXCR
/
t
1010
JX
-
11
shows
above
figure
I
Si
h
X
0
Right
-
hand
shown
e
Fig
.
1
Left
-
hand
shown
Right
-
hand
Insert
for
Left
-
hand
Toolholder
.
Spare
parts
Spare
parts
Stock
Stock
Dimensions
(
mm
)
Dimensions
(
mm
)
Designation
Insert
Designation
Insert
Fig
.
R
L
h
d
f
S
R
L
S
H
W
L
H
L
Wrench Wrench
screw
screw
DC
T
0702
SDXCR
/
L
1010
-
X
07
10 10 10
120
12
M
2.5
x
7
T
-
8
S
14
H
-
SDUCL
07
14.000
13
100
6
3.8
1
1010
-
X
11
10 10 10
120
12
S
15
F
-
SDUCL
07
15.875
15
85
6
3.8
1
1212
-
X
11
12
12
12
120
16
Dcnnmnn
S
19
G
-
SDUCL
07
19.050
17
90
6
3.8
1
M
4.0
X
10
T
-
15
DCnT
0702
DD
M
2.5
x
6
T
-
8
1616
-
X
11
16 16 16
120
20
S
19
K
-
SDUCL
07
19.050
17
120
6
3.8
1
S
20
G
-
SDUCL
07
20.000
18
90
6
3.8
1
3.8
S
20
K
-
SDUCL
07
20.000
18
120
6
1
S
19
G
-
SDUCL
11
19.050
17
90
5.8
10
1
S
19
K
-
SDUCL
11
19.050
17
120
10
5.8
1
SDNCN
-
FF
S
20
G
-
SDUCL
11
20.000
18
90
10
5.8
1
Dcorirrann
M
4.0
x
9
T
-
15
S
20
K
-
SDUCL
11
20.000
18
120
10
5.8
1
Without
setoff
,
External
/
Copying
S
22
K
-
SDUCL
11
22.000
20
120
10
5.8
1
S
25
H
-
SDUCL
11
25.000
23
100
10
5.8
1
»
[
<
§
>
"
*
D
2.5
*
S
25
K
-
SDUCL
11
25.400
23
120
10
5.8
1
w
2
±
i
S
12
F
-
SDLCL
07
12.000
11
80
6
3.8
1
Tt
s
*
3.8
S
14
H
-
SDLCL
07
14.000
13
100
6
2
L
S
15
F
-
SDLCL
07
15.875
15
85
6
3.8
2
*
Only
SDNCN
1010
-
X
11
A
is
designed
as
above
picture
.
i
S
16
F
-
SDLCL
07
16.000
15
85
6
3.8
2
DCnT
0702
DD
M
2.5
x
6
T
-
8
H
h
62.5
°
T
S
19
G
-
SDLCL
07
19.050
17
90
6
3.8
2
S
19
K
-
SDLCL
07
19.050
17
120
6
3.8
2
S
20
G
-
SDLCL
07
20.000
18
90
6
3.8
2
S
20
K
-
SDLCL
07
20.000
18
120
6
3.8
2
Spare
parts
Stock
Dimensions
(
mm
)
S
19
G
-
SDLCL
11
19.050
17
90
10
5.8
2
Designation
Insert
h
H
W
L
S
R
L
S
19
K
-
SDLCL
11
19.050
17
120
10
5.8
2
Wrench
screw
S
20
G
-
SDLCL
11
20.000
2
18
90
10
5.8
SDNCN
0808
-
X
07
FF
10 10
10
120
4
DCDT
0702
Dn
Dcorirrann
M
2.5
x
7
T
-
8
M
4.0
x
9
T
-
15
S
20
K
-
SDLCL
11
20.000
120
5.8
2
18
10
1010
-
X
07
FF
12
12
12
120
5
S
22
K
-
SDLCL
11
22.000
20
120
10
5.8
2
1010
-
X
11
FF
10
10
10
120
7
S
25
H
-
SDLCL
11
25.000
23
100
10
5.8
2
DcDTimnn
1212
-
X
11
FF
12
12 12
120
6
M
4.0
X
10
T
-
15
S
25
K
-
SDLCL
11
25.400
23
120
10
5.8
2
1616
-
X
11
FF
16 16
16
120
8
009
010
A
\
Auto
Tools
(
ISO
Type
)
Inserts
DCGT
SVJBR
/
L
-
FF
Without
setoff
,
External
/
Copying
r
idi
d
i
u
3
Vr
t
*
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S
-
16
DR
1.00
12
0.03
8.7
3
5
16
°
T
2
f
Uri
7
*
~
i
I
-
KTKF
^
1616
JX
-
.
.
KTKF
^
2020
JX
-
..
shows
above
figure
125
-
S
-
16
DR
1.25
12
0.03
8.7
3
5
16
°
re
*
.
*
150
-
S
-
16
DR
1.50
12
0.03
8.7
3
5
16
°
xo
\
-
;
-
<
1
iV
'
T
;
200
-
S
-
16
DR
2.00
12
0.03
8.7
3
5
16
°
'
X
h
TKFC
16
R
/
L
150
-
S
-
16
DR
1.50
16
0.05
9.5
5
16
°
4
1
KTKF
\
2020
..
shows
above
figure
L
200
-
S
-
16
DR
2.00
16
0.05
9.5
5
16
°
4
KTKF
\
1010
JX
-
^
shows
above
figure
Coated
Size
LTJ
o
Spare
parts
CM
CM
Shape
Designation
Configuration
Stock
Dimensions
(
mm
)
o
CO
d
W
H
T
B
CO
Designation
Insert
a
re
5
2
CL
h
Q
_
R
L
H
W
H
T
L
S
Wrench
screw
KTKFR
/
L
1010
JX
-
12
10 10 10
15
6
120
10
TKFB
12
R
/
L
15
-
005
-
M
1.50
0.25
<
0.05
8.7
3
5.2
2.6
1212
JX
-
12
12 12 12
6
120
12
28
-
005
-
M
2.80
8.7
3
5.2
0.30
<
0.05
4.6
TKFD
12
R
/
L
T
-
15
M
4.5
x
9
120
1616
JX
-
12
16 16
16
6
16
2.80
0.30
<
0.10
8.7
3
5.2
4.6
28
-
010
-
M
m
-
120
2020
JX
-
12
20 20 20
6
20
TKFB
16
R
/
L
38
-
005
-
M
3.80
0.30
<
0.05
9.5
4
5.2
6.3
120
1010
JX
-
16
10 10 10
20
8
10
38
-
010
-
M
3.80
0.30
<
0.10
9.5
4
5.2
6.3
120
1212
JX
-
16
12 12 12
8
12
TKFD
16
R
/
L
M
4.5
x
9
T
-
15
120
1616
JX
-
16
16 16 16
8
16
Pitch
Coated
Size
120
2020
JX
-
16
20 20 20
8
20
un
O
IN
Shape
Designation
Configuration
CM
o
CO
d
TPI
T
W
H
SI
S
2
e
*
co
mm
re
>
CL
CL
max
0.05
TKFT
12
R
/
L
A
60
-
000
0.20
-
0.60
64
-
48
3
2.5
9
0.40
2.10
5.2
0
d
CO
^
4
B
60
-
000
0.20
-
0.60
64
-
48
3
2.5
9
2.10
0.40
5.2
Flat
J
3
i
60
°
A
60
-
005
0.50
-
1.25
48
-
24
3
2.5
9
0.80
1.70
5.2
0.05
B
60
-
005
0.50
-
1.25
48
-
24
3
2.5
9
1.70
0.80
5.2
x
N
60
-
010
1.00
-
1.50
24
-
18
3
2.5
9
1.25
1.25
0.1
5.2
A
55
-
005
40
-
16
3
2.5
9
0.80
1.70
5.2
0.05
55
°
B
55
-
005
40
-
16
3
2.5
9
1.70
0.80
5.2
Lead
angle
(
0
)
indicates
the
angle
when
installed
in
toolholder
.
021
022
A
\
Auto
Tools
for
Multi
Utility
Insert
Cutting
Diameter
Dmax
KTKFSR
/
L
For
Micro
Diameter
Cutt
-
off
at
Sub
Spindle
Fig
.
1
When
Using
Main
Spindle
Only
Fig
.
2
Main
Spindte
^
©
\
K
Workpiece
max
,
Dl
=
Dmax
.
Even
if
the
cutting
edge
runs
beyond
the
center
line
,
the
insert
does
not
contact
the
workpiece
,
since
the
workpiece
falls
off
.
(
The
clearance
between
the
insert
and
the
work
is
0.2
mm
)
ef
i
II
?
3
EH
lii
I
&
A
n
L
t
Right
-
hand
Shown
R
-
hand
Insert
for
R
-
hand
Toolholder
.
When
the
edge
is
at
the
center
.
When
the
edge
is
1
mm
beyond
the
center
.
&
*
7
i
AI
n
I
L
%
n
KTKFSR
/
L
1010
K
-
12
A
KTKFSR
/
L
1010
K
-
16
A
only
for
left
shape
3
«
Fig
.
3
Fig
.
4
When
Using
Both
Main
and
Sub
Spindle
t
Left
-
hand
shown
L
-
hand
Insert
for
L
-
hand
Toolholder
.
Workpiece
max
,
D
2
=
Dmax
-
(
Programmed
distance
beyond
the
center
)
x
2
In
this
case
,
when
the
cutting
dege
runs
beyond
the
center
line
,
the
insert
will
contact
the
workpiece
,
since
the
workpiece
does
not
fall
off
.
Therefore
the
programmed
distance
beyond
the
center
must
be
considered
.
When
the
cutting
edge
is
programmed
to
run
1
mm
beyond
the
center
,
[
D
2
=
Dmax
-
lmmx
2
]
(
Max
.
clearance
between
insert
and
workpiece
is
0.2
mm
in
radius
)
Main
Spindle
Sub
Spindle
l
1
Spare
parts
\
Dimensions
(
mm
)
Designation
<
DD
max
*
Insert
-
FBEII
-
h
H
W
il
h
13
L
S
T
Wrench
screw
KTKFSR
/
L
1010
-
K
12
A
6
-
12
10
10 10
15
22
26
125
5
6
1212
-
F
12
A
6
-
12 12 12
12
22
26
85
5
6
TKFD
12
R
/
L
M
4.5
x
9
T
-
15
When
the
cutting
edge
locates
at
the
workpiece
center
.
When
the
cutting
edge
exceeds
1
mm
over
the
workpiece
.
1212
-
K
12
B
6
-
12 12
12
12
26
26
125
5
6
1010
-
K
16
A
14
-
16
10
10 10
20
22
30
125
5
6
TKFD
16
R
/
L
M
4.5
X
9
T
-
15
1212
-
F
16
A
14
-
16
12
12
12
22
30
85
5
6
1212
-
K
16
B
14
-
16
12 12 12
26
30
125
5
6
*
Dimension
T
shows
the
distance
from
the
Toolholder
to
the
cutting
edge
.
Cutting
diameter
(
<
j
>
Dsmax
)
depends
on
the
insert
grooving
width
.
Only
Right
-
hand
is
available
for
13
dimension
.
023
024
A
\
Auto
Tools
for
Multi
Utility
Inserts
Turning
tiny
tool
code
system
Coated
Size
150
ISO
-
2
TTIM
45
TT
060
T
R
15
LD
r
\
j
8
Shape
Designation
Configuration
3
§
d
W
±
0.03
Dmax
H
T
0
*
re
1
2
3
4
5
6
8
9
7
}
f
\
f
f
\
\
f
\
f
_
Q
_
Max
.
Depth
Process
Figure
Main
code
Insert
size
Type
of
Hand
of
operation
Insert
Thread
Profile
Cutting
edge
Carbide
Grades
MX
*
TKFS
12
R
/
L
100
-
S
1.00
6
0.05
8.7
2.2
4.4
0
°
Main
Code
Insert
Size
iijfilgq
Type
of
operation
150
-
S
1.50
9
0.05
8.7
2.2
4.4
0
°
o
200
-
S
2.00
0.05
8.7
2.2
0
°
12
4.4
/
xo
>
150
-
S
1.50
0.05
9.5
2.2
0
°
14
4.4
TKFS
16
R
/
L
200
-
S
2.00
16
0.05
9.5
2.2
4.4
0
°
B
=
Boring
BP
=
Profiling
&
Boring
BB
=
Back
Boring
BF
=
Chamfering
BU
=
FaceCuting
BC
=
Copying
BW
=
Chamfering
&
Profiling
G
=
Square
Grooving
GR
=
Round
Grooving
GF
=
Face
Grooving
GRF
=
Round
Face
Grooving
T
=
Threading
TD
=
Threading
Relief
GV
=
Deep
Face
Grooving
010
:
1.0
mm
015
:
1.5
mm
020
:
2.0
mm
030
:
3.0
mm
040
:
4.0
mm
050
:
5.0
mm
060
:
6.0
mm
070
:
7.0
mm
080
:
8.0
mm
100
:
10.0
mm
0
XX
:
Special
size
*
As
Fig
.
1
shows
,
cutting
diameter
of
Insert
indicates
the
cutting
diameter
when
the
top
of
the
cutting
edge
is
programmed
to
run
1
mm
beyond
center
.
Lead
angle
(
0
)
shows
the
angle
when
installed
in
toolholder
.
TT
=
Tiny
Tool
Fig
.
1
Fig
.
2
As
Fig
.
l
shows
,
KTKFS
is
applicable
when
minimal
clearance
exists
between
the
main
spindle
and
sub
spindle
.
Main
Spindle
Main
Spindle
'
Short
Distance
Hand
of
Insert
Max
.
Depth
Process
Figure
Long
Distance
KB
150
Sub
Spindle
Sub
Spindle
As
Fig
.
2
shows
,
please
use
KTKFL
when
additional
clearance
is
available
.
This
will
offer
improve
rigidity
.
Boring
:
Nose
radius
Grooving
:
Grooving
width
Threading
:
Partial
profile
:
F
60
A
60
or
A
55
AG
60
orAg
55
Full
profile
:
ISO
Metric
American
UN
Tarpez
DIN
103
ACME
05
:
5.0
mm
20
:
20.0
mm
25
:
25.0
mm
30
:
30.0
mm
35
:
35.0
mm
10
:
10.0
mm
15
:
15.0
mm
R
=
Right
hand
style
L
=
Left
hand
style
Thread
Profile
Cutting
Edge
Carbide
Grades
naa
0
TTIM
45
ISO
-
ISO
Metric
UN
-
American
UN
(
UNC
,
UNF
,
UNEF
,
UNS
)
ACME
-
ACME
TR
-
Tarpez
DIN
103
None
:
Single
ended
2
:
Double
ended
TTIP
30
TTIM
45
TTIS
30
N
400
025
026
A
\
Technical
Information
for
Tiny
Tools
Recommended
Grade
&
Their
Applications
Sample
Grade
Application
Type
P
20
-
P
30
K
20
-
K
30
,
general
use
carbide
grade
for
tiny
tool
medium
to
high
cutting
speed
,
TiALN
coated
TTIM
45
K
10
-
K
20
,
premium
multipurpose
submicron
grade
for
stronger
wear
resistance
and
improved
productivity
.
Ideal
for
steel
and
stainless
steel
in
unstable
cutting
conditions
.
AITiN
alloyed
PVD
coated
.
TTIS
30
K
10
-
K
20
.
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
.
N
400
Types
s
O
)
g
CQ
Copying
Min
.
dia
.
of
machining
:
04.2
Chamfering
Min
.
dia
.
of
machining
:
03.2
Min
.
dia
.
of
machining
:
04.2
Boring
Min
.
dia
.
of
machining
:
03.2
Back
Boring
H
3
E
.
i
5
§
e
o
Round
Grooving
Min
.
dia
.
of
machining
:
03.2
Face
Grooving
Min
.
dia
.
of
machining
:
06.0
Square
Grooving
Min
.
dia
.
of
machining
:
03.2
I
*
2
-
C
Threading
Min
.
dia
.
of
machining
:
03.3
027
028
A
\
Technical
Information
for
Tiny
Tools
Recommended
Feed
f
[
mm
/
rev
]
and
Max
Depth
[
mm
]
Recommended
Grades
,
Cutting
Speeds
Vc
[
m
/
min
]
Max
Depth
[
mm
/
rev
]
Feed
[
mm
/
rev
]
Vc
[
m
/
min
]
Material
Group
Hardness
Material
Group
Hardness
Material
Material
Brinell
HB
Brinell
HB
TTIM
45
TTIS
30
N
400
Boring
Grooving
Boring
Low
Carbon
(
C
=
0.1
-
0.25
%
)
Low
Carbon
(
C
=
0.1
-
0.25
%
)
125
50
-
120
140
-
200
125
0.05
0.03
0.40
Unalloyed
Steel
Medium
Carbon
(
C
=
0.25
-
0.55
%
)
Medium
Carbon
(
C
=
0.25
-
0.55
%
)
150
40
-
100
120
-
180
150
0.04
0.02
0.40
30
-
80
Unalloyed
Steel
High
Carbon
(
C
=
0.55
-
0.85
%
)
High
Carbon
(
C
=
0.55
-
0.85
%
)
170
30
-
80
110
-
180
170
0.03
0.01
0.40
Non
Hardened
Non
Hardened
180
50
-
70
100
-
155
180
0.04
0.02
0.30
Low
Alloy
Steel
(
alloying
elements
<
5
%
)
Low
Alloy
Steel
(
alloying
elements
<
5
%
)
Hardened Hardened
275
40
-
60
90
-
145
25
-
50
275
0.04
0.01
0.30
Hardened Hardened
350
30
-
50
80
-
135
350
0.03
0.01
0.30
Steel
Steel
Annealed Annealed
200
30
-
50
65
-
115
200
0.04
0.02
0.15
High
Alloy
Steel
(
alloying
elements
>
5
%
)
Hardened Hardened
325
25
-
40
325
0.03
0.15
50
-
100
0.01
Cast
Steel
25
-
50
Low
Alloy
(
alloying
elements
<
5
%
)
Low
Alloy
(
alloying
elements
<
5
%
)
200
30
-
50
30
-
50
200
0.04
0.02
0.15
Cast
Steel
High
Alloy
(
alloying
elements
>
5
%
)
High
Alloy
(
alloying
elements
>
5
%
)
225
25
-
40
25
-
40
225
0.04
0.02
0.15
Non
Hardened
Non
Hardened
200
60
-
100
80
-
120
200
0.04
0.01
0.20
Stainless
SteelFerritic
Stainless
Steel
Ferritic
Hardened Hardened
330
40
-
60
55
-
95
330
0.03
0.01
0.15
Austenitic
Stainless
Steel
Austenitic
Austenitic
180
50
-
90
60
-
100
180
0.04
0.01
0.20
Stainless
SteelAustenitic
30
-
60
Super
Austenitic
Super
Austenitic
200
40
-
60
50
-
90
200
0.04
0.01
0.15
Non
Hardened
Non
Hardened
200
40
-
60 60
-
80
200
0.04
0.02
0.20
Stainless
steel
Stainless
steel
Stainless
Steel
Cast
Ferritic
Stainless
Steel
Cast
Ferritic
Hardened Hardened
330
330
30
-
50
45
-
65
0.03
0.01
0.15
Austenitic Austenitic
200
40
-
60
50
-
70
200
0.04
0.02
0.20
Stainless
Steel
Cast
Austenitic
Stainless
Steel
Cast
Austenitic
Hardened Hardened
330
30
-
50
40
-
60
330
0.03
0.01
0.15
Ferritic
(
short
chips
)
Ferritic
(
short
chips
)
130
50
-
70
60
-
80
130
0.02 0.02
0.25
Malleable
Cast
Iron
20
-
50
Malleable
Cast
Iron
Pearlitic
(
long
chips
)
Pearlitic
(
long
chips
)
230
50
-
70
60
-
80
230
0.01 0.01
0.25
K K
Low
Tensile
Strength
Low
Tensile
Strength
180
50
-
70
60
-
80
180
0.02
0.02
0.40
Grey
Cast
Iron
Grey
Cast
Iron
30
-
80
High
Tensile
Strength
High
Tensile
Strength
260
40
-
60
40
-
70
260
0.01 0.01
0.40
Cast
iron
Cast
iron
Ferritic Ferritic
160
50
-
70
60
-
80
160
0.02
0.02
0.40
Nodular
Sg
Iron
Nodular
Sg
Iron
30
-
80
Pearlitic Pearlitic
260
60
-
80
70
-
90
260
0.01
0.01
0.40
Non
Aging
Non
Aging
60
100
-
300
80
-
240
60
0.03
0.03
0.50
N
N
Aluminum
Alloys
Wrought
Aluminum
Alloys
Wrought
60
-
120
Aged Aged
100
100
-
150
100
-
170
100
0.03
0.03
0.50
Cast
75
100
-
150 100
-
150
Cast
75
0.03
0.03
0.50
Aluminum
Alloys
(
K
)
(
K
)
Aluminum
Alloys
50
-
90
Cast
8
i
Aged
Cast
&
Aged
90
60
-
100
60
-
100
90
0.03
0.03
0.50
Aluminum
Alloys
Aluminum
Alloys
Cast
Si
13
-
22
%
Cast
Si
13
-
22
%
Non
-
Ferrous
material
130
100
-
150 100
-
150
Non
-
Ferrous
material
130
0.02
0.02
0.50
Brass
90
60
-
100
80
-
200
Brass
90
0.03
0.03
0.50
Copper
and
Copper
Alloys
Copper
and
Copper
Alloys
30
-
70
Bronze
and
Non
Leaded
Copper
Bronze
and
Non
Leaded
Copper
100
60
-
100
80
-
200
100
0.03
0.03
0.50
Annealed
(
iron
based
)
Annealed
(
iron
based
)
200
25
-
45
25
-
45
200
0.04
0.01
0.20
S
Aged
(
iron
based
)
Aged
(
iron
based
)
280
20
-
30
20
-
30
280
0.03
0.01
0.15
S
15
-
40
High
Temperature
Alloys
High
Temperature
Alloys
Annealed
(
nickel
or
cobalt
based
)
Annealed
(
nickel
or
cobalt
based
)
250
15
-
20
15
-
20
250
0.01 0.01
0.15
Aged
(
nickel
or
cobalt
based
)
Aged
(
nickel
or
cobalt
based
)
350
10
-
15
10
-
15
350
0.01
0.01
0.15
Heat
Resistant
material
Heat
Resistant
material
Pure
99.5
Ti
Pure
99.5
Ti
400
Rm
60
-
100
60
-
100
400
Rm
0.02
0.02
0.15
Titanium
Alloys
Titanium
Alloys
10
-
30
a
+
p
alloys
1050
Rm
40
-
50
40
-
50
1050
Rm
0.02
0.02
0.15
H H
20
-
40
15
-
40
45
-
50
HRC
20
-
45 45
-
50
HRC
0.01 0.01
0.05
Extra
Hard
Steel
Extra
Hard
Steel
Hardened
&
Tempered
Hardened
&
Tempered
Hardened
Material
Hardened
Material
51
-
55
HRC
20
-
40
20
-
40
15
-
40
51
-
55
HRC
0.01 0.01
0.05
029
030
A
\
Auto
Tools
for
Mini
-
system
TTDBR
/
L
For
Micro
Diameter
Boring
TTDBR
/
L
For
Micro
Diameter
Boring
I
J
E
2
s
§
§
L
1
L
1
6
°
r
-
6
°
iiffl
T
3
^
ir
Lr
II
d
f
d
f
Designation
LI
L
R
Dmin
Designation
LI
L
R
Dmin
tmax tmax
a
a
TT
006
BR
/
L
03
-
R
0.03
0.50
3
0.25
3
40
0.01
0.03
0.7
TT
040
BR
/
L
15
-
R
0.20
3.60
4
1.90
15
50
0.20 0.20
4.1
008
BR
/
L
04
-
R
0.05
0.70
3
0.35
4
40
0.02
0.05
0.9
040
BR
/
L
22
-
R
0.20
3.60
4
1.90
22
50
0.20 0.20
4.1
010
BR
/
L
04
-
R
0.05
0.90
3
0.45
4
40
0.03
0.05
1.1
040
BR
/
L
30
-
R
0.20
3.60
4
1.90
30
65
0.20 0.20
4.1
015
BR
/
L
06
-
R
0.15
1.35
3
0.75
6
40
0.05 0.15
1.6
050
BR
/
L
15
-
R
0.05
4.60
5
2.40
15
50
0.30
0.05
5.1
015
BR
/
L
09
-
R
0.15
1.35
3
0.75
9
40
0.05 0.15
1.6
050
BR
/
L
22
-
R
0.05
4.60
5
2.40
22
50
0.30
0.05
5.1
020
BR
/
L
06
-
R
0.05
1.80
3
0.90
6
40
0.10
0.05
2.1
050
BR
/
L
15
-
R
0.10
4.60
5
2.40
15
50
0.30
0.10
5.1
020
BR
/
L
10
-
R
0.05
1.80
3
0.90
10
40
0.10
0.05
2.1
050
BR
/
L
22
-
R
0.10
4.60
5
2.40
22
50
0.30
0.10
5.1
020
BR
/
L
10
-
R
0.10
1.80
3
0.90
10
0.10 0.10
2.1
050
BR
/
L
30
-
R
0.10
4.60
5
2.40
30
65
0.30
0.10
5.1
40
020
BR
/
L
15
-
R
0.10
1.80
3
0.90
15
40
0.10 0.10
2.1
050
BR
/
L
15
-
R
0.20
4.60
5
2.40
15
50
0.30
0.20
5.1
020
BR
/
L
06
-
R
0.15
1.80
3
0.90
6
40
0.10
0.15
2.1
050
BR
/
L
22
-
R
0.20
4.60
5
2.40
22
50
0.30
0.20
5.1
020
BR
/
L
10
-
R
0.15
1.80
3
0.90
10
40
0.10
0.15
2.1
050
BR
/
L
30
-
R
0.20
4.60
5
2.40
30
65
0.30
0.20
5.1
020
BR
/
L
15
-
R
0.15
1.80
3
0.90
15
40
0.10
0.15
2.1
050
BR
/
L
35
-
R
0.20
4.60
5
2.40
35
65
0.30
0.20
5.1
025
BR
/
L
10
-
R
0.15
2.30
3
1.15
10
40
0.12
0.15
2.6
050
BR
/
L
15
-
R
0.40
4.60
5
2.40
15
50
0.30
0.40
5.1
025
BR
/
L
15
-
R
0.15
2.30
3
1.15
15
40
0.12
0.15
2.6
050
BR
/
L
22
-
R
0.40
4.60
5
2.40
22
50
0.30
0.40
5.1
030
BR
/
L
10
-
R
0.05
2.70
3
1.40
10
40
0.15 0.05
3.1
050
BR
/
L
30
-
R
0.40
4.60
5
2.40
30
65
0.30
0.40
5.1
030
BR
/
L
15
-
R
0.05
2.70
3
0.15 0.05
3.1
060
BR
/
L
15
-
R
0.05
5.50
2.90
15
1.40
15
40
6
50
0.40
0.05
6.1
030
BR
/
L
10
-
R
0.10
2.70
3
1.40
10
40
0.15
0.10
3.1
060
BR
/
L
22
-
R
0.05
5.50
6
2.90
22
50
0.40
0.05
6.1
030
BR
/
L
15
-
R
0.10
2.70
3
1.40
15
40
0.15
0.10
3.1
060
BR
/
L
15
-
R
0.10
5.50
6
2.90
15
50
0.40
0.10
6.1
030
BR
/
L
10
-
R
0.20
2.70
3
1.40
10
40
0.15
0.20
3.1
060
BR
/
L
22
-
R
0.10
5.50
6
2.90
22
50
0.40 0.10
6.1
030
BR
/
L
15
-
R
0.20
2.70
3
1.40
15
40
0.15
0.20
3.1
060
BR
/
L
15
-
R
0.20
5.50
6
2.90
15
50
0.40
0.10
6.1
035
BR
/
L
10
-
R
0.05
3.10
4
1.65
10
50
0.18
0.05
3.6
060
BR
/
L
22
-
R
0.20
5.50
6
2.90
22
50
0.40 0.20
6.1
035
BR
/
L
22
-
R
0.05
3.10
4
1.65
22
50
0.18
0.05
3.6
060
BR
/
L
30
-
R
0.20
5.50
6
2.90
30
65
0.40 0.20
6.1
035
BR
/
L
10
-
R
0.20
3.10
4
1.65
10
50
0.18
0.20
3.6
060
BR
/
L
35
-
R
0.20
5.50
6
2.90
35
65
0.40 0.20
6.1
2.90
035
BR
/
L
15
-
R
0.20
3.10
4
1.65
15
50
0.18
0.20
3.6
060
BR
/
L
40
-
R
0.20
5.50
6
40
65
0.40 0.20
6.1
035
BR
/
L
22
-
R
0.20
3.10
4
1.65
22
50
0.18
0.20
3.6
060
BR
/
L
15
-
R
0.40
5.50
6
2.90
15
50
0.40 0.40
6.1
040
BR
/
L
10
-
R
0.05
3.60
1.90
10
50
0.20
0.05
060
BR
/
L
22
-
R
0.40
5.50
6
2.90
22
50
0.40 0.40
6.1
4
4.1
040
BR
/
L
15
-
R
0.05
3.60
4
1.90
15
50
0.20
0.05
4.1
060
BR
/
L
30
-
R
0.40
5.50
6
2.90
30
65
0.40 0.40
6.1
040
BR
/
L
22
-
R
0.05
3.60
4
1.90
22
50
0.20
0.05
4.1
070
BR
/
L
15
-
R
0.20
6.50
7
3.40
15
50
0.50 0.20
7.1
040
BR
/
L
10
-
R
0.10
3.60
4
1.90
10
50
0.20
0.10
4.1
070
BR
/
L
22
-
R
0.20
6.50
7
3.40
22
50
0.50 0.20
7.1
040
BR
/
L
15
-
R
0.10
3.60
4
1.90
15
50
0.20
0.10
4.1
070
BR
/
L
30
-
R
0.20
6.50
7
3.40
30
65
0.50 0.20
7.1
040
BR
/
L
22
-
R
0.10
3.60
4
1.90
22
50
0.20
0.10
4.1
070
BR
/
L
35
-
R
0.20
6.50
7
3.40
35
65
0.50 0.20
7.1
040
BR
/
L
10
-
R
0.20
3.60
4
1.90
10
50
0.20
0.20
4.1
070
BR
/
L
42
-
R
0.20
6.50
7
3.40
42
80
0.50 0.20
7.1
Ordering
code
example
:
TT
060
BR
22
-
R
0.20
TTIM
45
for
without
coolant
style
.
TT
060
BR
22
-
R
0.20
-
C
TTIM
45
for
coolant
style
Additional
sizes
available
by
request
.
Ordering
code
example
:
TT
060
BR
22
-
R
0.20
TT
1
M
45
for
without
coolant
style
.
TT
060
BR
22
-
R
0.20
-
C
TTIM
45
for
coolant
style
Additional
sizes
available
by
request
.
031
032
A
\
Auto
Tools
for
Mini
-
system
TTDBR
/
L
For
Micro
Diameter
Boring
TTDBPR
/
L
For
Micro
Diameter
Boring
&
Profiling
¥
CD
§
s
L
1
-
L
1
6
°
T
3
Iff
F m
T
H
l
»
-
!
l
22
°
tmw
-
J
f
d
f
d
Designation
LI
L
R
Dmin
Designation
LI
L
R
Dmin
tmax
tmax
a
a
TT
070
BR
/
L
50
-
R
0.20
6.50
7
3.40
50
80
0.50 0.20
7.1
TT
010
BPR
/
L
04
-
R
0.05
0.90
3
0.45
4
40
0.20
0.05
1.1
070
BR
/
L
22
-
R
0.40
6.50
7
3.40
22
50
0.50
0.40
7.1
015
BPR
/
L
06
-
R
0.10
1.30
3
0.75
6
40
0.30
0.10
1.6
070
BR
/
L
30
-
R
0.40
6.50
7
3.40
30
65
0.50 0.40
7.1
020
BPR
/
L
05
-
R
0.15
1.70
3
0.90
5
40
0.50
0.15
2.1
080
BR
/
L
22
-
R
0.20
7.50
8
3.90
22
50
0.60 0.20
8.1
020
BPR
/
L
10
-
R
0.15
1.70
3
0.90
10
40
0.50
0.15
2.1
080
BR
/
L
30
-
R
0.20
7.50
8
3.90
30
65
0.60 0.20
8.1
030
BPR
/
L
10
-
R
0.05
2.60
3
1.40
10
40
0.70
0.05
3.1
080
BR
/
L
40
-
R
0.20
7.50
8
3.90
40
80
0.60 0.20
8.1
030
BPR
/
L
15
-
R
0.05
2.60
3
1.40
15
40
0.70
0.05
3.1
080
BR
/
L
55
-
R
0.20
7.50
8
3.90
55
80
0.60 0.20
8.1
030
BPR
/
L
10
-
R
0.10
2.60
3
1.40
10
40
0.70
0.10
3.1
080
BR
/
L
22
-
R
0.40
7.50
8
3.90
22
50
0.60
0.40
8.1
030
BPR
/
L
15
-
R
0.10
2.60
3
1.40
15
40
0.70
0.10
3.1
080
BR
/
L
30
-
R
0.40
7.50
8
3.90
30
65
0.60
0.40
8.1
030
BPR
/
L
10
-
R
0.20
2.60
3
1.40
10
40
0.70 0.20
3.1
100
BR
/
L
35
-
R
0.20
9.50
10
4.90
35
65
0.80 0.20
10.1
030
BPR
/
L
15
-
R
0.20
2.60
3
1.40
15
40
0.70
0.20
3.1
100
BR
/
L
50
-
R
0.20
9.50
10
4.90
50
80
0.80 0.20
10.1
040
BPR
/
L
10
-
R
0.10
3.50
4
1.90
10
50
0.80
0.10
4.1
100
BR
/
L
35
-
R
0.40
9.50
10
4.90
35
65
0.80
0.40
10.1
040
BPR
/
L
15
-
R
0.10
3.50
4
1.90
15
50
0.80
0.10
4.1
100
BR
/
L
50
-
R
0.40
9.50
10
4.90
50
80
0.80 0.40
10.1
040
BPR
/
L
22
-
R
0.10
3.50
4
1.90
22
50
0.80
0.10
4.1
040
BPR
/
L
10
-
R
0.20
3.50
4
1.90
10
50
0.80 0.20
4.1
040
BPR
/
L
15
-
R
0.20
3.50
4
1.90
15
50
0.80 0.20
4.1
Ordering
code
example
:
TT
060
BR
22
-
R
0.20
TTIM
45
for
without
coolant
style
.
TT
060
BR
22
-
R
0.20
-
C
TTIM
45
for
coolant
style
Additional
sizes
available
by
request
.
040
BPR
/
L
22
-
R
0.20
3.50
22
0.20
4
1.90
50
0.80
4.1
050
BPR
/
L
15
-
R
0.10
4.40
5
2.40
15
50
1.20
0.10
5.1
050
BPR
/
L
22
-
R
0.10
4.40
5
2.40
22
50
1.20
0.10
5.1
050
BPR
/
L
30
-
R
0.10
4.40
5
2.40
30
65
1.20
0.10
5.1
050
BPR
/
L
15
-
R
0.20
4.40
5
2.40
15
50
1.20
0.20
5.1
050
BPR
/
L
22
-
R
0.20
4.40
5
2.40
22
50
1.20
0.20
5.1
050
BPR
/
L
30
-
R
0.20
4.40
5
2.40
30
65
1.20
0.20
5.1
060
BPR
/
L
15
-
R
0.20
5.30
6
2.90
15
50
1.40
0.20
6.1
060
BPR
/
L
22
-
R
0.20
5.30
6
2.90
22
50
1.40
0.20
6.1
060
BPR
/
L
30
-
R
0.20
5.30
6
2.90
30
65
1.40
0.20
6.1
070
BPR
/
L
22
-
R
0.20
6.30
7
3.40
22
50
1.50
0.20
7.1
070
BPR
/
L
30
-
R
0.20
6.30
7
3.40
30
65
1.50
0.20
7.1
080
BPR
/
L
22
-
R
0.20
7.30
8
22
50
1.60
0.20
8.1
080
BPR
/
L
35
-
R
0.20
7.30
8
35
65
1.60
0.20
8.1
100
BPR
/
L
35
-
R
0.20 9.20
10
35
65
2.00
0.20
10.1
Ordering
code
example
:
TT
040
BPR
22
-
R
0.10
TTIS
30
for
without
coolant
style
.
TT
040
BPR
22
-
R
0.10
-
C
TTIS
30
for
coolant
style
Additional
sizes
available
by
request
.
033
034
A
\
Auto
Tools
for
Mini
-
system
TTDBR
/
L
For
Micro
Diameter
Boring
TTDBR
/
L
For
Micro
Diameter
Boring
I
J
E
2
s
§
§
T
L
1
L
1
>
^
r
6
*
iiffl
d
f
d
f
Designation
LI
L
R
Dmin
Designation
LI
L
R
Dmin
tmax tmax
a
a
TT
006
BR
/
L
03
-
R
0.03
0.50
3
0.25
3
40
0.01
0.03
0.7
TT
040
BR
/
L
15
-
R
0.20
3.60
4
1.90
15
50
0.20 0.20
4.1
008
BR
/
L
04
-
R
0.05
0.70
3
0.35
4
40
0.02
0.05
0.9
040
BR
/
L
22
-
R
0.20
3.60
4
1.90
22
50
0.20 0.20
4.1
010
BR
/
L
04
-
R
0.05
0.90
3
0.45
4
40
0.03
0.05
1.1
040
BR
/
L
30
-
R
0.20
3.60
4
1.90
30
65
0.20 0.20
4.1
015
BR
/
L
06
-
R
0.15
1.35
3
0.75
6
40
0.05 0.15
1.6
050
BR
/
L
15
-
R
0.05
4.60
5
2.40
15
50
0.30
0.05
5.1
015
BR
/
L
09
-
R
0.15
1.35
3
0.75
9
40
0.05 0.15
1.6
050
BR
/
L
22
-
R
0.05
4.60
5
2.40
22
50
0.30
0.05
5.1
020
BR
/
L
06
-
R
0.05
1.80
3
0.90
6
40
0.10
0.05
2.1
050
BR
/
L
15
-
R
0.10
4.60
5
2.40
15
50
0.30
0.10
5.1
020
BR
/
L
10
-
R
0.05
1.80
3
0.90
10
40
0.10
0.05
2.1
050
BR
/
L
22
-
R
0.10
4.60
5
2.40
22
50
0.30
0.10
5.1
020
BR
/
L
10
-
R
0.10
1.80
3
0.90
10
0.10 0.10
2.1
050
BR
/
L
30
-
R
0.10
4.60
5
2.40
30
65
0.30
0.10
5.1
40
020
BR
/
L
15
-
R
0.10
1.80
3
0.90
15
40
0.10 0.10
2.1
050
BR
/
L
15
-
R
0.20
4.60
5
2.40
15
50
0.30
0.20
5.1
020
BR
/
L
06
-
R
0.15
1.80
3
0.90
6
40
0.10
0.15
2.1
050
BR
/
L
22
-
R
0.20
4.60
5
2.40
22
50
0.30
0.20
5.1
020
BR
/
L
10
-
R
0.15
1.80
3
0.90
10
40
0.10
0.15
2.1
050
BR
/
L
30
-
R
0.20
4.60
5
2.40
30
65
0.30
0.20
5.1
020
BR
/
L
15
-
R
0.15
1.80
3
0.90
15
40
0.10
0.15
2.1
050
BR
/
L
35
-
R
0.20
4.60
5
2.40
35
65
0.30
0.20
5.1
025
BR
/
L
10
-
R
0.15
2.30
3
1.15
10
40
0.12
0.15
2.6
050
BR
/
L
15
-
R
0.40
4.60
5
2.40
15
50
0.30
0.40
5.1
025
BR
/
L
15
-
R
0.15
2.30
3
1.15
15
40
0.12
0.15
2.6
050
BR
/
L
22
-
R
0.40
4.60
5
2.40
22
50
0.30
0.40
5.1
030
BR
/
L
10
-
R
0.05
2.70
3
1.40
10
40
0.15 0.05
3.1
050
BR
/
L
30
-
R
0.40
4.60
5
2.40
30
65
0.30
0.40
5.1
030
BR
/
L
15
-
R
0.05
2.70
3
0.15 0.05
3.1
060
BR
/
L
15
-
R
0.05
5.50
2.90
15
1.40
15
40
6
50
0.40
0.05
6.1
030
BR
/
L
10
-
R
0.10
2.70
3
1.40
10
40
0.15
0.10
3.1
060
BR
/
L
22
-
R
0.05
5.50
6
2.90
22
50
0.40
0.05
6.1
030
BR
/
L
15
-
R
0.10
2.70
3
1.40
15
40
0.15
0.10
3.1
060
BR
/
L
15
-
R
0.10
5.50
6
2.90
15
50
0.40
0.10
6.1
030
BR
/
L
10
-
R
0.20
2.70
3
1.40
10
40
0.15
0.20
3.1
060
BR
/
L
22
-
R
0.10
5.50
6
2.90
22
50
0.40 0.10
6.1
030
BR
/
L
15
-
R
0.20
2.70
3
1.40
15
40
0.15
0.20
3.1
060
BR
/
L
15
-
R
0.20
5.50
6
2.90
15
50
0.40
0.10
6.1
035
BR
/
L
10
-
R
0.05
3.10
4
1.65
10
50
0.18
0.05
3.6
060
BR
/
L
22
-
R
0.20
5.50
6
2.90
22
50
0.40 0.20
6.1
035
BR
/
L
22
-
R
0.05
3.10
4
1.65
22
50
0.18
0.05
3.6
060
BR
/
L
30
-
R
0.20
5.50
6
2.90
30
65
0.40 0.20
6.1
035
BR
/
L
10
-
R
0.20
3.10
4
1.65
10
50
0.18
0.20
3.6
060
BR
/
L
35
-
R
0.20
5.50
6
2.90
35
65
0.40 0.20
6.1
2.90
035
BR
/
L
15
-
R
0.20
3.10
4
1.65
15
50
0.18
0.20
3.6
060
BR
/
L
40
-
R
0.20
5.50
6
40
65
0.40 0.20
6.1
035
BR
/
L
22
-
R
0.20
3.10
4
1.65
22
50
0.18
0.20
3.6
060
BR
/
L
15
-
R
0.40
5.50
6
2.90
15
50
0.40 0.40
6.1
040
BR
/
L
10
-
R
0.05
3.60
1.90
10
50
0.20
0.05
060
BR
/
L
22
-
R
0.40
5.50
6
2.90
22
50
0.40 0.40
6.1
4
4.1
040
BR
/
L
15
-
R
0.05
3.60
4
1.90
15
50
0.20
0.05
4.1
060
BR
/
L
30
-
R
0.40
5.50
6
2.90
30
65
0.40 0.40
6.1
040
BR
/
L
22
-
R
0.05
3.60
4
1.90
22
50
0.20
0.05
4.1
070
BR
/
L
15
-
R
0.20
6.50
7
3.40
15
50
0.50 0.20
7.1
040
BR
/
L
10
-
R
0.10
3.60
4
1.90
10
50
0.20
0.10
4.1
070
BR
/
L
22
-
R
0.20
6.50
7
3.40
22
50
0.50 0.20
7.1
040
BR
/
L
15
-
R
0.10
3.60
4
1.90
15
50
0.20
0.10
4.1
070
BR
/
L
30
-
R
0.20
6.50
7
3.40
30
65
0.50 0.20
7.1
040
BR
/
L
22
-
R
0.10
3.60
4
1.90
22
50
0.20
0.10
4.1
070
BR
/
L
35
-
R
0.20
6.50
7
3.40
35
65
0.50 0.20
7.1
040
BR
/
L
10
-
R
0.20
3.60
4
1.90
10
50
0.20
0.20
4.1
070
BR
/
L
42
-
R
0.20
6.50
7
3.40
42
80
0.50 0.20
7.1
Ordering
code
example
:
TT
060
BR
22
-
R
0.20
TTIM
45
for
without
coolant
style
.
TT
060
BR
22
-
R
0.20
-
C
TTIM
45
for
coolant
style
Additional
sizes
available
by
request
.
Ordering
code
example
:
TT
060
BR
22
-
R
0.20
TT
1
M
45
for
without
coolant
style
.
TT
060
BR
22
-
R
0.20
-
C
TTIM
45
for
coolant
style
Additional
sizes
available
by
request
.
035
036
A
\
Auto
Tools
for
Mini
-
system
TTDBUR
/
L
TTDBCR
/
L
For
Micro
Diameter
Boring
&
Profiling
with
geometry
90
°
For
Micro
Diameter
Copying
&
Boring
with
geometry
47
°
A
i
i
\
I
£
I
j
T
A
H
L
1
T
\
[
XH
tmax
-
*
L
1
j
M
f
fl
max
d
Designation
LI
L
R
Dmin
tmax
a
d
f
Designation
LI
L
R
Dmin
tmax
a
TT
030
BUR
/
L
10
-
R
0.05
2.60
3
1.40 1.40
10
40
0.40
0.05
3.1
030
BUR
/
L
15
-
R
0.05
2.60
3
1.40 1.40
15
40
0.40
0.05
3.1
TT
020
BCR
/
L
10
-
R
0.05
1.70
2
0.90
10
40
0.50
0.05
2.1
040
BUR
/
L
10
-
R
0.10
3.50
4
1.90 1.90
10
50
0.50
0.10
4.1
030
BCR
/
L
10
-
R
0.10
2.60
3
1.40
10
40
0.70
0.10
3.1
040
BUR
/
L
15
-
R
0.10
3.50
4
1.90 1.90
15
50
0.50 0.10
4.1
030
BCR
/
L
15
-
R
0.10
2.60
3
15
3.1
1.40
40
0.70
0.10
050
BUR
/
L
15
-
R
0.15
5
2.40
2.30
15
50
0.70
0.15
4.40
5.1
030
BCR
/
L
10
-
R
0.20
2.60
3
1.40
10
40
0.70 0.20
3.1
050
BUR
/
L
22
-
R
0.15
4.40
5
2.40
2.30
22
50
0.70
0.15
5.1
030
BCR
/
L
15
-
R
0.20
2.60
3
1.40
15
40
0.70 0.20
3.1
060
BUR
/
L
15
-
R
0.15
5.30
6
2.90 2.80
15
50
0.90
0.15
6.1
040
BCR
/
L
10
-
R
0.20
3.50
4
1.90
10
50
0.80 0.20
4.1
060
BUR
/
L
22
-
R
0.15
5.30
6
2.90 2.80
22
50
0.90
0.15
6.1
040
BCR
/
Ll
5
-
R
0.20
3.50
4
1.90
15
50
0.80 0.20
4.1
080
BUR
/
L
22
-
R
0.20
7.30
8
3.90
3.80
22
50
1.10
0.20
8.1
040
BCR
/
L
22
-
R
0.20
3.50
4
1.90
22
50
0.80 0.20
4.1
Ordering
code
example
:
TT
040
BUR
15
-
R
0.10
TTIS
30
for
without
coolant
style
.
TT
040
BUR
15
-
R
0.10
-
C
TTIS
30
for
coolant
style
Additional
sizes
available
by
request
.
050
BCR
/
L
15
-
R
0.20
4.40
5
2.40
15
50
1.00
0.20
5.1
050
BCR
/
L
22
-
R
0.20
4.40
5
2.40
22
50
1.00
0.20
5.1
060
BCR
/
L
15
-
R
0.20
5.30
6
2.90
15
50
1.40
0.20
6.1
060
BCR
/
L
22
-
R
0.20
5.30
6
2.90
22
50
1.40
0.20
6.1
080
BCR
/
L
22
-
R
0.20
5.30
8
3.90
22
50
1.80
0.20
8.1
080
BCR
/
L
27
-
R
0.20
7.30
8
3.90
27
65
2.00
0.20
8.1
Ordering
code
example
:
TT
040
BCR
15
-
R
0.20
TTIS
30
for
without
coolant
style
.
TT
040
BCR
15
-
R
0.20
-
C
TTIS
30
for
coolant
style
Additional
sizes
available
by
request
.
037
038
A
\
Auto
Tools
for
Mini
-
system
TTDBBR
/
L
For
Micro
Diameter
Back
Boring
TTDBFR
/
L
For
Micro
Diameter
Chamfering
&
Boring
-
L
*
rr
^
<
5
I
CD
S
7
l
L
1
2
LI
|
tmax
!
tmax
t
H
f
A
d
f
d
f
Designation
L
R
Dmin
Designation
LI
L
R
Dmin
LI
tmax
tmax
a
a
TT
030
BBR
/
L
10
-
R
0.10
2.60
3
1.40
10
40
0.50
0.10
3.1
TT
030
BFR
/
L
10
-
R
0.20
2.70
3
1.40
10
40
0.30
0.20
3.1
040
BBR
/
L
10
-
R
0.15
3.50
4
1.90
10
50
0.80
0.15
4.1
040
BFR
/
L
15
-
R
0.20
3.50
4
1.90
15
50
0.40
0.20
4.1
040
BBR
/
L
15
-
R
0.15
3.50
4
1.90
15
50
0.80
0.15
4.1
050
BFR
/
L
15
-
R
0.20
4.40
5
2.40
15
50
0.70
0.20
5.1
15
050
BBR
/
L
15
-
R
0.20
4.40
5
2.40
15
50
1.00
0.20
5.1
060
BFR
/
L
15
-
R
0.20
5.30
6
2.90
50
0.70
0.20
6.1
050
BBR
/
L
22
-
R
0.20
4.40
5
2.40
22
50
1.00
0.20
5.1
Ordering
code
example
:
TT
040
BFR
15
-
R
0.20
TT
1
S
30
for
without
coolant
style
.
TT
040
BFR
15
-
R
0.20
-
C
TTIS
30
for
coolant
style
Additional
sizes
available
by
request
.
060
BBR
/
L
15
-
R
0.20
5.30
6
2.90
15
50
1.80
0.20
6.1
060
BBR
/
L
22
-
R
0.20
5.30
6
2.90
22
50
1.80
0.20
6.1
070
BBR
/
L
22
-
R
0.20
6.30
7
3.40
22
50
2.50
0.20
7.1
TTDBWR
/
L
070
BBR
/
L
30
-
R
0.20
6.30
7
3.40
30
65
2.50
0.20
7.1
For
Micro
Diameter
Chamfering
&
Profiling
Ordering
code
example
:
TT
040
BBR
15
-
R
0.15
TTIS
30
for
without
coolant
style
.
TT
040
BBR
15
-
R
0.15
-
C
TTIS
30
for
coolant
style
Additional
sizes
available
by
request
.
i
CD
s
i
|
tmax
I
-
CP
L
1
d
f
Designation
P
LI
L
R
Dmin
tmax
a
TT
060
BWR
/
L
15
-
R
0.20
-
A
45 45
°
45
°
6
2.3
15
50
3.50
0.20
1.0
060
BWR
/
L
15
-
R
0.20
-
A
60
60
°
30
°
6
2.3
15
50
4.00
0.20
1.0
060
BWR
/
L
22
-
R
0.20
-
A
45 45
°
45
°
6
2.3
22
50
3.50
0.20
6.0
060
BWR
/
L
00
-
R
0.20
-
A
60 60
°
30
°
6
2.3
22
50
4.00
0.20
6.0
Ordering
code
example
:
TT
060
BWR
15
-
0.20
A
45
TT
1
S
30
for
without
coolant
style
.
TT
060
BWR
15
-
0.20
A
45
-
C
TTIS
30
for
coolant
style
Can
be
used
also
for
boring
.
039
040
A
\
Auto
Tools
for
Mini
-
system
TTGTR
/
L
TTDGR
/
L
For
Micro
Diameter
Grooving
For
Micro
Diameter
Threading
-
Trapezoidal
Thread
I
B
~
r
E
8
A
*
L
1
iSL
*
5
>
3
t
«
-
r
t
-
l
Hbh
^
-
imax
J
45.00
Pitch
f
b
d
Designation
LI
L
E
Dmin
b
d
f
Designation
Dmin
LI
L
tmax
tmax
a
a
a
TPI
mm
TT
060
TR
/
L
22
-
150
TR
30
°
1.5
5.70
6
2.90
22
50
0.90 0.60
0.42
6.1
TT
010
GR
/
L
04
-
B
030
0.3
0.9
3
0.45
4
40
0.2
1.1
070
TR
/
L
25
-
200
TR
30
°
2.0
6.30
7
3.50
25
65
1.25
0.75
0.60
6.9
010
GR
/
L
07
-
B
030
0.3
0.9
3
0.45
7
40
0.2
1.1
070
TR
/
L
35
-
300
TR
30
°
3.0
6.30
7
4.90
35
65
1.75
1.10
0.96
11.0
015
GR
/
L
05
-
B
040
0.4
1.4
3
0.75
5
40
0.4
1.6
100
TR
/
L
35
-
200
TR
30
°
2.0
9.20
10
4.90
35
65
1.25
0.75
0.60
7.5
015
GR
/
L
10
-
B
040
0.4
1.4
3
0.75
10
40
0.4
1.6
100
TR
/
L
35
-
300
TR
3.0
35
1.75 10.5
30
°
9.20
10
4.90
65
1.10
0.96
015
GR
/
L
12
-
B
040
0.4
1.4
3
0.75
12
40
0.4
1.6
020
GR
/
L
06
-
B
050
0.5
3
0.95
0.4
2.1
1.8
6
40
Ordering
code
example
:
TT
070
TR
25
-
200
TR
TT
1
S
30
for
without
coolant
style
.
TT
070
TR
25
-
200
TR
-
C
TTIS
30
for
coolant
style
Can
be
used
also
for
boring
.
020
GR
/
L
10
-
B
050
0.5
1.8
3
0.95
10
40
0.4
2.1
020
GR
/
L
15
-
B
050
0.5
1.8
3
0.95
15
40
0.4
2.1
030
GR
/
L
10
-
B
070
0.7
2.7
3
1.40
10
40
0.6
3.1
030
GR
/
L
15
-
B
070
0.7
2.7
3
1.40
15
40
0.6
3.1
040
GR
/
L
10
-
B
100
1.0
3.5
4
1.90
10
50
1.0
4.1
040
GR
/
L
10
-
B
150
1.5
3.5
4
1.90
10
50
1.0
4.1
040
GR
/
L
15
-
B
100
1.0
3.5
4
1.90
15
50
1.0
4.1
040
GR
/
L
15
-
B
150
3.5
1.5
4
1.90
15
50
1.0
4.1
040
GR
/
L
22
-
B
100
1.0
3.5
1.90
22
50
1.0
4
4.1
040
GR
/
L
22
-
B
150
1.5
3.5
4
1.90
22
50
1.0
4.1
050
GR
/
L
10
-
B
100
1.0
4.4
5
2.40
10
50
1.2
5.1
050
GR
/
L
10
-
B
150
1.5
4.4
5
2.40
10
50
1.2
5.1
050
GR
/
L
10
-
B
200
2.0
4.4
5
2.40
10
50
1.2
5.1
050
GR
/
L
15
-
B
100
1.0
4.4
5
2.40
15
50
1.2
5.1
050
GR
/
L
15
-
B
150
1.5
4.4
5
2.40
15
50
1.2
5.1
050
GR
/
L
15
-
B
200
2.0
4.4
5
2.40
15
50
1.2
5.1
5
2.40
22
1.2
050
GR
/
L
22
-
B
100
1.0
4.4
50
5.1
050
GR
/
L
22
-
B
150
1.5
4.4
5
2.40
22
50
1.2
5.1
050
GR
/
L
22
-
B
200
2.0
4.4
5
2.40
22
50
1.2
5.1
050
GR
/
L
30
-
B
100
1.0
4.4
5
2.40
30
65
1.2
5.1
050
GR
/
L
30
-
B
150
1.5
4.4
5
2.40
30
65
1.2
5.1
050
GR
/
L
30
-
B
200
2.0
4.4
5
2.40
30
65
1.2
5.1
050
GR
/
L
35
-
B
100
1.0
4.4
5
2.40
35
65
1.2
5.1
050
GR
/
L
35
-
B
150
1.5
4.4
5
2.40
35
65
1.2
5.1
Ordering
code
example
:
TT
060
GR
22
-
B
100
TTIM
45
for
without
coolant
style
.
TT
060
GR
22
-
B
100
-
C
TTIM
45
for
coolant
style
Additional
sizes
available
by
request
.
041
042
A
\
Auto
Tools
for
Mini
-
system
TTDGR
/
L
TTDGR
/
L
For
Micro
Diameter
Grooving
For
Micro
Diameter
Grooving
I
I
s
£
§
§
T
T
L
1
L
1
i
5
5
>
±
±
a
r
t
-
1
«
-
r
t
-
1
HbH
tmax
-
J
Hbh
-
tmax
-
t
St
St
45.00 45.00
b
b
d
f
d
f
Designation
LI
L
Dmin
Designation
LI
L
Dmin
tmax
tmax
a
a
050
GR
/
L
35
-
B
200
2.0
4.4
5
2.40
35
65
1.2
5.1
TT
080
GR
/
L
22
-
B
200
2.0
7.3
8
3.90
22
50
3.1
8.1
060
GR
/
L
10
-
B
100
1.0
5.3
6
2.90
10
50
1.8
6.1
080
GR
/
L
30
-
B
100
1.0
7.3
8
3.90
30
65
3.1
8.1
080
GR
/
L
30
-
B
150
1.5
7.3
8
3.90
30
65
3.1
8.1
060
GR
/
L
10
-
B
150
1.5
5.3
6
2.90
10
50
1.8
6.1
080
GR
/
L
30
-
B
200
2.0
7.3
8
3.90
30
65
3.1
8.1
060
GR
/
L
10
-
B
200
2.0
5.3
6
2.90
10
50
1.8
6.1
5.3
2.90
7.3
3.90
060
GR
/
L
15
-
B
100
1.0
6
15
50
1.8
6.1
080
GR
/
L
40
-
B
100
1.0
8
40
65
3.1
8.1
080
GR
/
L
40
-
B
150
1.5
7.3
3.90
65
3.1
8
40
8.1
060
GR
/
L
15
-
B
150
1.5
5.3
6
2.90
15
50
1.8
6.1
080
GR
/
L
40
-
B
200
2.0
7.3
8
3.90
40
65
3.1
8.1
060
GR
/
L
15
-
B
200
2.0
5.3
6
2.90
15
50
1.8
6.1
100
GR
/
L
30
-
B
100
1.0
9.9
10
4.90
30
65
4.0
10.1
060
GR
/
L
22
-
B
100
1.0
5.3
6
2.90
22
50
1.8
6.1
100
GR
/
L
30
-
B
200
2.0
9.9
10
4.90
30
65
4.0
10.1
060
GR
/
L
22
-
B
150
1.5
5.3
6
2.90
22
50
1.8
6.1
100
GR
/
L
30
-
B
300
3.0
9.9
10
4.90
30
65
4.0
10.1
060
GR
/
L
22
-
B
200
2.0
5.3
6
2.90
22
50
1.8
6.1
100
GR
/
L
50
-
B
100
1.0
9.9
10
4.90
50
80
4.0
10.1
060
GR
/
L
30
-
B
100
1.0
5.3
6
2.90
30
65
1.8
6.1
100
GR
/
L
50
-
B
200
2.0
9.9
10
4.90
50
80
4.0
10.1
060
GR
/
L
30
-
B
150
1.5
5.3
6
2.90
30
65
1.8
6.1
100
GR
/
L
50
-
B
300
3.0
9.9
10
4.90
50
80
4.0
10.1
060
GR
/
L
30
-
B
200
2.0
5.3
6
2.90
30
65
1.8
6.1
060
GR
/
L
35
-
B
100
1.0
5.3
6
2.90
35
65
1.8
6.1
060
GR
/
L
35
-
B
150
1.5
5.3
6
2.90
35
65
1.8
6.1
060
GR
/
L
35
-
B
200
2.0
5.3
6
2.90
35
65
1.8
6.1
070
GR
/
L
15
-
B
100
1.0
6.3
7
3.40
15
50
2.5
7.1
070
GR
/
L
15
-
B
150
1.5
6.3
7
3.40
15
50
2.5
7.1
070
GR
/
L
15
-
B
200
2.0
6.3
7
3.40
15
50
2.5
7.1
070
GR
/
L
22
-
B
100
1.0
6.3
7
3.40
22
50
2.5
7.1
070
GR
/
L
22
-
B
150
1.5
6.3
7
3.40
22
50
2.5
7.1
070
GR
/
L
22
-
B
200
2.0
6.3
7
3.40
22
50
2.5
7.1
070
GR
/
L
30
-
B
100
1.0
6.3
7
3.40
30
65
2.5
7.1
070
GR
/
L
30
-
B
150
1.5
6.3
7
3.40
30
65
2.5
7.1
070
GR
/
L
30
-
B
200
2.0
6.3
7
3.40
30
65
2.5
7.1
070
GR
/
L
40
-
B
100
1.0
6.3
7
3.40
40
65
2.5
7.1
070
GR
/
L
40
-
B
150
1.5
6.3
7
3.40
40
65
2.5
7.1
070
GR
/
L
40
-
B
200
2.0
6.3
7
3.40
40
65
2.5
7.1
080
GR
/
L
22
-
B
100
1.0
7.3
8
3.90
22
50
3.1
8.1
080
GR
/
L
22
-
B
150
1.5
7.3
8
3.90
22
50
3.1
8.1
043
044
A
\
Auto
Tools
for
Mini
-
system
TTDGRR
/
L
TTDGFR
For
Micro
Diameter
Grooving
with
Full
Radius
For
Micro
Diameter
Face
Grooving
L
I
l
CD
CO
§
§
t
T
L
1
L
1
BE
*
5
+
¥
T
b
tmax
-
^
45.00
°
b d
f
b d
f
Designation
L
Dmin
R
Designation
Dmin
LI LI
L
tmax
tmax
a
a
TT
030
GRR
/
L
10
-
B
100
1.00
2.70
3
1.40
10
50
0.60
3.1
0.50
TT
040
GFR
15
-
B
075
0.75
3.50
4
1.95
15
50
1.20
5.0
040
GRR
/
L
10
-
B
100
1.00
3.50
4
1.90
10
50
1.00
4.1
0.50
040
GFR
15
-
B
100
1.00
3.50
4
1.95
15
50
1.50
5.0
040
GRR
/
L
10
-
B
150
1.50
3.50
4
1.90
10
50
1.00
4.1
0.75
040
GFR
15
-
B
150
1.50
3.50
4
1.95
15
50
2.80
5.0
050
GRR
/
L
15
-
B
100
1.00
4.40
5
2.40
15
50
1.20
5.1
0.50
050
GFR
22
-
B
075
0.75
4.30
5
2.45
22
50
1.20
6.0
050
GRR
/
L
15
-
B
150
1.50
4.40
5
2.40
15
50
1.20
5.1
0.75
050
GFR
22
-
B
100
1.00
4.30
5
2.45
22
50
1.50
6.0
050
GRR
/
L
15
-
B
200
2.00
4.40
5
2.40
15
50
1.20
5.1
1.00
050
GFR
22
-
B
150
1.50
4.30
5
2.45
22
50
2.50
6.0
060
GRR
/
L
15
-
B
100
1.00
5.30
6
2.90
15
50
1.60
6.1
0.50
050
GFR
22
-
B
200
2.00
4.30
5
2.45
22
50
3.80
6.0
060
GRR
/
L
15
-
B
150
1.50
5.30
6
2.90
15
50
1.60
6.1
0.75
060
GFR
22
-
B
100
1.00
5.20
6
2.95
22
50
1.50
8.0
060
GRR
/
L
15
-
B
200
2.00
5.30
6
2.90
15
50
1.60
6.1
1.00
060
GFR
22
-
B
150
1.50
5.20
6
2.95
22
50
2.50
8.0
070
GRR
/
L
22
-
B
100
1.00
6.30
7
3.40
22
50
2.50
7.1
0.50
060
GFR
22
-
B
200
2.00
5.20
6
2.95
22
50
3.00
8.0
070
GRR
/
L
22
-
B
150
1.50
6.30
7
3.40
22
50
2.50
7.1
0.75
060
GFR
22
-
B
250
2.50
5.20
6
2.95
22
50
4.80
8.0
070
GRR
/
L
22
-
B
200
2.00
63.0
7
3.40
22
50
2.50
7.1
1.00
060
GFR
30
-
B
300
3.00
5.20
6
2.95
30
65
6.00
8.0
080
GFR
22
-
B
250
2.50
6.90
8
3.95
22
50
3.50
10.0
Ordering
code
example
:
TT
060
GRR
15
-
B
150
TTIS
30
for
without
coolant
style
.
TT
060
GRR
15
-
B
150
-
C
TTIS
30
for
coolant
style
Additional
sizes
available
by
request
.
Ordering
code
example
:
TT
040
GFR
15
-
B
150
TTIS
30
for
without
coolant
style
.
TT
040
GFR
15
-
B
150
-
C
TTIS
30
for
coolant
style
Additional
sizes
available
by
request
.
045
046
A
\
Auto
Tools
for
Mini
-
system
TTDGFL
TTDGRFR
For
Micro
Diameter
Face
Grooving
in
Pivots
For
Micro
Diameter
Face
Grooving
with
Full
Radius
l
I
CO
I
T
I
to
&
a
§
i
)
T
L
1
tmax
r
i
L
1
b d
f
b d
f
Designation
L
Dm
in
Designation
L
Dmin
R
LI LI
tmax
tmax
a a
TT
040
GFL
15
-
B
075
0.75
3.50
4
1.75
15
50
1.20
5.0
TT
040
GRFR
/
15
-
B
100
1.00
3.50
4
1.95
15
50
1.20
5.0
0.50
040
GFL
15
-
B
100
1.00
3.50
4
1.75
15
50
1.50
5.0
040
GRFR
/
15
-
B
150
1.50
3.50
4
1.95
15
50
1.50
5.0
0.75
040
GFL
15
-
B
150
1.50
3.50
4
1.75
15
50
2.80
5.0
050
GRFR
/
22
-
B
100
1.00
4.30
5
2.45
22
50
1.20
6.0
0.50
050
GFL
22
-
B
075
0.75
4.30
5
2.25
22
50
1.20
6.0
050
GRFR
/
22
-
B
150
1.50
4.30
5
2.45
22
50
1.50
6.0
0.75
050
GFL
22
-
B
100
1.00
4.30
5
2.25
22
50
1.50
6.0
050
GRFR
/
22
-
B
200
2.00
4.30
5
2.45
22
50
2.50
6.0
1.00
050
GFL
22
-
B
150
1.50
4.30
5
2.25
22
50
2.50
6.0
060
GRFR
/
22
-
B
100
1.00
5.20
6
2.95
22
50
1.20
8.0
0.50
050
GFL
22
-
B
200
2.00
4.30
5
2.25
22
50
3.80
6.0
060
GRFR
/
22
-
B
150
1.50
5.20
6
2.95
22
50
1.50
8.0
0.75
060
GFL
22
-
B
100
1.00
5.20
6
2.75
22
50
1.50
8.0
060
GRFR
/
22
-
B
200
2.00
5.20
6
2.95
22
50
2.50
8.0
1.00
060
GFL
22
-
B
150
1.50
5.20
6
2.75
22
50
2.50
8.0
Ordering
code
example
:
TT
040
GRFR
15
-
B
100
TTIS
30
for
without
coolant
style
.
TT
040
GRFR
15
-
B
100
-
C
TTIS
30
for
coolant
style
Additional
sizes
available
by
request
.
060
GFL
22
-
B
200
2.00
5.20
6
2.75
22
50
3.00
8.0
060
GFL
22
-
B
250
2.50
5.20
6
2.75
22
50
4.80
8.0
060
GFL
30
-
B
300
3.00
5.20
6
2.75
30
65
6.00
8.0
080
GFL
22
-
B
250
2.50
6.90
8
3.75
22
50
3.50
10.0
Ordering
code
example
:
TT
050
GFL
22
-
B
150
TTIS
30
for
without
coolant
style
.
TT
050
GFL
22
-
B
150
-
C
TTIS
30
for
coolant
style
Additional
sizes
available
by
request
.
047
048
A
\
Auto
Tools
for
Mini
-
system
TTDGRFL
TTDVR
/
L
For
deep
face
grooving
For
Micro
Diameter
Face
Grooving
in
Pivots
with
Full
Radius
L
L
§
CO
O
Q
r
=
\
tmax
-
j
ra
L
I
)
-
Q
-
Q
/
CD
Or
1
tmax
L
1
L
1
b d
f
b d
f
Designation
L
R
Dmin
Designation
L
Dmin
R
LI LI
tmax tmax
a a
TT
040
GRFL
15
-
B
100
1.0
3.50
4
1.75
15
50
1.2
0.50
5.0
TT
060
GVR
/
L
10
-
B
200
2.0
4.00
6
1.10
10
50
10
10.0
0.20
040
GRFL
15
-
B
150
1.5
3.50
4
1.75
15
50
1.5
0.75
5.0
060
GVR
/
L
15
-
B
200
2.0
4.00
6
1.10
15
50
15
12.0
0.20
050
GRFL
22
-
B
100
1.0
4.30
5
2.25
22
50
1.2
0.50
6.0
060
GVR
/
L
22
-
B
200
2.0
4.00
6
1.10
22
50
22
12.0
0.20
050
GRFL
22
-
B
150
1.5
4.30
5
2.25
22
50
1.5
0.75
6.0
060
GVR
/
L
15
-
B
250
2.5
4.25
6
1.40
15
50
15
10.0
0.20
050
GRFL
22
-
B
200
2.0
4.30
5
2.25
22
50
2.5
1.00
6.0
060
GVR
/
L
22
-
B
250
2.5
4.25
6
1.40
22
50
22
12.0
0.20
060
GRFL
22
-
B
100
1.0
5.20
6
2.75
22
50
1.2
0.50
8.0
060
GVR
/
L
22
-
B
300
3.0
4.50
6
1.40
22
50
22
10.0
0.20
060
GRFL
22
-
B
150
1.5
5.20
6
2.75
22
50
1.5
0.75
8.0
070
GVR
/
L
10
-
B
150
1.5
5.90
7
3.50
10
50
10
8.0
0.20
060
GRFL
22
-
B
200
2.0
5.20
6
2.75
22
50
2.5
1.00
8.0
070
GVR
/
L
15
-
B
200
2.0
5.90
7
3.50
15
50
15
8.0
0.20
070
GVR
/
L
22
-
B
300
3.0
5.90
7
3.50
22
50
22
8.0
0.20
Ordering
code
example
:
TT
060
GRFL
22
-
B
100
TTIM
45
for
without
coolant
style
.
TT
060
GRFL
22
-
B
100
-
C
TTIM
45
for
coolant
style
Additional
sizes
available
by
request
.
080
GVR
/
L
10
-
B
200
2.0
5.00
8
1.00
10
50
10
12.0
0.20
080
GVR
/
L
15
-
B
200
2.0
5.00
8
1.00
15
50
15
12.0
0.20
080
GVR
/
L
10
-
B
300
3.0
5.50
8
1.50
10
50
10
12.0
0.20
080
GVR
/
L
15
-
B
300
3.0
5.50
8
1.50
15
50
15
12.0
0.20
080
GVR
/
L
27
-
B
300
3.0
5.50
8
1.60
27
65
27
15.0
0.20
080
GVR
/
L
43
-
B
300
3.0
5.50
1.60
43
80
43
15.0
0.20
8
080
GVR
/
L
25
-
B
400
4.0
6.00
8
2.00
25
65
25
20.0
0.20
080
GVR
/
L
43
-
B
400
4.0
6.00
8
2.10
43
80
43
20.0
0.20
Ordering
code
example
:
TT
060
GVR
22
-
B
200
TTIM
45
for
without
coolant
style
.
TT
060
GVR
22
-
B
200
-
C
TTIM
45
for
coolant
style
Additional
sizes
available
by
request
.
049
050
A
\
Auto
Tools
for
Mini
-
system
TTDTR
/
L
TTDTDR
/
L
For
Micro
Diameter
Threading
-
Partial
Profile
For
Thread
Relief
,
Chamfering
and
Grooving
L
A
L
1
2
E
§
2
§
T
A
o
I
L
1
^
o
T
j
\
r
60.00
°
r
7
\
tmax
-
Qr
Pitch Pitch
d
f
b
d
f
b
Designation
LI
L
E
Dmin
Designation
LI
L
E
Dmin
tmax
tmax
a
a
a
a
TPI
TPI
mm mm
TT
020
TR
/
L
08
-
A
60 60
°
0.45
-
0.70
56
-
32
1.45
2
0.90
8
40
0.24
0.22
0.06
2.1
TT
020
TR
/
L
08
-
A
60
60
°
0.45
-
0.70
56
-
32
1.45
2
0.90
8
40
0.24
0.22
0.06
2.1
030
TR
/
L
15
-
A
55 55
°
0.50
-
1.00
48
-
24
2.30
3
1.40
15
40
0.27
0.33
0.04
3.2
030
TR
/
L
15
-
A
55
55
°
0.50
-
1.00
48
-
24
2.30
3
1.40
15
40
0.27
0.33
0.04
3.2
030
TR
/
L
15
-
A
60 60
°
0.70
-
1.00
32
-
24
2.30
3
1.40
15
40
0.27
0.33
0.04
3.2
030
TR
/
L
15
-
A
60
60
°
0.70
-
1.00
32
-
24
2.30
3
1.40
15
40
0.27
0.33
0.04
3.2
040
TR
/
L
15
-
A
55
55
°
0.50
-
1.00
48
-
24
3.50
4
1.90
15
50
0.43
0.45
0.10
4.1
040
TR
/
L
15
-
A
55
55
°
0.50
-
1.00
48
-
24
3.50
4
1.90
15
50
0.43
0.45
0.10
4.1
040
TR
/
L
15
-
A
60 60
°
0.80
-
1.00
32
-
24
3.50
1.90
15
50
0.43
0.45
0.10
040
TR
/
L
15
-
A
60
60
°
0.80
-
1.00
32
-
24
3.50
1.90
15
50
0.43
0.45
0.10
4
4.1
4
4.1
050
TR
/
L
15
-
A
55
55
°
0.50
-
1.25
48
-
20
4.40
5
2.40
15
50
0.40
0.45
0.06
5.1
050
TR
/
L
15
-
A
55
55
°
0.50
-
1.25
48
-
20
4.40
5
2.40
15
50
0.40
0.45
0.06
5.1
050
TR
/
L
22
-
A
55
55
°
0.50
-
1.25
48
-
20
4.40
5
2.40
22
50
0.40
0.45
0.06
5.1
050
TR
/
L
22
-
A
55
55
°
0.50
-
1.25
48
-
20
4.40
5
2.40
22
50
0.40
0.45
0.06
5.1
050
TR
/
L
15
-
A
60 60
°
1.00
-
1.25
24
-
20
4.40
5
2.40
15
50
0.55 0.55
0.12
5.1
050
TR
/
L
15
-
A
60
60
°
1.00
-
1.25
24
-
20
4.40
5
2.40
15
50
0.55 0.55
0.12
5.1
050
TR
/
L
22
-
A
60 60
°
1.00
-
1.25
24
-
20
4.40
5
2.40
22
50
0.55 0.55
0.12
5.1
050
TR
/
L
22
-
A
60
60
°
1.00
-
1.25
24
-
20
4.40
5
2.40
22
50
0.55 0.55
0.12
5.1
060
TR
/
L
15
-
A
55
55
°
0.50
-
1.50
48
-
16
5.30
6
2.90
15
50
0.81
0.75
0.12
6.0
060
TR
/
L
15
-
A
55
55
°
0.50
-
1.50
48
-
16
5.30
6
2.90
15
50
0.81
0.75
0.12
6.0
060
TR
/
L
22
-
A
55
55
°
0.50
-
1.50
48
-
16
5.30
6
2.90
22
50
0.81
0.75
0.12
6.0
060
TR
/
L
22
-
A
55
55
°
0.50
-
1.50
48
-
16
5.30
6
2.90
22
50
0.81
0.75
0.12
6.0
060
TR
/
L
15
-
A
60 60
°
1.00
-
1.50
24
-
16
5.30
6
2.90
15
50
0.68
0.65 0.15
6.0
060
TR
/
L
15
-
A
60
60
°
1.00
-
1.50
24
-
16
5.30
6
2.90
15
50
0.68
0.65
0.15
6.0
2.90
0.65
60
°
5.30
22
0.15
060
TR
/
L
22
-
A
60 60
°
1.00
-
1.50
24
-
16
5.30
6
22
50
0.68
0.15
6.0
060
TR
/
L
22
-
A
60
1.00
-
1.50
24
-
16
6
2.90
50
0.68
0.65
6.0
080
TR
/
L
22
-
A
60 60
°
1.00
-
2.00
24
-
13
7.30
8
3.90
22
50
0.94
0.85
0.21
8.0
080
TR
/
L
22
-
A
60
60
°
1.00
-
2.00
24
-
13
7.30
8
3.90
22
50
0.94
0.85
0.21
8.0
Ordering
code
example
:
TT
050
TR
22
-
A
60
TTIM
30
for
without
coolant
style
.
TT
050
TR
22
-
A
60
-
C
TTIM
30
for
coolant
style
Additional
sizes
available
by
request
.
Ordering
code
example
:
TT
060
TDR
27
-
B
150
TT
1
M
45
for
without
coolant
style
.
TT
060
TDR
27
-
B
150
-
C
TTIM
45
for
coolant
style
Additional
sizes
available
by
request
.
051
052
A
\
Auto
Tools
for
Mini
-
system
Sleeve
For
Micro
Diameter
Tools
L
LI
L
2
fe
2
: :
13
H
T
3
3
1
"
Spare
Parts
d d
2
Designation
D
D
2
LI
L
2
L
3
L
H
Screw
Wrench
HS
3040
P
HW
15
L
TCL
1203
-
100
L
-
2
N
3
12
11
6.0
12.0
16
8
21
100
HS
4040
P
HW
20
L
1204
-
100
L
-
2
N
4
12
11
6.0
12.0
16
8
24
100
HS
4040
P
HW
20
L
1205
-
100
L
-
2
N
5
12
11
8.0
12.0
29
100
HS
5050
P
HW
25
L
1206
-
100
L
-
2
N
6
12
11
8.0
12.0
31
100
HS
3040
P
HW
15
L
1603
-
100
L
-
2
N
3
16
15
6.0
12.0
16
8
21
100
HS
4040
P
HW
20
L
15
6.0
13.0
24
1604
-
100
L
-
2
N
4
16
16
8
100
HS
4040
P
HW
20
L
1605
-
100
L
-
2
N
5
16
15
8.0
14.7
29
100
HS
5050
P
HW
25
L
1606
-
100
L
-
2
N
6
16
15
8.0
15.0
31
100
HS
6060
P
HW
30
L
1607
-
100
L
-
2
N
7
16
15
8.0
15.7
33
100
HS
6060
P
HW
30
L
1608
-
100
L
-
2
N
8
16
15
8.4
15.7
37
100
HS
4040
P
HW
20
L
2003
-
100
L
-
2
N
3
20
19
6.0
13.0
16
8
21
100
HS
4040
P
HW
20
L
2004
-
100
L
-
2
N
4
20
19
6.0
13.0
16
8
24
100
HS
4040
P
HW
20
L
2005
-
100
L
-
2
N
5
20
19
8.0
16.0
29
100
HS
5050
P
HW
25
L
2006
-
100
L
-
2
N
6
20
19
8.0
17.0
18
9
31
100
HS
6060
P
HW
30
L
2007
-
100
L
-
2
N
7
20
19
8.0
17.5
9
33
100
18
HS
6060
P
HW
30
L
2008
-
100
L
-
2
N
8
20
19
8.4
19.0
18
9
37
100
HS
6060
P
HW
30
L
2010
-
100
L
-
2
N
10
20
19
8.4
19.7
10
45
100
HS
6060
P
HW
30
L
2012
-
100
L
-
2
N
12
20
19
8.4
19.7
10
48
100
HS
4040
P
HW
20
L
2504
-
100
L
-
2
N
4
25
23
6.0
18.0
16
8
24
100
HS
5050
P
HW
25
L
2505
-
100
L
-
2
N
5
25
23
8.0
18.0
18
9
29
100
HS
5050
P
HW
25
L
2506
-
100
L
-
2
N
6
25
23
8.0
18.0
18
9
31
100
HS
6060
P
HW
30
L
2507
-
100
L
-
2
N
7
25
23
8.0
18.0
18
9
33
100
HS
6060
P
HW
30
L
2508
-
100
L
-
2
N
25
23
37
8
8.4
18.0
18
9
100
HS
6060
P
HW
30
L
2510
-
100
L
-
2
N
10
25
23
8.4
18.0
18
9
45
100
HS
6060
P
HW
30
L
2512
-
100
L
-
2
N
12
25
23
8.4
18.0
20
10
48
100
053
054
A
\
Auto
Tools
for
Mini
-
system
VNDBR
VNDGR
For
Small
Internal
Boring
&
Profiling
For
Small
Internal
Grooving
i
1
i
1
Qj
/
10
"
mB
£
b
V
B
Or
5
L
L
i
a
X
f
b
f
f
2
Designation
L
H
Dmin
R
Designation
L
H
Dmin
i
l
tmax tmax
V
N
020
BR
06
-
R
0.10
6
25.80
3.9
1.80
0.25
2.0
0.10
-
0.15
VN
040
GR
11
-
B
100
1.00
30.8
3.9
3.50
0.1
1.00
4.0
11
030
BR
11
-
R
0.10
11
30.80
3.9
2.60
0.40
3.0
0.10
-
0.15
040
GR
11
-
B
150
1.50
11
30.8
3.9
3.50
0.1
1.00
4.0
040
BR
11
-
R
0.20
11
30.80
3.9
3.50
0.50
4.0
0.20
050
GR
11
-
B
100
1.00
11
30.8
3.9
4.40
0.1
1.20
5.0
050
BR
11
-
R
0.20
11
30.80
3.9
4.50
0.70
5.0
0.20
050
GR
11
-
B
150
1.50
11
30.8
3.9
4.40
0.1
1.20
5.0
3.9
5.0
2.00
30.8
3.9
050
BR
20
-
R
0.20
20
39.80
4.50
0.70 0.20
050
GR
11
-
B
200
11
4.40
0.1
1.20
5.0
060
BR
20
-
R
0.20
20
39.80
3.9
5.30
0.20
20
39.8
3.9
5.20
0.3
1.00
6.0
060
GR
20
-
B
100
1.00
1.40
6.0
060
BR
30
-
R
0.20
30
49.80
3.9
5.30
1.00
6.0
0.20
060
GR
20
-
B
150
1.50
20
39.8
3.9
5.20
0.3
1.40
6.0
070
BR
30
-
R
0.20
30
49.80
3.9
6.20
1.00
7.0
0.20
060
GR
20
-
B
200
2.00
20
39.8
3.9
5.20
0.3
1.40
6.0
070
GR
20
-
B
100
1.00
20
39.8
3.9
6.20
0.3
2.00
7.0
070
GR
20
-
B
150
1.50
20
39.8
3.9
6.20
0.3
2.00
7.0
070
GR
20
-
B
200
2.00
20
39.8
3.9
6.20
0.3
2.00
7.0
VNDBBR
For
Small
Internal
Back
Boring
1
5
g
7
'
/
x
-
*
r
-
2
I
2.0
L
x
f
Designation
L
H
Dmin
R
i
tmax
VN
040
BBR
11
-
R
0.15
11
30.80
3.9
3.60
1.00
4.0
0.15
050
BBR
11
-
R
0.20
11
30.80
3.9
4.60
1.30
5.0
0.20
050
BBR
20
-
R
0.20
20
39.80
3.9
4.60
1.30
5.0
0.20
060
BBR
11
-
R
0.20
11
30.80
3.9
5.40
1.80
6.0
0.20
39.80
060
BBR
20
-
R
0.20
20
3.9
5.40
1.80
6.0
0.20
055
056
A
\
Auto
Tools
for
Mini
-
system
VNDGFR
SVNR
-
N
For
Small
Internal
Face
Grooving
Without
side
stopper
l
..
i
A
A
I
to
i
l
tmax
T
fN
2
o
I
QJ
Notel
L
P
i
o
%
/
Setscrew
(
SP
3
X
4
)
g
.
L
A
T
S
V
/
///
m
/
/
y
'
X
-
C
(
NB
"
is
"
0
)
25
L
X
;
Spare
Parts
<
#
b
f
Designation
L
Dmin
Dmax
R
i
H
h
Designation
H
W
L
S
2
tmax
Screw
Wrench
VN
050
GFR
11
-
B
100
1.00
11
30.8
3.9
4.40
2.0
6.00
0.03
-
0.05
SVNR
1010
-
H
12
N
10
10
100
10
10
22
oo
050
GFR
11
-
B
200
2.00
11
30.8
3.9
4.40
4.0
6.00
0.03
-
0.05
1212
-
X
12
N
12
12
120
12
12
22
CO
050
GFR
11
-
B
300
3.00
30.8
3.9
4.40
6.0
6.00
0.03
-
0.05
BFTX
30080
-
Y
50
TPF
-
08
11
1616
-
X
12
N
16
16
120
16
16
22
oo
060
GFR
20
-
B
100
1.00
20
39.8
3.9
5.20
1.5
7.00
0.03
-
0.05
2020
-
X
12
N
20
20
120
20
20
22
oo
060
GFR
20
-
B
200
2.00
20
39.8
3.9
5.20
3.0
7.00
0.03
-
0.05
2525
-
M
12
N
25
22
25
25
150
25
oo
060
GFR
20
-
B
300
3.00
20
39.8
3.9
5.20
4.0
7.00
0.03
-
0.05
oo
VNDTR
S
-
SVNR
-
N
For
Small
Internal
Threading
Without
side
stopper
H
1
H
o
Qyf
IS
)
rN
3
2
o
Notel
L
FT
£
£
E
Setscrew
(
SP
3
X
4
)
w
u
i
Spare
Parts
Pitch
f
Designation
L
H
E
Dmin
d
2
S
Designation
D
L
H
2
tmax
TPI
mm
Screw
Wrench
VN
050
TR
11
-
A
60
1.00
-
1.25
24
-
20
30.8
3.90
3.8
1.30
5.00
11
0.6
S
12
F
-
SVNR
12
N
20
12
80
4
11
23
060
TR
11
-
A
60
1.00
-
1.50
24
-
16
11
30.8
3.90
4.6
1.60
6.00
0.8
S
14
G
-
SVNR
12
N
20
14
90
4
13
23
BFTX
30080
-
Y
50
TPF
-
08
060
TR
20
-
A
60
1.00
-
1.50
24
-
16
20
39.8
3.90
4.6
1.60
6.00
0.8
S
16
H
-
SVNR
12
N
24
16
100
6
15
23
050
TR
11
-
A
55
0.50
-
1.25
48
-
20
11
30.8
3.90
3.8
1.30
5.00
0.6
S
20
H
-
SVNR
12
N
24
20
100
6
18
24
060
TR
11
-
A
55
0.50
-
1.25
48
-
20
11
30.8
3.90
4.6
1.60
6.00
0.8
S
25
H
-
SVNR
12
N
30
25
100
6
23
24
060
TR
20
-
A
55
0.50
-
1.25
48
-
20 20
39.8
3.90
4.6
1.60
6.00
0.8
057
058
A
\
Mini
Carbide
Boring
Tools
Technical
Section
Internal
Grooving
(
Square
)
Mini
Carbide
Boring
Tools
Code
System
D
-
B
100
-
1.5
D
07
-
R
0.50
TTIM
45
B
Designation
(
Internal
)
b
f
d
S
Dmin
R
tmax
a
O
Type
of
operation
Connector
size
MB
04
GR
-
B
050
-
1.0
D
055
0.50
2.6
3.2
5.2
4
1.0
5.5
04
GR
-
B
070
-
1.0
D
055
0.70
2.6
3.2
5.2
4
1.0
5.5
04
GR
-
B
100
-
1.0
D
055
1.00
2.6
3.2
5.2
4
1.0
5.5
-
a
D
07
04
GR
-
B
150
-
1.0
D
055
1.50
2.6
3.2
5.2
1.0
5.5
4
04
GR
-
B
200
-
1.0
D
055
2.00
2.6
3.2
5.2
4
1.0
5.5
PR
:
Profiling
&
boring
XR
:
Back
boring
CR
:
Chamfering
GR
:
grooving
QR
:
Copying
IR
:
Threading
FR
:
Face
cutting
04
GR
-
B
100
-
1.4
D
06
1.00
2.6
3.7
5.7
1.4
6.0
4
04
GR
-
B
120
-
1.4
D
06
1.20
2.6
3.7
5.7
4
1.4
6.0
04
GR
-
B
150
-
1.4
D
06
1.50
2.6
3.7
5.7
4
1.4
6.0
04
GR
-
B
200
-
1.4
D
06
2.00
2.6
3.7
5.7
4
1.4
6.0
04
GR
-
B
100
-
2.3
D
07
1.00
2.6
4.7
6.7
4
2.3
6.0
04
GR
-
B
150
-
2.3
D
07
1.50
2.6
4.7
6.7
4
2.3
6.0
04
GR
-
B
200
-
2.3
D
07
2.00
2.6
4.7
6.7
4
2.3
6.0
05
GR
/
L
-
B
050
-
1.4
D
07
0.50
3.3
4.3
6.8
4
1.4
7.0
Width
of
cutting
edge
(
Pitch
of
thread
insert
)
05
GR
/
L
-
B
075
-
1.4
D
07
0.75
3.3
4.3
6.8
5
1.4
7.0
Hand
05
GR
/
L
-
B
080
-
1.4
D
07
0.83
3.3
4.3
5
7.0
6.8
1.4
05
GR
/
L
-
B
090
-
1.4
D
07
0.93
3.3
4.3
6.8
5
1.4
7.0
EEa
05
GR
/
L
-
B
100
-
1.4
D
07
1.00
3.3
4.3
6.8
5
7.0
1.4
05
GR
/
L
-
B
120
-
1.4
D
07
1.20
3.3
4.3
6.8
5
1.4
7.0
B
100
05
GR
/
L
-
B
140
-
1.4
D
07
1.40
3.3
4.3
6.8
5
1.4
7.0
R
:
right
hand
L
:
left
hand
05
GR
/
L
-
B
150
-
1.4
D
07
1.50
3.3
4.3
6.8
4
1.4
7.0
B
:
Square
groove
R
:
Round
groove
05
GR
/
L
-
B
170
-
1.4
D
07
1.60
3.3
4.3
6.8
5
1.4
7.0
05
GR
/
L
-
B
200
-
1.4
D
07
2.00
3.3
4.3
6.8
5
1.4
7.0
05
GR
/
L
-
B
100
-
2.3
D
08
1.00
3.3
5.2
7.7
5
2.3
8.0
05
GR
/
L
-
B
150
-
2.3
D
08
1.50
3.3
5.2
7.7
5
2.3
8.0
05
GR
/
L
-
B
200
-
2.3
D
08
2.00
3.3
5.2
7.7
5
2.3
8.0
05
GR
/
L
-
B
100
-
2.8
D
09
1.00
3.3
5.8
8.3
5
2.8
9.0
05
GR
/
L
-
B
150
-
2.8
D
09
1.50
3.3
5.8
8.3
5
2.8
9.0
Min
.
boring
dia
Max
.
processing
length
05
GR
/
L
-
B
200
-
2.8
D
09
2.00
3.3
5.8
8.3
5
2.8
9.0
05
GR
/
L
-
B
250
-
2.8
D
09
2.50
3.3
5.8
8.3
5
2.8
9.0
05
GR
/
L
-
B
300
-
2.8
D
09
3.00
3.3
5.8
8.3
5
2.8
9.0
ri
-
ETPli
]
- -
S
D
07
07
GR
/
L
-
B
075
-
2.0
D
10
0.73
3.5
6.0
9.5
7
2.0
10.0
07
GR
/
L
-
B
080
-
2.0
D
10
0.83
3.5
6.0
9.5
7
2.0
10.0
07
GR
/
L
-
B
090
-
2.0
D
10
0.93
3.5
6.0
9.5
7
2.0
10.0
07
GR
/
L
-
B
100
-
2.0
D
10
1.00
3.5
6.0
9.5
7
2.0
10.0
07
GR
/
L
-
B
120
-
2.0
D
10
1.20
3.5
6.0
9.5
7
2.0
10.0
07
GR
/
L
-
B
140
-
2.0
D
10
1.40
3.5
6.0
9.5
7
2.0
10.0
07
GR
/
L
-
B
150
-
2.0
D
10
1.50
3.5
6.0
9.5
7
2.0
10.0
07
GR
/
L
-
B
170
-
2.0
D
10
1.70
3.5
6.0
9.5
7
2.0
10.0
07
GR
/
L
-
B
200
-
2.0
D
10
2.00
3.5
9.5
2.0
6.0
7
10.0
07
GR
/
L
-
B
250
-
2.0
D
10
2.50
3.5
6.0
9.5
7
2.0
10.0
07
GR
/
L
-
B
300
-
2.0
D
10
3.00
3.5
6.0
9.5
7
2.0
10.0
Radius
Grade
07
GR
/
L
-
B
100
-
3.0
D
11
1.00
3.5
7.0
10.5
7
3.0
11.0
07
GR
/
L
-
B
150
-
3.0
D
11
1.50
3.5
7.0
10.5
7
3.0
11.0
-
Enao
-
EBES
R
0.50
TTIM
45
B
07
GR
/
L
-
B
200
-
3.0
D
11
2.00
3.5
7.0
10.5
7
3.0
11.0
07
GR
/
L
-
B
250
-
3.0
D
11
2.50
3.5
7.0
10.5
7
3.0
11.0
07
GR
/
L
-
B
300
-
3.0
D
11
3.00
3.5
7.0
10.5
7
3.0
11.0
07
GR
/
L
-
B
100
-
3.5
D
12
1.00
3.5
7.5
11.0
7
3.5
12.0
07
GR
/
L
-
B
150
-
3.5
D
12
1.50
3.5
7.5
11.0
7
3.5
12.0
Note
:
1
.
05
GR
type
insert
is
not
in
the
standard
inventory
,
for
deeper
and
smaller
sizes
,
please
contact
the
supplier
to
ask
whether
can
be
grinded
or
not
?
2
.
09
type
insert
can
be
drilled
16
mm
hole
by
grinding
the
insert
and
the
holder
,
the
cutting
depth
can
reach
6.0
mm
,
and
17
mm
hole
can
cut
the
depth
up
to
7.0
mm
.
When
using
the
insert
,
try
to
choose
the
holder
with
a
short
and
thick
overhang
and
the
wider
insert
3
.
You
can
contact
the
supplier
if
you
have
special
requirements
for
the
radius
.
059
060
A
\
Mini
Carbide
Boring
Tools
Technical
Section
Internal
Grooving
(
Square
)
Internal
Grooving
(
Round
)
±
x
MRP
D
min
.
s
i
max
.
toolholderface
Designation
(
Internal
)
b
f
d
S
Dmin
R
tmax
a
Designation
(
Internal
)
b
f
d
S
Dmin
R
tmax
a
MB
07
GR
/
L
-
B
200
-
3.5
D
12
2.00
3.5
7.5
11.0
7
3.5
12.0
07
GR
/
L
-
B
250
-
3.5
D
12
2.50
3.5
7.5
11.0
7
3.5
12.0
07
GR
/
L
-
B
300
-
3.5
D
12
3.00
3.5
7.5
11.0
7
3.5
12.0
MB
04
GR
-
B
100
-
1.4
D
06
-
R
0.50
1.00
2.6
3.7
5.7
4
1.4
6.0
0.50
13.5
09
GR
/
L
-
B
100
-
4.0
D
14
1.00
4.7
9.0
9
4.0
14.0
04
GR
-
B
150
-
1.4
D
06
-
R
0.75
1.50
2.6
3.7
5.7
4
1.4
6.0
0.75
13.5
09
GR
/
L
-
B
120
-
4.0
D
14
1.20
4.7
9.0
9
4.0
14.0
13.5
09
GR
/
L
-
B
140
-
4.0
D
14
1.40
4.7
9.0
9
4.0
14.0
04
GR
-
B
200
-
1.4
D
06
-
R
1.00
2.00
2.6
3.7
5.7
4
1.4
6.0
1.00
13.5
09
GR
/
L
-
B
150
-
4.0
D
14
1.50
4.7
9.0
9
4.0
14.0
04
GR
-
B
100
-
2.3
D
07
-
R
0.50
1.00
2.6
4.7
6.7
4
2.3
6.0
0.50
13.5
09
GR
/
L
-
B
170
-
4.0
D
14
1.70
4.7
9.0
9
4.0
14.0
04
GR
-
B
150
-
2.3
D
07
-
R
0.75
1.50
2.6
4.7
6.7
4
2.3
6.0
0.75
13.5
09
GR
/
L
-
B
200
-
4.0
D
14
2.00
4.7
9.0
9
4.0
14.0
13.5
09
GR
/
L
-
B
250
-
4.0
D
14
2.50
4.7
9.0
9
4.0
14.0
04
GR
-
B
200
-
2.3
D
07
-
R
1.00
2.00
2.6
4.7
6.7
2.3
4
6.0
1.00
13.5
09
GR
/
L
-
B
300
-
4.0
D
14
3.00
4.7
9.0
9
4.0
14.0
05
GR
/
L
-
B
100
-
1.4
D
07
-
R
0.50
1.00
3.3
4.3
6.8
5
1.4
7.0
0.50
13.5
09
GR
/
L
-
B
200
-
4.0
D
14
-
R
0.20
2.00
4.7
9.0
9
4.0
14.0
0.2
15.0
09
GR
/
L
-
B
150
-
5.5
D
16
1.50
4.7
10.5
9
5.5
16.0
05
GR
/
L
-
B
150
-
1.4
D
07
-
R
0.75
1.50
3.3
4.3
6.8
4
1.4
7.0
0.75
15.0
09
GR
/
L
-
B
200
-
5.5
D
16
2.00
4.7
10.5
9
5.5
16.0
05
GR
/
L
-
B
200
-
1.4
D
07
-
R
1.00
2.00
3.3
4.3
6.8
5
1.4
7.0
1.00
15.0
09
GR
/
L
-
B
250
-
5.5
D
16
2.50
4.7
10.5
9
5.5
16.0
05
GR
/
L
-
B
100
-
2.3
D
08
-
R
0.50
1.00
3.3
5.2
7.7
5
2.3
8.0
0.50
15.0
09
GR
/
L
-
B
300
-
5.5
D
16
3.00
4.7
10.5
9
5.5
16.0
15.0
09
GR
/
L
-
B
150
-
5.5
D
16
-
R
0.20
1.50
4.7
10.5
9
5.5
16.0
0.2
05
GR
/
L
-
B
150
-
2.3
D
08
-
R
0.75
1.50
3.3
5.2
7.7
5
2.3
8.0
0.75
15.0
09
GR
/
L
-
B
200
-
5.5
D
16
-
R
0.20
2.00
4.7
10.5
9
5.5
16.0
0.2
05
GR
/
L
-
B
200
-
2.3
D
08
-
R
1.00
2.00
3.3
5.2
7.7
5
2.3
8.0
1.00
15.0
09
GR
/
L
-
B
250
-
5.5
D
16
-
R
0.20
2.50
4.7
10.5
9
5.5
16.0
0.2
05
GR
/
L
-
B
100
-
2.8
D
09
-
R
0.50
1.00
3.3
5.8
8.3
5
2.8
9.0
0.50
15.0
09
GR
/
L
-
B
300
-
5.5
D
16
-
R
0.20
3.00
4.7
10.5
9
5.5
16.0
0.2
16.0
09
GR
/
L
-
B
150
-
6.5
D
17
1.50
4.7
11.5
9
6.5
17.0
05
GR
/
L
-
B
150
-
2.8
D
09
-
R
0.75
1.50
3.3
5.8
8.3
5
2.8
9.0
0.75
16.0
09
GR
/
L
-
B
200
-
6.5
D
17
2.00
4.7
11.5
9
6.5
17.0
05
GR
/
L
-
B
200
-
2.8
D
09
-
R
1.00
2.00
3.3
5.8
8.3
5
2.8
9.0
1.00
16.0
09
GR
/
L
-
B
250
-
6.5
D
17
2.50
4.7
11.5
9
6.5
17.0
16.0
07
GR
/
L
-
B
100
-
2.0
D
10
-
R
0.50
1.00
3.5
6.0
9.5
7
2.0
10.0
0.50
09
GR
/
L
-
B
300
-
6.5
D
17
3.00
4.7
11.5
9
6.5
17.0
15.7
11
GR
/
L
-
B
120
-
4.3
D
16
1.20
5.3
10.2
4.3
16.0
11
07
GR
/
L
-
B
150
-
2.0
D
10
-
R
0.75
1.50
3.5
6.0
9.5
7
2.0
10.0
0.75
15.7
11
GR
/
L
-
B
140
-
4.3
D
16
1.40
5.3
10.2
11
4.3
16.0
07
GR
/
L
-
B
200
-
2.0
D
10
-
R
1.00
2.00
3.5
6.0
9.5
7
2.0
10.0 1.00
15.7
11
GR
/
L
-
B
150
-
4.3
D
16
-
R
0.20
1.50
5.3
10.2
4.3
16.0
0.2
11
15.7
11
GR
/
L
-
B
170
-
4.3
D
16
-
R
0.20
1.70
5.3
10.2
11
4.3
16.0
0.2
07
GR
/
L
-
B
300
-
2.0
D
10
-
R
1.50
3.00
3.5
6.0
9.5
7
2.0
10.0
1.50
15.7
11
GR
/
L
-
B
200
-
4.3
D
16
-
R
0.20
2.00
5.3
10.2
11
4.3
16.0
0.2
07
GR
/
L
-
B
100
-
3.0
D
11
-
R
0.50
1.00
3.5
7.0
10.5
7
3.0
11.0
0.50
15.7
11
GR
/
L
-
B
250
-
4.3
D
16
-
R
0.20
2.50
5.3
10.2
11
4.3
16.0
0.2
07
GR
/
L
-
B
150
-
3.0
D
11
-
R
0.75
1.50
3.5
7.0
10.5
7
3.0
11.0
0.75
15.7
11
GR
/
L
-
B
300
-
4.3
D
16
-
R
0.20
3.00
5.3
10.2
11
4.3
16.0
0.2
15.7
11
GR
/
L
-
B
400
-
4.3
D
16
-
R
0.20
4.00
5.3
10.2
11
4.3
16.0
0.2
07
GR
/
L
-
B
200
-
3.0
D
11
-
R
1.00
2.00
3.5
7.0
10.5
7
3.0
11.0 1.00
17.5
11
GR
/
L
-
B
150
-
6.0
D
18
-
R
0.20
1.50
5.3
12.0
11
6.0
18.0
0.2
07
GR
/
L
-
B
300
-
3.0
D
11
-
R
1.50
3.00
3.5
7.0
10.5
3.0
7
11.0
1.50
17.5
5.3
0.2
11
GR
/
L
-
B
200
-
6.0
D
18
-
R
0.20
2.00
12.0
11
6.0
18.0
17.5
07
GR
/
L
-
B
100
-
3.5
D
12
-
R
0.50
1.00
3.5
7.5
11.0
7
3.5
12.0
0.50
11
GR
/
L
-
B
250
-
6.0
D
18
-
R
0.20
2.50
5.3
12.0
11
6.0
18.0
0.2
17.5
11
GR
/
L
-
B
300
-
6.0
D
18
-
R
0.20
3.00
5.3
12.0
6.0
18.0
0.2
11
07
GR
/
L
-
B
150
-
3.5
D
12
-
R
0.75
1.50
3.5
7.5
11.0
7
3.5
12.0
0.75
17.5
11
GR
/
L
-
B
400
-
6.0
D
18
-
R
0.20
4.00
5.3
12.0
11
6.0
18.0
0.2
07
GR
/
L
-
B
200
-
3.5
D
12
-
R
1.00
2.00
3.5
7.5
11.0
7
3.5
12.0
1.00
19.5
11
GR
/
L
-
B
150
-
8.0
D
20
-
R
0.20
1.50
5.3
14.0
8.0
20.0
0.2
11
19.5
11
GR
/
L
-
B
200
-
8.0
D
20
-
R
0.20
2.00
5.3
14.0
11
8.0
20.0
0.2
07
GR
/
L
-
B
300
-
3.5
D
12
-
R
1.50
3.00
3.5
7.5
11.0
7
3.5
12.0
1.50
19.5
11
GR
/
L
-
B
250
-
8.0
D
20
-
R
0.20
2.50
5.3
14.0
11
8.0
20.0
0.2
09
GR
/
L
-
B
100
-
4.0
D
14
-
R
0.50
1.00
4.7
9.0
13.5
9
4.0
14.0
0.50
19.5
11
GR
/
L
-
B
300
-
8.0
D
20
-
R
0.20
3.00
5.3
14.0
11
8.0
20.0
0.2
09
GR
/
L
-
B
150
-
4.0
D
14
-
R
0.75
1.50
4.7
9.0
13.5
9
4.0
14.0
0.75
19.5
11
GR
/
L
-
B
400
-
8.0
D
20
-
R
0.20
4.00
5.3
14.0
11
8.0
20.0
0.2
09
GR
/
L
-
B
200
-
4.0
D
14
-
R
1.00
2.00
4.7
9.0
13.5
9
4.0
14.0
1.00
Note
:
1
.
05
GR
type
insert
is
not
in
the
standard
inventory
,
for
deeper
and
smaller
sizes
,
please
contact
the
supplier
to
ask
whether
can
be
grinded
or
not
?
2
.
09
type
insert
can
be
drilled
16
mm
hole
by
grinding
the
insert
and
the
holder
,
the
cutting
depth
can
reach
6.0
mm
,
and
17
mm
hole
can
cut
the
depth
up
to
7.0
mm
.
When
using
the
insert
,
try
to
choose
the
holder
with
a
short
and
thick
overhang
and
the
wider
insert
3
.
You
can
contact
the
supplier
if
you
have
special
requirements
for
the
radius
.
09
GR
/
L
-
B
300
-
4.0
D
14
-
R
1.50
3.00
4.7
9.0
13.5
9
4.0
14.0 1.50
061
062
A
\
Mini
Carbide
Boring
Tools
Boring
and
Profiling
Internal
Grooving
(
Round
)
D
min
.
D
min
.
Klemmhalter
Stimseite
tool
holder
face
t
max
.
loolholder
face
Designation
(
Internal
)
Designation
(
Internal
)
b
f
d
d
f
S
Dmin
R
S
Dmin
R
tmax
tmax
a
a
MB
09
GR
/
L
-
B
150
-
5.5
D
16
-
R
0.75
1.50
4.7
10.5
15.0
9
5.5
16.0
0.75
MB
04
PR
/
L
-
D
06
-
R
0.20
4
2.6
5.0
3.0
0.8
5.5
0.2
09
GR
/
L
-
B
200
-
5.5
D
16
-
R
1.00
2.00
4.7
10.5
15.0
9
5.5
16.0
1.00
05
PR
/
L
-
D
07
-
R
0.20
5
3.3
6.1
3.6
1.0
6.5
0.2
09
GR
/
L
-
B
300
-
5.5
D
16
-
R
1.50
3.00
4.7
10.5
15.0
9
5.5
16.0
1.50
07
PR
/
L
-
D
10
-
R
0.20
7
3.5
9.5
6.0
2.0
10.0
0.2
09
GR
/
L
-
B
150
-
6.5
D
17
-
R
0.75
1.50
4.7
11.5
16.0
9
6.5
17.0
0.75
09
PR
/
L
-
D
14
-
R
0.20
9
4.7
13.2
8.7
4.0
13.8
0.2
09
GR
/
L
-
B
200
-
6.5
D
17
-
R
1.00
2.00
4.7
11.5
16.0
9
6.5
17.0
1.00
09
GR
/
L
-
B
300
-
6.5
D
17
-
R
1.50
3.00
4.7
11.5
16.0
9
6.5
17.0
1.50
11
GR
/
L
-
B
150
-
4.3
D
16
-
R
0.75
1.50
5.3
10.2
15.7
11
4.3
16.0
0.75
Copying
11
GR
/
L
-
B
200
-
4.3
D
16
-
R
1.00
2.00
5.3
10.2
15.7
4.3
16.0
1.00
11
11
GR
/
L
-
B
250
-
4.3
D
16
-
R
1.25
2.50
5.3
10.2
15.7
11
4.3
16.0
1.25
11
GR
/
L
-
B
300
-
4.3
D
16
-
R
1.50
3.00
5.3
10.2
15.7
4.3
16.0
1.50
11
11
GR
/
L
-
B
400
-
4.3
D
16
-
R
2.00
4.00
5.3
10.2
15.7
4.3
16.0
2.00
11
11
GR
/
L
-
B
150
-
6.0
D
18
-
R
0.75
1.50
5.3
12.0
17.5
11
6.0
18.0
0.75
D
min
.
^
-
^
X
11
GR
/
L
-
B
200
-
6.0
D
18
-
R
1.00
2.00
5.3
12.0
17.5
11
6.0
18.0
1.00
11
GR
/
L
-
B
250
-
6.0
D
18
-
R
1.25
2.50
5.3
12.0
17.5
11
6.0
18.0
1.25
11
GR
/
L
-
B
300
-
6.0
D
18
-
R
1.50
3.00
5.3
12.0
17.5
11
6.0
18.0
1.50
11
GR
/
L
-
B
400
-
6.0
D
18
-
R
2.00
5.3
17.5
4.00
12.0
11
6.0
18.0
2.00
Klemmhalter
Stimseite
toolholderface
11
GR
/
L
-
B
150
-
8.0
D
20
-
R
0.75
1.50
5.3
14.0
19.5
11
8.0
20.0
0.75
11
GR
/
L
-
B
200
-
8.0
D
20
-
R
1.00
2.00
5.3
14.0
19.5
8.0
20.0
1.00
11
11
GR
/
L
-
B
250
-
8.0
D
20
-
R
1.25
2.50
5.3
14.0
19.5
11
8.0
20.0
1.25
11
GR
/
L
-
B
300
-
8.0
D
20
-
R
1.50
3.00
5.3
14.0
19.5
11
8.0
20.0
1.50
Designation
(
Internal
)
11
GR
/
L
-
B
400
-
8.0
D
20
-
R
2.00
4.00
5.3
14.0
19.5
11
8.0
20.0
2.00
d
f
S
Dmin
R
tmax
a
4
2.6
5.7
3.7
1.4
6.0
0.2
MB
04
QR
-
1.4
D
06
-
R
0.20
5
3.3
6.8
4.3
1.5
7.0
0.2
05
QR
/
L
-
1.5
D
07
-
R
0.20
5
3.3
8.5
5.5
3.5
9.0
0.2
05
QR
/
L
-
3.5
D
09
-
R
0.20
7
3.5
9.5
6.0
2.0
10.0
0.2
07
QR
/
L
-
2.0
D
10
-
R
0.20
7
3.5
11.0
7.5
3.5
12.0
0.2
07
QR
/
L
-
3.5
D
12
-
R
0.20
9
4.7
13.5
9.0
4.0
14.0
0.2
09
QR
/
L
-
4.0
D
14
-
R
0.20
9
4.7
15.5
11.0
6.0
16.0
0.2
09
QR
/
L
-
6.0
D
16
-
R
0.20
9
4.7
16.5
12.0
7.0
17.0
0.2
09
QR
/
L
-
7.0
D
17
-
R
0.20
11
5.3
15.5
10.0
4.0
16.0
0.2
11
QR
/
L
-
4.0
D
16
-
R
0.20
11
5.3
19.5
14.0
8.0
20.0
0.2
11
QR
/
L
-
8.0
D
20
-
R
0.20
063
064
A
\
Mini
Carbide
Boring
Tools
Internal
Chamfering
Internal
Threading
(
Partial
profile
)
f
D
min
.
toolholder
face
toolholder
face
Pitch
Designation
(
Internal
)
Designation
(
Internal
)
f
d
f
d
S
E
Dmin
R
S
Size
E
tmax
tmax
a
a
TPI
mm
MB
04
CR
-
0.8
D
06
-
R
0.20
4
2.6
5.2
3.2
1.1
0.8
5.7
0.2
MB
04
IR
0.50
-
1.50
-
D
07
0.50
-
1.50
48
-
16
4
2.6
5.3
3.7
2.8
0.81
05
CR
-
1.0
D
07
-
R
0.20
5
3.3
6.5
3.7
1.4
1.0
7.0
0.2
05
IR
1.00
-
1.75
-
D
07
1.00
-
1.75
24
-
14
5
3.3
6.8
4.3
2.8
0.95
M
10
xl
.
5
,
M
12
X
1.5
,
M
12
x
1.75
07
CR
-
2.0
D
09
-
R
0.20
7
3.5
9.5
6.0
1.6
2.0
10.0
0.2
07
IR
1.00
-
2.00
-
D
09
1.00
-
2.00
24
-
14
7
3.5
9.5
6.0
2.8
1.08
M
12
xl
.
75
,
M
14
x
2
09
IR
1.50
-
3.00
-
D
12
1.50
-
3.00
16
-
8
9
4.7
12.5
8.0
3.55
1.35
M
20
X
2.5
,
M
22
X
2.5
,
M
24
x
3
Internal
Threading
(
Trapez
DIN
103
)
Back
Boring
t
f
1
-
4
#
D
min
.
47
°
nil
L
.
t
max
.
-
v
!
toolholder
face
Klemmhalter
Stirnseite
toolholder
face
Designation
(
Internal
)
Pitch
b d
f
S
Size
E
tmax
a
Designation
(
Internal
)
d
f
S
SI
Dmin
R
tmax
a
MB
05
IR
/
L
-
15
TR
-
07
R
1.5
0.47
5
3.3
6.8
4.3
0.90
2.90
Trl
0
xl
.
5
MB
04
XR
/
L
-
1.4
D
06
-
R
0.20
4
2.6
2.3
5.7
3.7
1.4
6.0
0.2
3.3
05
IR
/
L
-
20
TR
-
08
R
2.0
0.60
5
7.2
4.7
1.25
2.70
Trl
0
x
2
f
Trllx
2
,
Trl
2
x
2
05
XR
/
L
-
1.5
D
07
-
R
0.20
5
3.3
2.3
4.3
7.0 0.2
6.8
1.5
05
IR
/
L
-
30
TR
-
08
R
3.0
0.96
5
3.3
7.5
5.0
1.75
2.40
Trllx
3
,
Trl
2
x
3
05
XR
/
L
-
3.5
D
09
-
R
0.20
5
3.3
2.3
8.5
5.5
3.5
9.0
0.2
07
IR
/
L
-
30
TR
-
10
R
3.0
0.96
7
3.5
9.7
6.2
1.75
2.70
Trl
4
x
3
,
Tr
22
x
3
,
Tr
26
x
3
,
Tr
28
x
3
07
XR
/
L
-
2.0
D
10
-
R
0.20
7
3.5
2.6
9.5
6.0
2.0
10.0
0.2
07
IR
/
L
-
40
TR
-
11
R
4.0
1.33
7
3.5
10.2
6.7
2.25
2.20
Trl
6
x
4
,
Trl
8
x
4
,
Tr
20
x
4
07
XR
/
L
-
3.5
D
12
-
R
0.20
7
3.5
2.6
11.0
7.5
3.5
12.0
0.2
09
IR
/
L
-
40
TR
-
14
R
4.0
1.33
9
4.7
12.5
8.0
2.25
2.20
Trl
8
x
4
,
Tr
20
x
4
09
XR
/
L
-
4.0
D
14
-
R
0.20
9
4.7
3.0
13.5
9.0
4.0
14.0
0.2
09
IR
/
L
-
50
TR
-
14
R
5.0
1.69
9
4.7
13.5
9.0
2.75
3.55
Tr
22
x
5
,
Tr
24
x
5
,
Tr
26
x
5
,
Tr
28
x
5
09
XR
/
L
-
6.0
D
16
-
R
0.20
9
4.7
3.0
15.5
11.0
6.0
16.0
0.2
11
IR
/
L
-
40
TR
-
15
R
4.0
1.33
11
5.3
14.5
9.0
2.25
4.00
Trl
8
x
4
f
Tr
20
x
4
09
XR
/
L
-
7.0
D
17
-
R
0.20
9
4.7
3.0
16.5
12.0
7.0
17.0
0.2
11
IR
/
L
-
50
TR
-
16
R
5.0
1.69
11
5.3
15.5
10.0
2.75
3.60
Tr
22
x
5
,
Tr
24
x
5
,
Tr
26
x
5
,
Tr
28
x
5
11
XR
/
L
-
4.0
D
16
-
R
0.20
11
5.3
3.5
15.5
10.0
4.0
16.0
0.2
11
IR
/
L
-
60
TR
-
16
R
6.0
1.92
11
5.3
15.7
10.2
3.50
3.30
Tr
30
x
6
f
Tr
36
x
6
5.3
11
XR
/
L
-
8.0
D
20
-
R
0.20
11
3.5
19.5
14.0
8.0
20.0
0.2
065
066
A
\
Mini
Carbide
Boring
Tools
Face
Grooving
in
Pivots
(
Square
)
Face
Grooving
in
Pivots
(
Round
)
f
D
min
.
o
toolholder
face
toolholder
face
<
/
)
1
/
1
Designation
(
Internal
)
Designation
(
Internal
)
b
f
d b
f
d
S
S
Dmin
Dm
in
tmax
tmax
a
r
a
r
MB
09
FER
/
L
-
B
100
-
1.5
D
12
1.0
8.3
7.0
11.5
9
1.5
12
MB
09
FER
/
L
-
R
100
-
1.5
D
12
1.0
8.3
7.0
11.5
9
1.5
12
0.50
09
FER
/
L
-
B
150
-
2.5
D
12
-
R
0.20
1.5
8.3
7.5
12.0
9
2.5
12
0.2
09
FER
/
L
-
R
150
-
2.0
D
12
1.5
8.3
7.5
12.0
9
2.5
12
0.75
09
FER
/
L
-
B
200
-
3.0
D
12
-
R
0.20
2.0
8.3
8.0
12.5
9
3.0
12
0.2
09
FER
/
L
-
R
200
-
3.0
D
12
2.0
8.3
8.0
12.5
9
3.0
12
1.00
09
FER
/
L
-
B
300
-
3.0
D
12
-
R
0.20
3.0
8.3
9.0
13.5
9
3.0
12
0.2
09
FER
/
L
-
R
300
-
3.0
D
12
3.0
8.3
9.0
13.5
9
3.0
12
1.50
09
FER
/
L
-
B
200
-
5.0
D
12
-
R
0.20
2.0
10.3
8.0
12.5
9
5.0
12
0.2
09
FER
/
L
-
R
200
-
5.0
D
12
2.0
10.3
8.0
12.5
9
5.0
12
1.00
09
FER
/
L
-
B
300
-
5.0
D
12
-
R
0.20
3.0
10.3
9.0
13.5
9
5.0
12
0.2
09
FER
/
L
-
R
300
-
5.0
D
12
3.0
10.3
9.0
13.5
9
5.0
12
1.50
09
FER
/
L
-
B
300
-
6.0
D
12
-
R
0.20
3.0
11.3
9.0
13.5
9
6.0
12
0.2
09
FER
/
L
-
R
300
-
6.0
D
12
3.0
11.3
9.0
13.5
9
6.0
12
1.50
Face
Grooving
(
Square
)
Face
Grooving
(
Round
)
toolholder
face
foolholder
face
Designation
(
Internal
)
b
f
d
S
Dmin
tmax
a
r
Designation
(
Internal
)
b
f
d
S
Dmin
tmax
a
r
MB
09
FNR
/
L
-
B
100
-
3.0
D
14
1.0
8.2
7.0
11.5
9
3
14
MB
09
FNR
/
L
-
R
100
-
3.0
D
14
1.0
8.3
7
11.5
9
3
14
0.50
09
FNR
/
L
-
B
150
-
3.0
D
14
-
R
0.20
1.5
8.2
7.5
12.0
9
3
14
0.2
09
FNR
/
L
-
R
150
-
3.0
D
14
1.5
8.3
7.5
12.0
9
3
14
0.75
09
FNR
/
L
-
B
200
-
3.0
D
14
-
R
0.20
2.0
8.2
8.0
12.5
9
3
14
0.2
09
FNR
/
L
-
R
200
-
3.0
D
14
2.0
8.3
8
12.5
9
3
14
1.00
09
FNR
/
L
-
B
300
-
3.0
D
14
-
R
0.20
3.0
8.2
9.0
13.5
9
3
14
0.2
09
FN
R
/
L
-
R
300
-
3.0
D
14
3.0
8.3
9
13.5
9
3
14
1.50
09
FNR
/
L
-
B
200
-
5.0
D
14
-
R
0.20
2.0
10.2
8.0
12.5
9
5
14
0.2
09
FNR
/
L
-
R
200
-
5.0
D
14
2.0
10.3
8
12.5
9
5
14
1.00
09
FNR
/
L
-
B
300
-
5.0
D
14
-
R
0.20
3.0
10.2
9.0
13.5
9
5
14
0.2
09
FNR
/
L
-
R
300
-
5.0
D
14
3.0
10.3
9
13.5
9
5
14
1.50
09
FNR
/
L
-
B
300
-
6.0
D
14
-
R
0.20
3.0
11.2
9.0
13.5
9
6
14
0.2
09
FN
R
/
L
-
R
300
-
6.0
D
14
3.0
10.3
9
13.5
9
6
14
1.50
067
068
A
\
Mini
Carbide
Boring
Tools
Mini
Carbide
Boring
Holder
Mini
Carbide
Boring
Holder
L
through
coolant
l
oD
Min
.
machining
Dia
.
H
i
i
J
IT
-
MAX
l
F
ft
-
0
d
i
Fig
.
1
L
oD
Min
.
machining
Dia
.
e
D
2
/
2
Internal
grooving
holder
of
carbide
shank
Fig
.
2
Internal
grooving
holder
of
steel
shank
Spare
parts
Stock
Dimensions
(
mm
)
Spare
parts
#
Designation
Insert
Stock
Dimensions
(
mm
)
d
R
L
Dmin
D
2
H
i
n
L
s
Designation
Insert
&
Wrench
screw
R
L
d
h
D
2
i
n
L
S
Dmin
Wrench
screw
O
MG
E
12
-
20
-
05
C
7.0
12
5
11
20
45
80
4.3
MB
-
05
L
0560
SSTX
2.2
-
3.0
P
TPF
-
06
MG
H
16
-
20
-
07
R
10.0
16
7.0
15
20
50
120
6.0
MB
-
07
L
0755
SSTX
3.0
-
4.0
P
TPF
-
08
E
12
-
28
-
05
C
O
7.0
12
5
11
28
45
90
4.3
MB
-
05
L
0560
SSTX
2.2
-
3.0
P
TPF
-
06
H
16
-
30
-
09
R
14.0
16
9.0
15
30
50
120
9.0
MB
-
09
L
0960
SSTX
4.0
-
5.7
P
TPF
-
15
O
E
12
-
36
-
05
C
7.0
12
5
11
36
50
100
4.3
MB
-
05
L
0560
SSTX
2.2
-
3.0
P
TPF
-
06
H
20
-
40
-
11
R
18.0
20
11.0
19
40
50
130
12.0
MB
-
11
L
1260
SSTX
5.0
-
7.0
P
TPF
-
20
E
12
-
26
-
07
C
O
10.0
12
7
11
26
45
90
6.0
MB
-
07
L
0755
SSTX
3.0
-
4.0
P
TPF
-
08
O
H
12
-
18
-
05
ST
7.0
12
6.7
11
18
45
80
4.3
MB
-
05
L
0560
SSTX
2.2
-
3.0
P
TPF
-
06
E
12
-
37
-
07
C
10.0
12
7
11
37
50
110
6.0
MB
-
07
L
0755
SSTX
3.0
-
4.0
P
TPF
-
08
H
16
-
20
-
07
ST
10.0
16
8.5
15
20
50
120
6.0
MB
-
07
L
0755
SSTX
3.0
-
4.0
P
TPF
-
08
E
12
-
49
-
07
C
10.0
12
7
11
49
50
110
6.0
MB
-
07
L
0755
SSTX
3.0
-
4.0
P
TPF
-
08
O
H
16
-
30
-
09
ST
14.0
16
11.0
15
30
50
120
9.0
MB
-
09
L
0960
SSTX
4.0
-
5.7
P
TPF
-
15
E
12
-
34
-
09
C
14.0
12
9
11
34
50
100
9.0
MB
-
09
L
0960
SSTX
4.0
-
5.7
P
TPF
-
15
O
13.5
L
1260
SSTX
5.0
-
7.0
P
H
20
-
40
-
11
ST
18.0
20.0
19.0
40.0
50
130
12.0
MB
-
11
TPF
-
20
E
12
-
45
-
09
C
14.0
12
9
11
45
50
110
9.0
MB
-
09
L
0960
SSTX
4.0
-
5.7
P
TPF
-
15
O
H
12
-
16
-
04
ST
-
N
12.0
5.2
11.0
16.0
45
3.7
L
0455
SSTX
1.8
-
2.7
P
TPF
-
06
6.0
80
MB
-
04
E
12
-
56
-
09
C
14.0
12
9
11
56
50
120
9.0
MB
-
09
L
0960
SSTX
4.0
-
5.7
P
TPF
-
15
O
O
H
12
-
18
-
05
ST
-
N
7.0
12.0
6.7
11.0
18.0
45
80
4.3
MB
-
05
L
0560
SSTX
2.2
-
3.0
P
TPF
-
06
E
12
-
40
-
11
C
18.0
9 9
8.5
50
120
12.0
MB
-
11
L
1260
SSTX
5.0
-
7.0
P
TPF
-
20
H
16
-
20
-
07
ST
-
N
10.0
16.0
8.5
15.0
20.0
50
120
6.0
MB
-
07
L
0755
SSTX
3.0
-
4.0
P
TPF
-
08
E
12
-
56
-
11
C
18.0
12
11
11
40
50
110
12.0
MB
-
11
L
1260
SSTX
5.0
-
7.0
P
TPF
-
20
O
H
16
-
30
-
09
ST
-
N
14.0
16.0
11.0
15.0
30.0
50
120
9.0
MB
-
09
L
0960
SSTX
4.0
-
5.7
P
TPF
-
15
E
12
-
80
-
11
C
18.0
12
11
11
56
50
120
12.0
MB
-
11
L
1260
SSTX
5.0
-
7.0
P
TPF
-
20
O
H
20
-
40
-
11
ST
-
N
18.0
20.0
13.5
19.0
40.0
50
130
12.0
MB
-
11
L
1260
SSTX
5.0
-
7.0
P
TPF
-
20
E
04
-
00
-
04
C
6.0
4 4
3.8
95
3.7
MB
-
04
L
0455
SSTX
1.8
-
2.7
P
TPF
-
06
E
05
-
00
-
05
C
7.0
5 5
4.7
95
4.3
MB
-
05
L
0560
SSTX
2.2
-
3.0
P
TPF
-
06
E
07
-
00
-
07
C
10.0
7 7
6.6
95
6.0
MB
-
07
L
0755
SSTX
3.0
-
4.0
P
TPF
-
08
E
09
-
00
-
09
C
14.0
9 9
8.5
125
9.0
MB
-
09
L
0960
SSTX
4.0
-
5.7
P
TPF
-
15
E
11
-
00
-
11
C
18.0
11 11
11.5
125
12.0
MB
-
11
L
1260
SSTX
5.0
-
7.0
P
TPF
-
20
069
070
A
\
Turning
Grades
The
features
of
CVD
turning
grades
Grades
System
Cutting
tool
P
Steel
TP
20
CVD
Coated
grades
Color
Recommend
for
application
ISO
M
Stainless
steel
TPK
01
Uncoated
carbide
Cast
iron
Non
-
ferrous
metal
Heat
resistant
alloy
,
Titanium
alloy
Hardened
steel
N
TPK
01
Black
/
Yellow
MT
-
TiCN
+
TiC
+
AI
203
+
HN
Stable
conditions
for
steel
finishing
can
obtain
high
metal
removal
rate
.
Excellent
resistance
to
crater
wear
and
plastic
deformation
resistance
.
Recommended
for
stable
conditions
.
Wet
and
dry
processing
s
TPK
01
TCP
9305
P
05
(
P
01
-
P
10
)
H
TCP
TCP
TCP
TCP TCP
TCP
TCP
TPM
TPM
TPM
9305
9215
9120
9225
9325 9335
9345
8115
8125
8135
P
Steel
MT
-
TiCN
+
AI
203
+
TiN
Wear
-
resistance
materials
coated
on
the
gradient
sintered
substrate
which
has
both
good
hardness
and
toughness
.
Can
bear
high
temperatures
.
For
steel
and
casting
steel
finishing
to
roughing
processing
.
Continue
cutting
to
light
interrupted
cutting
.
Black
TPM TPM
TPM
TPM TPM TPM
8115
8315
8125 8225
8135
930
TCP
9215
P
15
(
P
05
-
P
20
)
Stainless
steel
TCK TCK
TCK TCK
TCK TCK
5205
5305
5215
5315
5225
5325
Cast
iron
Coated
carbide
for
turning
MT
-
TiCN
+
AI
203
+
TiN
Combining
excellent
fracutre
resistance
substrate
with
chipping
resistance
and
heat
resistance
AI
203
increased
stability
,
suitable
for
steel
and
cast
steel
continuous
cutting
and
interrupted
cutting
finishing
to
roughing
.
Black
TPDL
Non
-
ferrous
metal
P
25
(
P
15
-
P
35
)
M
15
(
M
10
-
M
20
)
025
TCP
9225
TPM
TPM
TPM
TPDL
8315
8125
8225
025
s
HRS
A
HX HX
200
400
MT
-
TiCN
+
TiC
+
AI
203
+
TiN
Universal
grade
combining
substrate
with
wear
resistance
and
toughness
and
AI
203
coating
with
oxidation
resistance
and
fracutre
resistance
,
suitable
for
steel
and
cast
steel
continuous
cutting
and
interrupted
cutting
finishing
to
roughing
.
H
Hardened
steel
Black
/
Yellow
P
25
(
P
15
-
P
35
)
M
15
(
M
10
-
M
20
)
TCP
9325
TCP TCP TCP
TPM
TPM
TPM
TPG
TPK
9330
9340 9350
8115 8125
8135
4235 4235
H
P
Steel
TPM
TPM
TPM
TPM TPM
TPG
TPK
8115
8315
8125
8225
8135
4235
4235
H
MT
-
TiCN
+
TiC
+
AI
203
+
TiN
Universal
grade
combining
substrate
with
wear
resistance
and
toughness
and
AI
203
coating
with
oxidation
resistance
and
fracture
resistance
.
Special
treatment
on
the
outermost
layer
.
Suitable
for
steel
and
cast
steel
medium
cutting
to
roughing
.
Stainless
steel
Yellow
TCP
9120
P
20
(
P
15
-
P
25
)
TCK
TCK
TCK
TCK
TPK
5205
5305
5215
5315
5225
5325
4235
H
TCK
TCK
Coated
carbide
for
milling
Cast
iron
TPDL
MT
-
TiCN
+
AI
203
+
TiN
High
-
strength
alloy
substrate
with
thick
wear
-
resistant
coating
.
interrupted
cutting
and
roughing
operations
in
steel
and
cast
steel
.
Combining
excellent
fracture
resistance
substrate
with
chipping
resistance
and
heat
resistance
AI
203
increased
stability
in
wide
ranges
of
cutting
conditions
.
Non
-
ferrous
metal
025
Black
P
35
(
P
25
-
P
40
)
M
35
(
M
25
-
M
40
)
TCP
9235
TPM TPM TPM
TPDL
8315
8125
8225
025
s
HRS
A
HX HX
200
400
H
Hardened
steel
MT
-
TiCN
+
TiC
+
AI
203
+
TiN
High
-
strength
alloy
substrate
with
thick
wear
-
resistant
coating
has
good
good
toughness
and
plastic
deformation
.
Machining
steel
and
cast
steel
in
bad
conditions
,
Edge
line
security
for
interrupted
cutting
and
roughing
operations
high
metal
removal
rate
.
Black
/
Yellow
P
35
(
P
25
-
P
40
)
M
35
(
M
25
-
M
40
)
TCP
9335
TTIN
TTIN
30
3025
Steel
Turning
cermet
TTIN
TTIN
30
3025
Cast
iron
A
tough
carbide
grade
with
a
moderately
thick
TiN
-
MT
-
TiCN
-
AI
203
coating
for
roughing
operation
of
steel
at
lower
cutting
speed
and
unstable
condition
The
substrate
-
coating
combination
provides
unbelievable
toughness
and
operational
security
allowing
high
metal
removal
rates
even
in
most
demanding
interrupted
cuts
.
Black
/
Yellow
P
45
(
P
30
-
P
50
)
M
45
(
M
30
-
M
50
)
TCP
9345
071
072
A
\
Turning
Grades
The
features
of
CVD
turning
grades
The
features
of
PVD
turning
grades
CVD
Coated
grades
PVD
Coated
grades
Color
Recommend
for
application
Color
Recommend
for
application
ISO ISO
MT
-
TiCN
+
AI
203
+
TiN
CVD
coated
carbide
combining
extremely
hard
substrate
can
withstand
high
temperature
without
plastic
deformation
.
Recommended
for
ductile
iron
,
high
strength
malleable
cast
iron
and
gray
cast
iron
finish
machining
to
semi
finish
machining
.
2
-
4
pm
TiAIN
PVD
coating
combined
with
the
submicron
crystal
matrix
,
it
has
excellent
film
-
base
adhesion
,
abrasion
resistance
and
heat
resistance
.
Suitable
for
stainless
steel
,
heat
-
resistant
alloy
and
other
materials
under
stable
working
conditions
finishing
.
Gray
dark
Black
P
15
(
P
05
-
P
25
)
M
15
(
M
05
-
M
25
)
TCK
5205
K
10
(
K
05
-
K
20
)
TPM
8115
MT
-
TiCN
+
AI
203
+
TiN
CVD
coated
carbide
combining
extremely
hard
substrate
can
withstand
high
temperature
without
plastic
deformation
.
Recommended
for
ductile
iron
,
high
strength
malleable
cast
iron
and
gray
cast
iron
finish
machining
to
semi
finish
machining
.
3
-
5
pm
AITiN
PVD
coating
combined
with
ultra
fine
particles
'
substrates
with
high
-
toughness
suitable
for
a
variety
of
steel
,
stainless
steel
&
supor
alloy
at
high
speed
and
continue
machining
.
Optimized
coating
stability
for
higher
wear
resistance
and
thermal
stability
in
a
wide
application
field
.
Black
/
Yellow
P
15
(
P
05
-
P
25
)
M
15
(
M
05
-
M
25
)
S
10
(
S
05
-
S
25
)
Brozen
TCK
5305
K
10
(
K
05
-
K
20
)
TPM
8315
P
25
(
P
15
-
P
35
)
M
25
(
M
15
-
M
35
)
K
25
(
K
15
-
K
35
)
S
20
(
S
15
-
S
30
)
MT
-
TiCN
+
AI
203
+
TiN
The
excellent
combination
of
high
wear
resistance
substrate
and
MT
-
TiCN
,
thick
AI
203
,
TiN
coating
is
the
first
choice
of
ductile
iron
and
gray
cast
iron
,
which
allows
a
higher
cutting
speed
.
2
-
4
pm
TiALN
PVD
coating
combined
with
ultra
fine
particles
'
substrates
with
high
-
toughness
suitable
for
a
variety
of
steel
,
stainless
steel
,
cast
iron
&
high
temperature
alloy
in
finishing
to
semi
-
finishing
.
High
thermal
shock
resistance
is
suitable
for
light
interrupted
cuts
.
Black
Gray
dark
TCK
5215
K
15
(
K
10
-
K
25
)
TPM
8125
Universal
grade
for
stainless
,
HRSA
&
high
-
temperature
high
hardness
alloy
machining
.
High
chipping
and
welding
resistance
for
longer
tool
life
.
2
-
4
pm
AlCrN
+
AICrSiN
PVD
coating
combined
with
ultra
fine
particles
'
substrates
with
high
-
toughness
suitable
for
stainless
steel
,
high
-
temperature
high
hardness
alloy
&
HRSA
in
finishing
to
semi
-
finishing
.
MT
-
TiCN
+
AI
203
+
TiN
The
excellent
combination
of
high
wear
resistance
substrate
and
MT
-
TiCN
,
thick
AI
203
,
TiN
coating
is
the
first
choice
of
ductile
iron
and
gray
cast
iron
,
which
allows
a
higher
cutting
speed
.
Black
/
Yellow
M
20
(
M
15
-
M
25
)
S
15
(
S
10
-
S
20
)
H
10
(
H
05
-
H
15
)
Golden
TCK
5315
K
15
(
K
10
-
K
25
)
TPM
8225
MT
-
TiCN
+
AI
203
+
TiN
The
excellent
combination
of
good
wear
resistance
and
toughness
substrate
and
MT
-
TiCN
,
thick
AI
203
,
TiN
coating
is
the
fisrt
choice
of
ductile
iron
and
gray
cast
iron
for
roughing
cutting
high
metal
remove
rate
.
PVD
coating
combined
with
high
-
resistant
substrates
,
suitable
for
stainless
steel
&
low
carbon
steel
in
roughing
to
semi
-
finishing
.
Good
wear
resistance
and
toughness
Gray
dark
Black
P
35
(
P
20
-
P
40
)
M
35
(
M
30
-
M
40
)
TCK
5225
K
25
(
K
20
-
K
35
)
TPM
8135
MT
-
TiCN
+
AI
203
+
TiN
The
excellent
combination
of
good
wear
resistance
and
toughness
substrate
and
MT
-
TiCN
,
thick
AI
203
,
TiN
coating
is
the
fisrt
choice
of
ductile
iron
and
gray
cast
iron
for
roughing
cutting
high
metal
remove
rate
.
Black
/
Yellow
K
25
(
K
20
-
K
35
)
TCK
5325
073
074
A
\
Turning
Grades
0
Description
of
Chipbreaker
General
turning
Application
fields
of
grades
Negative
inserts
CVD
grades
for
steel
,
stainless
steel
and
cast
iron
Application
range
feed
rate
(
mm
/
rev
)
0.16
0.25
0.40
0.63
1.00
1.60
2.50
4.00
6.30
ISO
Geometry
Features
0.04
0.063
0.1
depth
of
cut
(
mm
)
0.10
0.16
0.25
0.40
0.63
1.00
1.60
2.50
4.00
6.30
10.00
11.6
13
15
TCP
93
TCK
5205
TCK
5305
For
steel
finishing
turning
0 0
TCP
9215
^
8
g
T
3
CDCD
^
T
CP
9225
Stable
chip
control
in
high
toughness
material
;
low
carbon
steel
,
pipe
steel
&
steel
plates
.
Imporved
chip
control
for
facing
,
copy
machining
and
better
surface
finish
.
%
0.05
-
0.3
JS
TCK
5215
TCK
5315
o
p
ft
<
/
>
0 0
0.05
-
1.0
TCP
9325
CD
CD
0 0
£
£
TCK
5225
TCK
5325
TCP
9335
For
medium
turning
TCP
9345
With
broad
applied
range
.
High
reliability
and
universality
with
fault
-
free
cutting
.
This
chipbreaker
matches
with
wear
-
resisting
grade
will
be
better
.
Strong
cutting
edge
strength
provide
good
performance
at
intemittent
and
fast
feed
cutting
.
0.15
-
0.5
P
M
1.5
-
5.0
K
KOl
-
OSl
K
05
-
10
K
10
-
15
K
20
-
25
K
30
-
35
P
01
-
05
|
P
05
-
10
|
P
10
-
15
|
P
20
-
25
|
P
30
-
35
|
P
40
-
45
HQ
For
semi
-
finishing
machining
5
*
0.15
-
0.3
The
front
angle
and
double
point
design
can
provide
good
sharpness
and
widely
chip
processing
performance
.
P
I
0.5
-
2.0
PVD
grades
for
stainless
steel
and
heat
-
resistant
alloys
TM
For
semi
-
finishing
machining
0.2
-
0.5
High
universality
,
easy
chip
-
flow
,
special
bulge
close
to
the
nose
radiusand
big
rake
angle
generate
the
cutting
ability
and
low
cutting
force
of
chip
breaker
.
P
1.0
-
5.0
TPM
8115
TPM
8315
r
S
For
Medium
to
Roughing
of
turning
0 0
o
o
c
c
TPM
8315
CD CD
0.15
-
0.35
%
%
TPM
8125
TPM
8225
P
I
T
The
large
front
angle
design
greatly
reduces
the
cutting
resistance
,
and
the
special
design
can
reduce
the
boundary
wear
.
55
I
M
0 0
0.5
-
4.0
CD CD
0 0
TPM
8125
£
£
T
3
GR
For
light
load
roughing
TPM
8125
CO
CJ
Ol
0.3
-
0.8
P
M
class
double
chip
breaker
,
metal
removal
rate
and
edge
economy
can
have
it
all
.
K
M
05
-
10
|
P
10
-
15
|
P
20
-
25
|
P
30
-
35
|
P
40
-
45
S
05
-
10
|
S
10
-
15
|
S
20
-
25
|
S
30
-
35
|
3.0
-
12.0
For
heavy
load
roughing
0.3
-
1.0
P
M
class
double
chip
breaker
,
tough
edge
,
with
a
high
security
,
strong
ability
to
resist
plastic
deformation
at
high
removal
rate
.
K
5.0
-
15.0
075
076
A
\
Chip
Breakers
0
Description
of
Chipbreaker
Description
of
Chipbreaker
Negative
inserts
Positive
inserts
Standard
For
General
cutting
Application
range
0.2
-
0.5
With
broad
applied
range
for
steel
and
cast
iron
.
High
cutting
edge
hardness
,
low
cutting
resistance
force
,
eay
chip
-
flow
.
Combined
with
more
abrasive
grade
can
get
better
efficiency
.
P
feed
rate
(
mm
/
rev
)
0.16
0.25
0.40
0.63
1.00
1.60
2.50
4.00
6.30
ISO
Geometry
K
Features
0.04
0.063
0.1
5.0
-
15.0
depth
of
cut
(
mm
)
0.10
0.16
0.25
0.40
0.63
1.00
1.60
2.50
4.00
6.30
10.00
11.6
13
15
For
Heavy
duty
cutting
HF
For
finishing
turning
0.3
-
1.0
P
Sutable
for
haevy
duty
cutting
due
to
strong
cutting
edge
.
Wide
chip
control
range
with
low
cutting
force
.
0.05
-
0.3
I
I I I I I I
0.1
-
2.0
K
P
Excellent
chip
control
in
steel
,
stainless
steel
,
grey
and
nodular
cast
-
iron
.
Suitable
for
both
boring
and
outer
diameter
turning
.
3.0
-
15.0
M
For
semi
-
finishing
machining
For
semi
-
finishing
turning
First
recommendation
for
medium
cutting
of
carbon
steel
and
alloy
steel
Alternative
chipbreaker
for
finishing
and
light
cutting
of
cast
iron
.
Suitable
for
feneral
field
.
Positive
edge
shape
of
blade
,
performance
of
sharp
cutting
.
0.15
-
0.5
P
I I
0.2
-
0.5
M
P
0.2
-
6.0
Excellent
chip
control
at
wide
range
of
cutting
conditions
Suitable
for
stainless
steel
cutting
.
M
1.0
-
4.0
For
stainless
finishing
turning
For
roughing
turning
semi
-
finishing
to
finishing
under
with
high
efficiency
high
feed
rate
is
adopted
under
the
condition
of
small
cutting
depth
.
Due
to
the
latest
chipbreaker
design
,
it
can
obtain
good
chip
control
and
good
machining
surface
accuracy
.
The
extremely
sharp
edge
and
high
rake
angel
design
especially
is
suitable
for
stainless
steel
&
softy
steel
.
P
0.05
-
0.3
I I
I
I
I
I
I
0.1
-
1.0
0.3
-
0.7
M
M
suitable
for
internal
and
external
roughing
of
steel
,
stainless
steel
and
cast
iron
material
.
s
K
3.0
-
7.0
AL
For
Aluminum
cutting
ISL
BM
For
semi
-
finishing
machining
0.03
-
0.4
I
I
I
III
I
I
I
0.1
-
4.0
Wide
available
chip
control
range
from
medium
-
finishing
to
medium
-
roughing
.
High
speed
of
finishing
operation
.
N
Has
a
wide
range
of
applications
for
stainless
steel
.
Can
effictively
solve
machining
difficulties
such
as
chip
breaking
and
sticking
phenomenon
in
the
stainless
steel
processing
,
which
can
obtain
higher
machining
efficency
.
0.1
-
0.3
M
I
I
0.5
-
1.5
For
finishing
turning
For
Light
-
alloy
,
Stainless
-
steel
machining
0.03
-
0.3
Suitable
for
finishing
machining
of
heat
resistance
alloy
,
titanium
alloy
and
other
aerospace
parts
.
Loght
cutting
chip
breaker
with
low
cutting
force
,
high
reliability
and
universality
.
Problem
free
cutting
.
I
I I
I I I
s
M
Sharp
cutting
edge
generates
low
cutting
force
.
Specially
designed
tough
main
cutting
edge
.
Sutable
for
cutting
of
low
carbon
steel
,
stainless
steel
,
aluminum
.
0.06
-
1.7
s
N
HS
For
Medium
cutting
of
stainless
steel
0.1
-
0.4
Exclusive
design
for
stainless
steel
cutting
provide
longer
tool
life
.
Wear
resistance
have
been
reinforced
through
high
rake
angle
of
chip
breaker
land
.
M
1.0
-
4.0
ForRoughing
turning
No
slot
>
0.05
-
0.6
I
I
I
I
I
I
1
K
For
grey
and
nodular
cast
-
iron
.
Broad
application
range
for
roughing
.
0.3
-
12.0
077
078
A
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Insert
Code
System
(
ISO
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Length
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Height
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Length
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14.5
9.525
4.76
3.81
0.8
160404
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15.5
9.525
4.76
3.81
0.4
160412
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HA
13.5
9.525
4.76
3.81
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-
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160408
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GM
14.5
9.525
4.76
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13.5
9.525
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GM
12.5
9.525
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3.81
1.6
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21.0
12.7
4.76
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20.0
12.7
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Medium
to
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19.0
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4.76
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12.7
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270608
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25.4
15.875
6.35
6.35
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15.5
9.525
4.76
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270612
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24.4
15.875
6.35
6.35
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14.5
9.525
4.76
3.81
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15.5
9.525
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13.5
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14.5
9.525
4.76
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13.5
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160416
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12.5
9.525
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21.0
12.7
4.76
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220408
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20.0
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19.0
12.7
4.76
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18.2
12.7
4.76
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1.6
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25.4
15.875
6.35
6.35
0.8
160404
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/
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15.5
9.525
4.76
3.81
0.4
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270612
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GR
24.4
15.875
6.35
6.35
1.2
160408
R
/
L
-
S
14.5
9.525
4.76
3.81
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23.3
15.875
6.35
6.35
1.6
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-
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160412
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/
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13.5
9.525
4.76
3.81
1.2
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GR
27.1
15.875
9.52
7.93
2.4
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14.5
9.525
4.76
3.18
0.8
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13.5
9.525
4.76
3.18
1.2
TNMG
-
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160416
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ZR
12.5
9.525
4.76
3.18
1.6
220408
-
ZR
20.0
12.7
4.76
5.16
0.8
220412
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19.0
12.7
4.76
5.16
1.2
Medium
to
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220416
-
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18.2
12.7
4.76
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1.6
270608
-
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25.4
15.875
6.35
6.35
0.8
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24.4
15.875
6.35
6.35
1.2
270616
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23.3
15.875
6.35
6.35
1.6
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330924
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27.1
15.875
9.52
7.93
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095
096
A
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Turning
Insert
(
Negative
)
111
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o
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Triangular
60
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Negative
60
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60
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Negative
60
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(
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Machining
types
#
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cutting
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cutting
ft
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cutting
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types
#
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cutting
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General
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steel
M
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steel
M
u
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Cast
iron
K
Cast
iron
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Non
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ferrous
metal
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ferrous
metal
N
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o
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I
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Heat
resistant
alloy
,
Titaium
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alloy
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alloy
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steel
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steel
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Uncoated
Coated Coated
Dimensions
(
mm
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Dimensions
(
mm
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160408
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14.5
9.525
4.76
3.81
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14.5
9.525
4.76
3.81
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13.5
9.525
4.76
3.81
1.2
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13.5
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4.76
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TM
220404
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21.0
12.7
4.76
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0.4
220408
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BM
20.0
12.7
4.76
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0.8
220412
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BM
19.0
12.7
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18.2
12.7
4.76
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Medium
Medium
220408
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GR
20.0
12.7
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GR
19.0
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4.76
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160404
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15.5
9.525
4.76
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220416
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18.2
12.7
4.76
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14.5
9.525
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3.18
0.8
270608
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25.4
15.875
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13.5
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24.4
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19.0
12.7
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160404
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15.5
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4.76
3.18
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14.5
9.525
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160412
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13.5
9.525
4.76
3.18
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220404
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21.0
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12.7
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mm
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14.6
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resistant
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alloy
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steel
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resistant
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13.6
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15.6
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12.7
4.76
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12.7
1.2
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4.76
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101
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Machining
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General
cutting
£
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cutting
Stainless
steel
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steel
M
CL
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Heat
resistant
alloy
,
Titaium
alloy
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Cast
iron
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iron
K
Q
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CL
-
V
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Non
-
ferrous
metal
Non
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d
4
r
4
r
35
°
I
s
*
*
s
*
*
*
**
#
#
Steel Steel
u
u
Machining
types
#
Continuous
cutting
$
General
cutting
£
Interrupted
cutting
Machining
types
#
Continuous
cutting
$
General
cutting
Interrupted
cutting
**
It
*
*
#
*
M
M
Stainless
steel
Stainless
steel
I
Cast
iron
K
Cast
iron
K
CL CL
V
Non
-
ferrous
metal
Non
-
ferrous
metal
N
N
o o
Heat
resistant
alloy
,
Titaium
alloy
S
Heat
resistant
alloy
,
Titaium
alloy
S
5
5
H
H
Hardened
steel
Hardened
steel
oncoated
Coated Coated
Dimensions
(
mm
)
Dimensions
(
mm
)
Uncoated
in
in
i
-
H
i
-
H
T
-
H
m
co co
Ln
in
CM CM
co
co
in in
in
T
-
H
rsj
m
T
-
H
co co
«
£
a
£
in
m
in
o
in
in
in
PM
i
n
«
J
o
in
in
in
i
n
CM
m
PM
s
rn
in
m
CM
in
m
co
ro
in
£
rn
in
CM
r
,
CM
m
I
i
n
rn
m
in
m
§
s
Inserts
Designation
Inserts
Designation
<
r
,
<
,
rO
rg
rO
°
9
2
TO
'
I
£
i
£
i
£
TO
a
rn
in
a
rn
in
a
rn
n
I
d
dl
"
J
£
,
£
J
£
a
r
-
n
in
i
m
in
r
.
,
in
I
d
dl
t
t
r r
£ £
£ £
£ £
£
i
1
:
£
*
£
^ ^ ^ ^
0
.
0
.
0
.
0
.
H
-
t
t
I
I
H
-
iill
l
I
»
:
5
,
Q
-
Q
-
£
P
£
P
N
P
P
i
-
'
P
P
P
P
:
110204
10.0
6.35
3.18
2.8
0.4
110302
-
SL
10.5
6.35
3.18
2.5
0.2
110208
9.0
6.35
3.18
2.8
0.8
110304
-
SL
10.0
6.35
3.18
2.8
0.4
VCMW
VCGT
-
SL
16
T
304
15.6
9.525
4.76
4.4
0.4
110308
-
SL
9.0
6.35
3.18
2.8
0.8
16
T
308
14.6
9.525
4.76
4.4
0.8
160402
-
SL
16.1
9.525
4.76
4.4
0.2
13.6
9.525
4.76
1.2
160404
-
SL
9.525
4.76
16
T
312
4.4
15.6
4.4
0.4
160408
-
SL
14.6
9.525
4.76
4.4
0.8
Roughing
Finishing
160404
15.6
9.525
4.76
4.4
0.4
160408
14.6
9.525
4.76
4.4
0.8
VCMT
160412
13.6
9.525
4.76
4.4
1.2
Medium
110302
-
AL
10.5
6.35
3.18
2.8
0.2
110304
-
AL
10.0
6.35
3.18
2.8
0.4
VCGT
-
AL
110308
-
AL
9.0
6.35
3.18
2.8
0.8
9.525
0.2
160402
-
AL
16.1
4.76
4.4
160404
-
AL
15.6
9.525
4.76
4.4
0.4
160408
-
AL
14.6
9.525
4.76
4.4
0.8
160412
-
AL
13.6
9.525
4.76
4.4
1.2
220516
-
AL
18.0
12.7
5.56
5.6
1.6
220525
-
AL
15.6
12.7
5.56
5.6
2.5
Aluminum
220530
-
AL
14.3
12.7
5.56
5.6
3.0
117
118
A
\
Ceramic
Grades
Ceramic
Grades
Excellent
wear
resistance
and
good
impact
resistance
.
Excellent
heat
resistance
,
high
oxidation
resistance
and
high
thermal
shock
resistance
,
so
the
cutting
speed
can
generally
be
higher
than
carbide
cutting
tool
3
-
10
times
,
can
realize
high
speed
cutting
and
dry
cutting
to
substantially
improve
production
efficiency
and
reduce
the
cost
of
production
.
Silicon
Nitride
Ceramic
PVD
Coated
Ceramic
Aluminum
Oxide
Dimensions
(
mm
)
Ddge
Prep
Inserts
Designation
Geometries
(
mm
)
o
I
rn
i
i
d
D
t
r
j
j
-
oo
Features
of
Ceramic
12.70
120404
T
02020
4.76
0.4
5.16
12.70
120408
T
02020
4.76
0.8
5.16
Hardness
of
Fracture
Transverse
Substrate
Toughness
Strength
(
Gpa
) (
MPa
.
ml
/
2
) (
Mpa
)
Advantages
and
Applications
Density
Main
(
g
/
cm
3
)
Component
Classification
Symbol
12.70
120412
T
02020
4.76
1.2
5.16
12.70
120416
T
02020
4.76
1.6
5.16
15.875
160608
T
02020
6.35
0.8
6.35
Application
:
Semi
-
roughing
to
finishing
turning
and
interrupted
milling
of
high
hardness
steel
and
cast
iron
.
It
is
most
suitable
for
cutting
mangnaness
steel
and
high
strength
steel
.
15.875
160612
T
02020
6.35
1.2
6.35
AI
203
+
TiCN
TT
01
4.40
20.0
>
5.5
750
-
950
15.875
160616
T
02020
6.35
1.6
6.35
15.875
160708
T
02020
7.94
0.8
6.35
15.875
160712
T
02020
7.94
1.2
6.35
CNGA
Application
:
It
is
most
suitable
for
cutting
all
kinds
of
high
hardness
alloy
steel
and
alloy
cast
iron
,
especially
for
cutting
ductile
cast
iron
and
boron
-
containing
cast
iron
.
It
can
be
used
for
semi
-
roughing
to
finishing
turning
and
interrupted
milling
.
AI
203
+
TiCN
700
-
900
TT
03
4.80
19.0
>
6.0
15.875
160716
T
02020
7.94
1.6
6.35
19.05
190608
T
02020
6.35
0.8
7.94
AI
203
+
TiCN
(
TiN
COAT
)
19.05
190612
T
02020
6.35
1.2
7.94
TT
03
N
4.60
20.1
>
6.0
800
-
1000
19.05
190616
T
02020
6.35
1.6
7.94
12.70
120404
T
02020
4.76
0.4
Application
:
Roughing
and
high
speed
machining
of
cast
iron
,
especially
the
nickel
-
based
heat
-
resistant
alloy
has
a
good
effect
in
cutting
and
can
be
used
for
high
-
feed
processing
and
intermittent
milling
.
12.70
120408
T
02020
4.76
0.4
TSOI
3.40
Si
3
N
4
+
TiCN
17.0
>
6.5
800
-
1000
12.70
120412
T
02020
4.76
0.4
12.70
120708
T
02020
7.94
0.8
12.70
120712
T
02020
7.94
0.8
12.70
120716
T
02020
7.94
0.8
Ceramic
Inserts
Identification
System
15.875
160708
T
02020
7.94
0.8
CNGN
15.875
160712
T
02020
7.94
0.8
Identification
System
15.875
160716
T
02020
7.94
0.8
12.70
150404
T
02020
4.76
0.4
5.16
S
01525
N
G
A
12
04
04
C
12.70
5.16
150408
T
02020
4.76
0.8
12.70
5.16
150412
T
02020
4.76
1.2
d
I
J
12.70
5.16
150416
T
02020
4.76
1.6
r
_
12.70
5.16
150604
T
02020
6.35
0.4
}
r
12.70
5.16
150608
T
02020
6.35
0.8
Edge
Prep
.
(
Ref
.
to
the
Table
1
)
"
Turning
Indexable
Inserts
Identification
System
"
Q
See
Page
013
12.70
5.16
150612
T
02020
6.35
1.2
DNGA
5.16
12.70
150616
T
02020
6.35
1.6
Edge
Preparation
Identification
System
Table
1
Example
Shape
Symbol
Cutting
Edge
Spec
.
0.15
Chamfered
and
Honed
Cutting
Edge
0.15
mm
x
25
Chamfered
and
Honed
Cutting
Edge
d
.
S
01525
C
^
Honed
a
s
CL
a
>
cn
0.20
s
Chamfered
Cutting
Edge
0.20
mm
x
25
'
Chamfered
Cutting
Edge
T
02025
T
See
Page
B
3
for
insert
color
119
120
A
\
Turning
Insert
(
Negative
)
Ceramic
Inserts
Ceramic
Inserts
Silicon
Nitride
Ceramic
Silicon
Nitride
Ceramic
PVD
Coated
Ceramic
PVD
Coated
Ceramic
Aluminum
Oxide
Aluminum
Oxide
Dimensions
(
mm
)
Dimensions
(
mm
)
Ddge
Prep
Ddge
Prep
Geometries
(
mm
)
Designation
Geometries
(
mm
)
Inserts
Designation
Inserts
2
2
m
no
ro
m
O
o
o
o
o o
d
d
D
D
t
t
r
r
o
o
on
oo
12.70
9.525
150404
T
02020
4.76
0.4
090304
T
02020
3.18
0.4
12.70
9.525
150408
T
02020
4.76
0.8
090308
T
02020
3.18
0.8
2
i
55
12.70
9.525
150412
T
02020
4.76
1.2
090312
T
02020
3.18
1.2
12.70
9.525
150416
T
02020
4.76
1.6
090404
T
02020
4.76
0.4
d
12.70
9.525
150604
T
02020
6.35
0.4
090408
T
02020
4.76
0.8
12.70
9.525
150608
T
02020
6.35
0.8
090412
T
02020
4.76
1.2
r
_
12.70 12.70
150612
T
02020
6.35
1.2
120404
T
02020
4.76
0.4
12.70
12.70
150616
T
02020
6.35
1.6
120408
T
02020
4.76
0.8
12.70 12.70
150704
T
02020
7.94
0.4
120412
T
02020
4.76
1.2
DNGN
t
12.70 12.70
150708
T
02020
7.94
0.8
120416
T
02020
4.76
2.0
12.70 12.70
150712
T
02020
7.94
1.2
120420
T
02020
7.94
0.4
d
-
!
-
12.70 12.70
150716
T
02020
7.94
1.6
120708
T
02020
7.94
0.8
12.70
120712
T
02020
7.94
1.2
9.525
090400
T
02020
4.76
3.81
r
12.70
120716
T
02020
7.94
1.6
12.70
t
120400
T
02020
4.76
5.16
12.70
120720
T
02020
2.0
7.94
12.70
120700
T
02020
5.16
7.94
D
SNGN
15.875
150708
T
02020
7.94
0.8
15.875
150712
T
02020
7.94
1.2
d
t
15.875
150716
T
02020
7.94
1.6
RNGA
19.05
190708
T
15015
7.94
0.8
9.525
090400
T
02020
4.76
19.05
190712
T
12015
7.94
1.2
12.70
120400
T
02020
4.76
19.05
190716
T
12015
7.94
1.6
12.70
120700
T
02020
7.94
19.05
190720
T
12015
7.94
2.0
15.875
150700
T
02020
7.94
25.40
250720
T
20015
7.94
2.0
19.05
190700
T
02020
7.94
25.40
251012
T
20015
10.00
1.2
d
t
20.00
T
02020
201000
10.00
RNGN
25.40
250700
T
02020
7.94
9.525
090304
T
02020
3.18
0.4
3.81
9.525
090308
T
02020
3.18
0.8
3.81
12.70
120404
T
02020
4.76
0.4
5.16
12.70
120408
T
02020
4.76
0.8
5.16
12.70
120412
T
02020
4.76
1.2
5.16
0
d
12.70
D
V
120416
T
02020
4.76
1.6
5.16
15.875
6.35 6.35
150608
T
02020
0.8
r
15.875
150612
T
02020
6.35
1.2
6.35
t
15.875
150616
T
02020
6.35
1.6
6.35
SNGA
19.05
190608
T
02020
6.35
0.8
7.94
19.05
190612
T
02020
6.35
1.2
7.94
19.05
190616
T
02020
6.35
1.6
7.94
121
122
A
\
Turning
Insert
(
Negative
)
0
Ceramic
Inserts
Ceramic
Inserts
Silicon
Nitride
Ceramic
Silicon
Nitride
Ceramic
PVD
Coated
Ceramic
PVD
Coated
Ceramic
Aluminum
Oxide
Aluminum
Oxide
Dimensions
(
mm
)
Dimensions
(
mm
)
Ddge
Prep
Ddge
Prep
Inserts
Designation
Geometries
(
mm
)
Inserts
Designation
Geometries
(
mm
)
ro
ro
ro
ro
O
o o
d
o
o
o
d
D
T
t t
r
a
o
o
on
to
t
=
9.525
6.35
160404
T
02020
4.76
0.4
3.81
060600
T
02020
6.35
6.20
120
°
9.525
9.525
160408
T
02020
4.76
0.8
3.81
090700
T
02020
7.94
7.70
120
°
9.525
12.70
160412
T
02020
4.76
1.2
3.81
120700
T
02020
7.94
7.70
120
°
d
9.525
15.875
160416
T
02020
4.76
1.6
3.81
151000
T
02020
9.53
9.30
120
°
:
D
12.70
19.05
220404
T
02020
4.76
0.4
5.16
191000
T
02020
10.00
9.77
120
°
12.70
25.40
220408
T
02020
4.76
0.8
5.16
251200
T
15015
12.00
11.58
140
°
12.70
220412
T
02020
4.76
1.2
5.16
TNGA
RCGX
12.70
220416
T
02020
4.76
1.6
5.16
6.35
110304
T
02020
3.18
0.4
6.35
110308
T
02020
3.18
0.4
sj
9.525
160404
T
02020
4.76
0.4
9.525
160408
T
02020
4.76
0.8
9.525
160412
T
02020
4.76
1.2
TNGN
12.70
220716
T
02020
7.94
1.6
9.525
160402
T
02020
4.76
0.2
3.81
35
°
9.525
160404
T
02020
4.76
0.4
3.81
*
d
9.525
160408
T
02020
4.76
0.8
3.81
9.525
160412
T
02020
4.76
1.2
3.81
r
_
9.525
160416
T
02020
4.76
1.6
3.81
D
VNGA
t
9.525
160412
T
02020
4.76
1.2
35
°
>
9.525
160704
T
02020
7.94
0.4
9.525
160708
T
02020
7.94
0.8
d
9.525
160712
T
02020
7.94
1.2
L
9.525
160716
T
02020
7.94
1.6
D
VNGN
t
12.70
080404
T
02020
4.76
0.4
5.16
12.70
080408
T
02020
4.76
0.8
5.16
12.70
080412
T
02020
4.76
1.2
5.16
12.70
080416
T
02020
4.76
1.6
5.16
D
WNGA
123
124
A
\
Cermet
Grades
Cermet
CNOO
Cermets
combine
toughness
with
superior
wear
resistance
,
and
provide
longer
toollife
and
excellent
surface
finishes
.
Typical
materials
used
in
cermets
are
TiC
,
TiN
,
TiCN
and
NbC
.
[
o
]
Rhombic
80
°
Negative
r
-
3
*
O
d
PVD
Coated
Cermet
v
i
t
PVD
Coated
Cermet
is
coated
on
cermet
substrate
with
a
thin
layer
of
high
wear
resistance
and
high
adhesion
resistance
by
PVD
(
Physical
Vapor
Deposition
)
technology
.
Generally
because
of
the
low
processing
temperature
of
PVD
compared
with
CVD
,
PVD
coated
cermet
features
less
deterioration
and
more
bending
strength
.
80
Steel
Stainless
steel
Machining
types
0
Continuous
cutting
$
General
cutting
K
Interrupted
cutting
M
« »
w
*
2
Cast
iron
f
Non
-
ferrous
metal
I
Heat
resistant
alloy
,
Titaium
alloy
<
S
H
Hardened
steel
Coated
Dimensions
(
mm
)
Cutting
Condition
a
Inserts
Designation
Features
of
Cermet
and
PVD
Coated
Cermet
fn
(
mm
/
rev
)
d
dl
ap
(
mm
)
t
r
E
E
120404
-
TS
12.4
12.7
4.76
5.16
0.4
0.03
-
0.15
0.20
-
1.80
CNMG
-
TS
120408
-
TS
12.0
12.7
4.76
5.16
0.8
0.08
-
0.20
0.20
-
1.80
l
120404
-
HQ
12.4
12.7
4.76
5.16
0.4
0.05
-
0.30
0.80
-
4.00
TTIN
3025
CNMG
-
HQ
s
.
120408
-
HQ
12.0
12.7
4.76
5.16
0.8
0.08
-
0.40
0.80
-
4.00
<
/
>
1
?
TTIN
30
c
O
J
120404
-
MT
12.4
12.7
4.76
5.16
0.4
0.15
-
0.40
1.00
-
5.00
CNMG
-
MT
J
i
V
120408
-
MT
12.0
12.7
4.76
5.16
0.8
0.17
-
0.55
1.20
-
5.00
m
LOW
-
Fracture
resistance
(
Toughness
)
-
High
Continuous
Light
interruption
Interruption
TTIN
30
Superior
fracture
resistance
and
wear
resistance
Application
:
Stable
machining
of
steel
TTIN
3025
Superior
wear
and
adhesion
resistant
TiCN
coating
on
the
special
reinforcement
cermet
Application
:
The
1
st
choice
PVD
coated
cermet
for
steel
machining
provides
high
efficient
machining
and
high
quality
surface
finish
125
126
A
\
Cermet
Insert
(
Negative
)
0
SNOO
DNOO
/
0
/
Rhombic
55
°
Negative
Square
90
°
Negative
r
r
O
1
ld
1
Id
,
d
T
55
°
V
I
t
t
P
*
P
Steel
Stainless
steel
Steel
Stainless
steel
CD
OJ
Machining
types
%
Continuous
cutting
$
General
cutting
£
Interrupted
cutting
0
Continuous
cutting
$
General
cutting
ft
Interrupted
cutting
Machining
types
*
9
9
9
M M
u
u
.
2
*
5
Heat
resistant
alloy
,
Titaium
alloy
-
^
S
TT
*
s
Cast
iron
Cast
iron
K
CL
CL
V
-
V
Non
-
ferrous
metal
Non
-
ferrous
metal
N
o o
Heat
resistant
alloy
,
Titaium
alloy
-
4
S
5
5
Hardened
steel
Hardened
steel
H
Coated
Cutting
Condition
Coated
Cutting
Condition
Dimensions
(
mm
)
Dimensions
(
mm
)
n
r
-
1
1
n
r
J
Inserts
Designation
Inserts
Designation
8
8
-
v
:
fn
(
mm
/
rev
)
fn
(
mm
/
rev
)
I
d
dl
ap
(
mm
)
I
d
dl
ap
(
mm
)
t
t
r
r
I
150404
-
TS
15.1
12.7
4.76
5.16
0.4
0.03
-
0.15
0.30
-
1.50
120404
12.3
12.7
4.76
5.16
0.4
0.05
-
0.30
0.80
-
4.00
DNMG
-
TS
SNMG
-
HQ
150408
-
TS
O
O
14.7 12.7
4.76
5.16
0.8
0.08
-
0.20
0.50
-
1.50
120408
11.9
12.7
4.76
5.16
0.8
0.08
-
0.40 0.80
-
4.00
150404
-
HQ
15.1
12.7
4.76
5.16
0.4
0.05
-
0.30
0.80
-
3.50
DNMG
-
HQ
150408
-
HQ
14.7 12.7
4.76
5.16
0.8
0.08
-
0.40
0.80
-
4.00
15.1
12.7
6.35
5.16
0.4
0.05
-
0.30
0.80
-
3.50
150604
-
HQ
150608
-
HQ
14.7 12.7
6.35
5.16
0.8
0.08
-
0.40
0.80
-
4.00
150404
R
-
S
15.1
12.7
4.76
5.16
0.4
0.10
-
0.40
0.70
-
4.00
DNMG
-
S
150408
R
-
S
14.7 12.7
4.76
5.16
0.8
0.12
-
0.45
1.00
-
4.50
150404
L
-
S
15.1
12.7
4.76
5.16
0.4
0.10
-
0.40
0.70
-
4.00
150408
L
-
S
14.7
12.7
4.76
5.16
0.8
0.12
-
0.45
1.00
-
4.50
150404
R
-
VF
15.1
12.7
4.76
5.16
0.4
0.10
-
0.35
0.70
-
4.50
DNMG
-
VF
150408
R
-
VF
14.7 12.7
4.76
5.16
0.8
0.12
-
0.45
1.00
-
4.50
150404
L
-
VF
15.1
12.7
4.76
5.16
0.4
0.10
-
0.35
0.70
-
4.50
150408
L
-
VF
14.7 12.7
4.76
5.16
0.8
0.12
-
0.4
1.00
-
4.50
127
128
A
\
Cermet
Insert
(
Negative
)
111
TNOO TNOO
/
o
\
Triangular
60
°
Negative
/
o
\
Triangular
60
°
Negative
60
°
d
O
)
di
di
r
I
t
t
p
p
Steel
Stainless
steel
Steel
Stainless
steel
CD
<
D
Machining
types
#
Continuous
cutting
S
General
cutting
£
Interrupted
cutting
Machining
types
#
Continuous
cutting
S
General
cutting
£
Interrupted
cutting
9
M
M
u
U
.
9
*
.
9
*
9
99
Cast
iron
K
Cast
iron
K
Q
.
CL
-
V
Non
-
ferrous
metal
Non
-
ferrous
metal
N
N
o
o
Heat
resistant
alloy
,
Titaium
alloy
S
Heat
resistant
alloy
,
Titaium
alloy
S
5
§
V
Hardened
steel
H
Hardened
steel
H
Coated
Cutting
Condition
Coated
Cutting
Condition
Dimensions
(
mm
)
Dimensions
(
mm
)
,
r
,
'
i
m
CM
Inserts
Designation
Inserts
Designation
£ £
£
fn
(
mm
/
rev
)
fn
(
mm
/
rev
)
I
d
dl
ap
(
mm
)
I
d
dl
ap
(
mm
)
t t
E E
r
r
z
:
z
-
E E
160402
R
-
S
16.0
9.525
4.76
3.81
0.2
0.03
-
0.20
0.10
-
1.50
160404
R
-
S
15.4
9.525
4.76
3.81
0.4
0.12
-
0.30
1.00
-
3.50
TNGG
-
S
160404
R
-
S
15.5
9.525
4.76
3.81
0.4
0.05
-
0.25
0.30
-
2.00
160408
R
-
S
14.5
9.525
4.76
3.81
0.8
0.15
-
0.35
1.30
-
3.40
160402
L
-
S
16.0
9.525
4.76
3.81
0.2
0.03
-
0.20
0.10
-
1.50
160404
L
-
S
15.4
9.525
4.76
3.81
0.4
0.12
-
0.30
1.00
-
3.50
160404
L
-
S
15.5
9.525
4.76
3.81
0.4
0.05
-
0.25
0.30
-
2.00
160408
L
-
S
14.5
9.525
4.76
3.81
0.8
0.15
-
0.35
1.30
-
3.40
160402
R
-
C
16.0
9.525
4.76
3.81
0.2
0.08
-
0.30
0.50
-
3.50
160404
R
-
C
15.5
9.525
4.76
3.81
0.4
0.20
-
0.35
1.30
-
3.50
TNGG
-
C
TNMG
-
C
160404
R
-
C
15.5
9.525
4.76
3.81
0.4
0.12
-
0.30
1.00
-
3.50
160408
R
-
C
14.5
9.525
4.76
3.81
0.8
0.25
-
0.40
1.20
-
4.00
160408
R
-
C
14.5
9.525
4.76
3.81
0.8
0.15
-
0.35
1.30
-
3.50
160404
L
-
C
15.5
9.525
4.76
3.81
0.4
0.20
-
0.35
1.30
-
3.50
160402
L
-
C
16.0
9.525
4.76
3.81
0.2
0.08
-
0.30
0.50
-
3.50
160408
L
-
C
14.5
9.525
4.76
3.81
0.8
0.25
-
0.40
1.20
-
4.00
15.5
9.525
4.76
3.81
0.4
0.12
-
0.30
1.00
-
3.50
160404
L
-
C
160408
L
-
C
14.5
9.525
4.76
3.81
0.8
0.15
-
0.35
1.30
-
3.50
160402
R
-
P
16.0
9.525
4.76
3.81
0.2
0.10
-
0.30
0.50
-
3.50
160404
R
-
VF
15.4
9.525
4.76
3.81
0.4
0.10
-
0.30
0.70
-
3.50
TNGG
-
P
TNMG
-
VF
15.5
9.525
4.76
3.81
0.4
0.20
-
0.30
1.00
-
3.50
14.5
9.525
4.76
3.81
0.8
0.12
-
0.35
1.00
-
3.50
160404
R
-
P
160408
R
-
VF
160408
R
-
P
14.5
9.525
4.76
3.81
0.8
0.20
-
0.50
1.30
-
3.50
160404
L
-
VF
15.4
9.525
4.76
3.81
0.4
0.10
-
0.30
0.70
-
3.50
y
9.525
3.81
0.50
-
3.50
14.5
9.525
3.81
0.12
-
0.35
1.00
-
3.50
160402
L
-
P
16.0
4.76
0.2
0.10
-
0.30
160408
L
-
VF
4.76
0.8
160404
L
-
P
15.5
9.525
4.76
3.81
0.4
0.20
-
0.30
1.00
-
3.50
160408
L
-
P
14.5
9.525
4.76
3.81
0.8
0.20
-
0.50
1.30
-
3.50
160404
-
TS
15.4
9.525
4.76
3.81
0.4
0.03
-
0.15
0.30
-
1.50
160404
-
MT
15.4
9.525
4.76
3.81
0.4
0.17
-
0.40
1.00
-
3.50
TNMG
-
TS
TNMG
-
MT
160408
-
TS
14.5
9.525
4.76
3.81
0.8
0.08
-
0.20
0.50
-
1.50
160408
-
MT
14.5
9.525
4.76
3.81
0.8
0.17
-
0.50
1.20
-
3.50
160404
-
HQ
15.4
9.525
4.76
3.81
0.4
0.05
-
0.35
0.50
-
3.50
160408
-
HQ
14.5
9.525
4.76
3.81
0.8
0.08
-
0.40
0.80
-
4.00
129
130
A
\
Cermet
Insert
(
Negative
)
111
VNOO
WNOO
(
/
o
^
Trigon
80
°
Negative
Rhombic
35
°
Negative
r
T
o
d
di
di
*
/
35
°
I
t
P
P
Steel
Stainless
steel
Steel
Stainless
steel
CD
CD
Machining
types
%
Continuous
cutting
$
General
cutting
£
Interrupted
cutting
0
Continuous
cutting
S
General
cutting
Interrupted
cutting
Machining
types
*
9
9 9
M M
u
u
Heat
resistant
alloy
,
Titaium
alloy
<
S
5
Heat
resistant
alloy
,
Titaium
alloy
<
S
*
*
Cast
iron
Cast
iron
CL
CL
Non
-
ferrous
metal
Non
-
ferrous
metal
o
o
g
is
H
H
Hardened
steel
Hardened
steel
Coated
Cutting
Condition
Coated
Cutting
Condition
Dimensions
(
mm
)
Dimensions
(
mm
)
r
i
i
n
r
j
Inserts
Designation
Inserts
Designation
8
8
8
:
v
fn
(
mm
/
rev
)
fn
(
mm
/
rev
)
I
d
dl
ap
(
mm
)
I
d
dl
ap
(
mm
)
t t
r
r
z
:
r
160404
-
TS
15.6
9.525
4.76
3.81
0.4
0.03
-
0.15
0.30
-
1.50
080404
-
TS
8.4
12.7
4.76
5.16
0.4
0.03
-
0.15
0.20
-
1.80
VNMG
-
TS
WNMG
-
TS
O
o
o
o
160408
-
TS
14.6
9.525
4.76
3.81
0.8
0.08
-
0.20
0.50
-
1.50
080408
-
TS
8.3
12.7
4.76
5.16
0.8
0.08
-
0.20
0.20
-
1.80
160404
-
HQ
15.6
9.525
4.76
3.81
0.4
0.10
-
0.40
0.50
-
3.50
080404
-
HQ
8.4
12.7
4.76
5.16
0.4
0.05
-
0.30
0.50
-
4.00
VNMG
-
HQ
WNMG
-
HQ
160408
-
HQ
14.6
9.525
4.76
3.81
0.8
0.12
-
0.45
0.50
-
3.50
080408
-
HQ
8.3
12.7
4.76
5.16
0.8
0.08
-
0.40
0.50
-
4.00
160404
-
MT
15.6
9.525
4.76
3.81
0.4
0.15
-
0.36
0.80
-
3.00
080404
R
-
S
8.4
12.7
4.76
5.16
0.4
0.10
-
0.35
0.70
-
3.00
VNMG
-
MT
WNMG
-
S
160408
-
MT
14.6
9.525
4.76
3.81
0.8
0.17
-
0.36
1.00
-
2.50
080408
R
-
S
8.3
12.7
4.76
5.16
0.8
0.12
-
0.40
1.00
-
3.00
080404
L
-
S
8.4
12.7
4.76
5.16
0.4
0.10
-
0.35
0.70
-
3.00
080408
L
-
S
8.3
12.7
4.76
5.16
0.8
0.12
-
0.40
1.00
-
3.00
080404
-
MT
8.4
12.7
4.76
5.16
0.4
0.12
-
0.40
1.00
-
4.00
WNMG
-
MT
080408
-
MT
8.3
12.7
4.76
5.16
0.8
0.17
-
0.55
1.20
-
4.00
131
132
A
\
Cermet
Insert
(
Positive
)
>
0
<
ccoo ccoo
Rhombic
80
°
Positive
Relief
Angle
:
7
°
Rhombic
80
°
Positive
Relief
Angle
:
7
°
r r
Id
1
T
d
d
4
rH
7
°
7
°
80
°
^
.
I
80
°
P
P
Steel
Stainless
steel
Steel
Stainless
steel
CD CD
Machining
types
%
Continuous
cutting
$
General
cutting
£
Interrupted
cutting
Machining
types
#
Continuous
cutting
C
General
cutting
£
Interrupted
cutting
#
S
M M
u
u
*
*
Cast
iron
K
Cast
iron
K
CL CL
Non
-
ferrous
metal
Non
-
ferrous
metal
N N
o
o
Heat
resistant
alloy
,
Titaium
alloy
S
Heat
resistant
alloy
,
Titaium
alloy
S
5 5
Hardened
steel
Hardened
steel
H H
Coated
Cutting
Condition
Coated
Cutting
Condition
Dimensions
(
mm
)
Dimensions
(
mm
)
m
CM
m
CM
Inserts
Designation
Inserts
Designation
-
m
-
fn
(
mm
/
rev
)
fn
(
mm
/
rev
)
I
d
dl
ap
(
mm
)
I
d
dl
ap
(
mm
)
t
t
i
6
*
6
r
r
030102
R
-
F
3.3
3.5
1.39
1.90
0.2
0.01
-
0.05
0.10
-
0.30
060204
-
FG
6.0
6.35
2.38
2.80
0.4
0.05
-
0.15
0.30
-
1.50
CCGT
-
F
CCMT
-
FG
030104
R
-
F
3.1
3.5
1.39
1.90
0.4
0.01
-
0.05
0.10
-
0.30
09
T
304
-
FG
9.2
9.525
3.97
4.40
0.4
0.07
-
0.20 0.40
-
2.00
040102
R
-
F
4.1
4.3
1.79
2.30
0.2
0.01
-
0.10
0.10
-
0.50
09
T
308
-
FG
8.8
9.525
3.97
4.40
0.8
0.10
-
0.25
0.60
-
2.00
3.9
4.3
040104
R
-
F
1.79
2.30
0.4
0.01
-
0.10
0.10
-
0.50
030102
L
-
F
3.3
3.5
1.39
1.90
0.2
0.01
-
0.05
0.10
-
0.30
030104
L
-
F
3.1
3.5
1.39
1.90
0.4
0.01
-
0.05
0.10
-
0.30
040102
L
-
F
4.3
1.79
2.30
0.2
0.01
-
0.10
0.10
-
0.50
4.1
060202
-
PS
6.2
6.35
2.38
2.80
0.2
0.05
-
0.20
0.30
-
1.00
CCMT
-
PS
040104
L
-
F
3.9
4.3
1.79
2.30
0.4
0.01
-
0.10
0.10
-
0.50
060204
-
PS
6.0
6.35
2.38
2.80
0.4
0.10
-
0.25
0.30
-
1.00
'
060208
-
PS
5.6
6.35
2.38
2.80
0.8
0.10
-
0.25
0.30
-
1.00
060202
R
-
W
15
6.5
6.35
2.38
2.80
0.2
0.03
-
0.11
0.06
-
1.70
CCGT
-
W
15
09
T
302
-
PS
9.4
9.525
3.97
4.40
0.2
0.04
-
0.16
0.80
-
1.50
060204
R
-
W
15
6.5
6.35
2.38
2.80
0.4
0.02
-
0.20 0.10
-
2.00
09
T
304
-
PS
9.2
9.525
3.97
4.40
0.4
0.05
-
0.20
0.30
-
1.50
060202
L
-
W
15
6.5
6.35
2.38
2.80
0.2
0.03
-
0.11
0.06
-
1.70
09
T
308
-
PS
8.8
9.525
3.97
4.40
0.8
0.10
-
0.25
0.30
-
1.50
060204
L
-
W
15
6.5
6.35
2.38
2.80
0.4
0.02
-
0.20
0.10
-
2.00
060202
-
HQ
6.2
6.35
2.38
2.80
0.2
0.04
-
0.14 0.50
-
1.50
CCMT
-
HQ
060204
-
HQ
6.0
6.35
2.38
2.80
0.4
0.10
-
0.20
0.50
-
2.00
3.97
0.2
0.50
-
2.00
09
T
302
-
HQ
9.4
9.525
4.40
0.07
-
0.18
09
T
302
R
-
W
20
9.7
9.525
3.97
4.40
0.2
0.04
-
0.15
0.08
-
2.00
CCGT
-
W
20
09
T
304
-
HQ
9.2
9.525
3.97
4.40
0.4
0.08
-
0.20 0.50
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2.00
9.7
9.525
3.97
0.05
-
0.20 0.10
-
2.00
09
T
304
R
-
W
20
4.40
0.4
09
T
308
-
HQ
8.8
9.525
3.97
4.40
0.8
0.10
-
0.25
0.50
-
2.00
09
T
302
L
-
W
20
9.7
9.525
3.97
4.40
0.2
0.04
-
0.15
0.08
-
2.00
09
T
302
L
-
W
20
9.7
9.525
3.97
4.40
0.4
0.05
-
0.20 0.10
-
2.00
060204
-
MT
6.0
6.35
2.38
2.80
0.4
0.07
-
0.20
0.50
-
2.00
CCMT
-
MT
09
T
304
-
MT
9.2
9.525
3.97
4.40
0.4
0.10
-
0.25
0.70
-
3.50
O
09
T
308
-
MT
8.8
9.525
3.97
4.40
0.8
0.13
-
0.30
1.00
-
3.50
060202
ER
-
U
6.5
6.35
2.38
2.80
0.2
0.03
-
0.11
0.06
-
1.70
CCGT
-
U
O
060204
ER
-
U
6.5
6.35
2.38
2.80
0.4
0.05
-
0.20
0.06
-
1.70
09
T
302
ER
-
U
O
9.7
9.525
3.97
4.40
0.2
0.04
-
0.15
0.08
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2.00
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09
T
304
ER
-
U
9.7
9.525
3.97
4.40
0.4
0.05
-
0.20
0.10
-
2.00
O
060202
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-
U
6.5
6.35
2.38
2.80
0.2
0.03
-
0.11
0.06
-
1.70
O
060204
EL
-
U
6.5
6.35
2.38
2.80
0.4
0.05
-
0.20
0.06
-
1.70
09
T
302
EL
-
U
9.7
9.525
3.97
4.40
0.2
0.04
-
0.15
0.08
-
2.00
O
9.7
9.525
3.97
0.4
0.05
-
0.20 0.10
-
2.00
09
T
304
EL
-
U
4.40
O
133
134
A
\
Cermet
Insert
(
Positve
)
>
0
<
scoo
DCOO
Rhombic
55
°
Positive
Relief
Angle
:
7
°
Square
90
°
Positive
Relief
Angle
:
7
°
r
r
O
d
di
Id
1
=
4
4
'
-
7
°
V
55
°
P P
Steel
Stainless
steel
Steel
Stainless
steel
CD CD
Machining
types
9
Continuous
cutting
9
General
cutting
9
Interrupted
cutting
Machining
types
9
Continuous
cutting
9
General
cutting
9
Interrupted
cutting
9
s
#
M M
u
u
CD CD
Cast
iron
m
9
Cast
iron
9
9
K
K
CL CL
e
Non
-
ferrous
metal
Non
-
ferrous
metal
N N
o
o
Heat
resistant
alloy
,
Titaium
alloy
4
S
Heat
resistant
alloy
,
Titaium
alloy
4
S
§
5
V
H
H
Hardened
steel
Hardened
steel
Coated
Cutting
Condition
Coated
Cutting
Condition
Dimensions
(
mm
)
Dimensions
(
mm
)
i
r
r
\
i
in
rsi
Inserts
Designation
Inserts
Designation
8
C
:
S
fn
(
mm
/
rev
)
fn
(
mm
/
rev
)
I
d
dl
ap
(
mm
)
I
d
dl
ap
(
mm
)
t
t
r
r
Z
z
E
E
t
070202
R
-
F
7.8
6.35
2.38
2.80
0.2
0.03
-
0.11
0.06
-
1.70
09
T
304
-
HQ
9.1
9.525
3.97
4.40
0.4
0.08
-
0.16
0.50
-
2.00
DCGT
-
F
SCMT
-
HQ
070204
R
-
F
7.8
6.35
2.38
2.80
0.4
0.02
-
0.20
0.10
-
2.00
09
T
308
-
HQ
8.7
9.525
3.97
4.40
0.8
0.10
-
0.20
0.50
-
2.00
070202
L
-
F
7.8
6.35
2.38
2.80
0.2
0.03
-
0.11
0.06
-
1.70
070204
L
-
F
7.8
6.35
2.38
2.80
0.4
0.02
-
0.20 0.10
-
2.00
9.525
3.97
0.2
0.08
-
2.00
11
T
302
R
-
F
11.6
4.40
0.04
-
0.15
11
T
304
R
-
F
11.6
9.525
3.97
4.40
0.4
0.05
-
0.20
0.10
-
2.00
11
T
302
L
-
F
11.6
9.525
3.97
4.40
0.2
0.04
-
0.15
0.08
-
2.00
11
T
304
L
-
F
11.6
9.525
3.97
4.40
0.4
0.05
-
0.20 0.10
-
2.00
11
T
302
ER
-
U
11.6
9.525
3.97
4.40
0.2
0.04
-
0.15
0.08
-
2.00
DCGT
-
U
11
T
304
ER
-
U
11.6
9.525
3.97
4.40
0.4
0.05
-
0.20 0.10
-
2.50
11
T
302
EL
-
U
11.6
9.525
3.97
4.40
0.2
0.04
-
0.15
0.08
-
2.00
11
T
304
EL
-
U
11.6
9.525
3.97
4.40
0.4
0.05
-
0.20 0.10
-
2.50
7.3
6.35
2.38
2.80
0.4
0.07
-
0.20 0.40
-
1.50
070204
-
FG
DCMT
-
FG
11
T
304
-
FG
11.2
9.525
3.97
4.40
0.4
0.10
-
0.25
0.60
-
1.50
11
T
308
-
FG
10.8
9.525
3.97
4.40
0.8
0.10
-
0.25
0.60
-
2.00
070202
-
PS
7.5
6.35
2.38
2.80
0.2
0.03
-
0.10
0.06
-
1.00
DCMT
-
PS
070204
-
PS
7.3
6.35
2.38
2.80
0.4
0.05
-
0.20
0.30
-
1.20
11
T
302
-
PS
11.4
9.525
3.97
4.40
0.2
0.04
-
0.15
0.08
-
1.50
11
T
304
-
PS
11.2
9.525
3.97
4.40
0.4
0.05
-
0.20
0.30
-
1.50
11
T
308
-
PS
10.8
9.525
3.97
4.40
0.8
0.10
-
0.25
0.30
-
1.50
070202
-
HQ
7.5
6.35
2.38
2.80
0.2
0.07
-
0.14
0.50
-
2.00
DCMT
-
HQ
7.3
6.35
0.50
-
2.00
070204
-
HQ
2.38
2.80
0.4
0.08
-
0.16
070208
-
HQ
6.8
6.35
2.38
2.80
0.8
0.10
-
0.20 0.50
-
2.00
11
T
302
-
HQ
9.525
3.97
4.40
0.2
0.07
-
0.18
0.50
-
2.00
11.4
11
T
304
-
HQ
11.2
9.525
3.97
4.40
0.4
0.08
-
0.20
0.50
-
2.00
11
T
308
-
HQ
10.8
9.525
3.97
4.40
0.8
0.10
-
0.25
0.50
-
2.00
11
T
304
-
MT
11.2
9.525
3.97
4.40
0.4
0.10
-
0.25
0.70
-
3.00
DCMT
-
MT
10.8
9.525
3.97
4.40
0.8
0.13
-
0.30
1.00
-
3.00
11
T
308
-
MT
135
136
A
\
Cermet
Insert
(
Positive
)
111
TBOO
TCOO
Trianguiar
60
°
Positive
Relief
Angle
:
7
°
Triangular
60
°
Positive
Relief
Angle
:
5
°
O
O
Idl
fdi
T
Rr
R
5
'
t
t
P P
Steel
Stainless
steel
Steel
Stainless
steel
CD CD
Machining
types
0
Continuous
cutting
S
General
cutting
Interrupted
cutting
Machining
types
#
Continuous
cutting
$
General
cutting
Interrupted
cutting
S
* *
S
M
M
u
u
m
9
Cast
iron
K
Cast
iron
K
Q
.
CL
Non
-
ferrous
metal
Non
-
ferrous
metal
N
N
o o
Heat
resistant
alloy
,
Titaium
alloy
^
S
Heat
resistant
alloy
,
Titaium
alloy
^
S
§
g
H
Hardened
steel
Hardened
steel
H
Coated
Cutting
Condition
Coated
Cutting
Condition
Dimensions
(
mm
)
Dimensions
(
mm
)
m
in
y
m
y
m
Inserts
Designation
Inserts
Designation
R
fn
(
mm
/
rev
)
fn
(
mm
/
rev
)
I
d
dl
ap
(
mm
)
I
d
dl
ap
(
mm
)
t
t
21
r r
£
060102
L
6.4
3.97
1.59
2.16
0.2
0.05
-
0.20
0.10
-
1.30
060102
L
6.4
3.97
1.59
2.16
0.2
0.05
-
0.20 0.10
-
1.30
TBGT
TCGT
060104
L
5.8
3.97
1.59
2.16
0.4
0.08
-
0.20
0.10
-
1.30
060104
L
5.8
3.97
1.59
2.16
0.4
0.08
-
0.20 0.10
-
1.30
080202
R
7.7
4.76
2.38
2.30
0.2
0.03
-
0.11
0.06
-
1.70
080204
R
7.2
4.76
2.38
2.30
0.4
0.05
-
0.15
0.06
-
2.00
080202
L
7.7
4.76
2.38
2.30
0.2
0.03
-
0.11
0.06
-
1.70
080204
L
7.2
4.76
2.38
2.30
0.4
0.05
-
0.15
0.06
-
2.00
090204
-
PS
8.6
5.56
2.38
2.50
0.4
0.05
-
0.20 0.10
-
1.70
TCMT
-
PS
110202
-
PS
10.5
6.35
2.38
2.80
0.2
0.03
-
0.13
0.06
-
1.70
110204
-
PS
10.0
6.35
2.38
2.80
0.8
0.05
-
0.20
0.30
-
1.20
16
T
304
-
PS
15.5
9.525
3.97
4.40
0.4
0.05
-
0.20
0.30
-
1.50
16
T
308
-
PS
14.5
9.525
3.97
4.40
0.8
0.10
-
0.25
0.30
-
1.50
090204
-
HQ
8.6
5.56
2.38
2.50
0.4
0.08
-
0.16
0.50
-
2.00
TCMT
-
HQ
6.35
0.2
110202
-
HQ
10.5
2.38
2.80
0.07
-
0.14 0.50
-
2.00
110204
-
HQ
10.0
6.35
2.38
2.80
0.8
0.08
-
0.16
0.50
-
2.00
110208
-
HQ
9.0
6.35
2.38
2.80
0.8
0.10
-
0.20
0.50
-
2.00
16
T
304
-
HQ
15.5
9.525
3.97
4.40
0.4
0.08
-
0.20
0.50
-
2.00
16
T
308
-
HQ
14.5
9.525
3.97
4.40
0.8
0.10
-
0.25
0.50
-
2.00
137
138
A
\
Cermet
Insert
(
Positive
)
>
0
<
TPOO
VBOO
Rhombic
35
°
Positive
Relief
Angle
:
5
°
Triangular
60
°
Positive
Relief
Angle
:
11
°
r
o
(
O
)
d
v
45
'
/
35
°
t
P P
Steel
Stainless
steel
Steel
Stainless
steel
(
U
cu
Machining
types
%
Continuous
cutting
S
General
cutting
Interrupted
cutting
Machining
types
%
Continuous
cutting
$
General
cutting
Interrupted
cutting
*
*
S
s
M
M
u
u
m
Cast
iron
K
Cast
iron
K
CL
CL
JXl
Non
-
ferrous
metal
Non
-
ferrous
metal
N
N
o
o
Heat
resistant
alloy
,
Titaium
alloy
^
S
Heat
resistant
alloy
,
Titaium
alloy
^
S
5
5
Hardened
steel
H
H
Hardened
steel
Coated
Cutting
Condition
Coated
Cutting
Condition
Dimensions
(
mm
)
Dimensions
(
mm
)
LO
r
.
%
m
Inserts
Designation
Inserts
Designation
fn
(
mm
/
rev
)
fn
(
mm
/
rev
)
I
d
dl
ap
(
mm
)
I
d
dl
ap
(
mm
)
t
t
2
L
r
r
r
£
oo
080202
R
7.7
4.76
2.38
2.30
0.2
0.01
-
0.12
0.06
-
1.70
110301
R
-
Y
11.0
6.35
3.18
2.80
0.1
0.02
-
0.08
0.05
-
1.50
VBGT
-
Y
O
O
110302
R
-
Y
11.0
6.35
3.18
2.80
0.2
0.03
-
0.13
0.06
-
1.70
080204
R
7.2
4.76
2.38
2.30
0.4
0.01
-
0.15
0.08
-
1.70
O
o
090202
R
9.1
5.56
2.38
3.00
0.2
0.01
-
0.12
0.06
-
1.70
110304
R
-
Y
11.0
6.35
3.18
2.80
0.4
0.05
-
0.20
0.07
-
2.00
TPGH
O
O
110301
L
-
Y
11.0
6.35
3.18
2.80
0.1
0.02
-
0.08
0.05
-
1.50
3.00
090204
R
8.6
5.56
2.38
0.4
0.01
-
0.15
0.08
-
1.70
O
O
110302
L
-
Y
6.35
3.18
2.80
0.2
0.03
-
0.13
0.06
-
1.70
11.0
110302
R
10.5
6.35
3.18
3.40
0.2
0.01
-
0.12
0.06
-
2.00
O
110304
L
-
Y
O
11.0
6.35
3.18
2.80
0.4
0.05
-
0.20
0.07
-
2.00
110304
R
10.0
6.35
3.18
3.40
0.4
0.01
-
0.15
0.08
-
2.00
080202
L
7.7
4.76
2.38
2.30
0.2
0.01
-
0.12
0.06
-
1.70
080204
L
7.2
4.76
2.38
2.30
0.4
0.01
-
0.15
0.08
-
1.70
090202
L
9.1
5.56
2.38
3.00
0.2
0.01
-
0.12
0.06
-
1.70
10.5
6.35
3.18
2.80
0.2
0.03
-
0.20
0.20
-
1.20
110302
-
PS
VBMT
-
PS
090204
L
8.6
5.56
2.38
3.00
0.4
0.01
-
0.15
0.08
-
1.70
110304
-
PS
10.0
6.35
3.18
2.80
0.4
0.04
-
0.20
0.20
-
1.20
110302
L
10.5
6.35
3.18
3.40
0.2
0.01
-
0.12
0.06
-
2.00
160404
-
PS
15.6
9.525
4.76
4.40
0.4
0.05
-
0.20
0.30
-
1.50
110304
L
10.0
6.35
3.18
3.40
0.4
0.01
-
0.15
0.08
-
2.00
160408
-
PS
14.6
9.525
4.76
4.40
0.8
0.10
-
0.20
0.30
-
1.50
110304
-
PS
10.0
6.35
3.18
3.40
0.4
0.05
-
0.20 0.30
-
1.50
TPMT
-
PS
110308
-
PS
9.0
6.35
3.18
3.40
0.8
0.10
-
0.25
0.30
-
1.50
110302
-
HQ
10.5
6.35
3.18
2.80
0.2
0.07
-
0.14
0.50
-
1.50
VBMT
-
HQ
110304
-
HQ
10.0
6.35
3.18
2.80
0.4
0.08
-
0.16
0.50
-
1.50
110308
-
HQ
9.0
6.35
3.18
2.80
0.8
0.10
-
0.20
0.50
-
1.50
160404
-
HQ
15.6
9.525
4.76
4.40
0.4
0.08
-
0.16
0.50
-
2.00
160408
-
HQ
14.6
9.525
4.76
4.40
0.8
0.10
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0.20
0.50
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2.00
139
140
A
\
Cermet
Insert
(
Positive
)
vcoo
WBOO
Rhombic
35
°
Positive
Relief
Angle
:
7
°
Trigon
80
°
Positive
Relief
Angle
:
5
°
r
35
°
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Machining
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0
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Machining
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cutting
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cutting
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Interrupted
cutting
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M
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5
Heat
resistant
alloy
,
Titaium
alloy
4
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*
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Cast
iron
Cast
iron
K
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-
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Non
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metal
Non
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metal
N
o
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resistant
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steel
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Dimensions
(
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Dimensions
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mm
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i
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Inserts
Designation
Inserts
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8
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(
mm
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(
mm
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(
mm
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2
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110302
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10.5
6.35
3.18
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0.03
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1.20
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-
F
2.6
3.97
1.59
2.30
0.2
0.01
-
0.05
0.10
-
0.30
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-
PS
WBGT
-
F
110304
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10.0
6.35
3.18
2.80
0.4
0.04
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0.20
0.20
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1.20
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-
F
2.5
3.97
1.59
2.30
0.4
0.01
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0.10
0.10
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0.50
15.6
9.525
4.76
0.30
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1.50
3.1
2.38
2.30
0.2
160404
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4.40
0.4
0.05
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0.20
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-
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4.76
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0.40
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14.6
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1.50
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3.0
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142
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type
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presicion
Wear
resistance
Productivity
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I
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Edge
Prep
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(
Ref
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To
the
Table
1
)
"
Turning
Indexable
Inserts
indentification
System
"
See
Page
=
|
>
013
No
.
of
Edges
Hand
'
*
2
/
^
<
-
Preparation
Identifi
cation
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for
regrinding
type
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use
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corner
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Multi
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corner
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coated
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20
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Hardness
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Mill
Powder
metallurgy
Cast
iron
Rolls
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high
speed
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90
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25
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50
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TB
5000
75
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85
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TBX
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95
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alloys
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der
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01
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3
LI
r
TOOL
DRILL
GROOVE
LINE
THREAD
LINE
TURN
LINE
A
\
Threading
Code
System
TTP
30
Insert
Size
Insert
Style
Insert
Type
Hand
of
Insert
Chip
Breaker
Standard
API
Size
Multi
-
Tooth
Style
Carbide
Grade
Clamping
Method
Holder
Type
Hand
of
holder
Height
of
shank
Width
of
shank
Length
of
Holder
Insert
Size
of
Insert
O
Insert
Size
(
mm
)
Chip
Breaker
Standard
m
ES
Insert
Size
(
mm
)
Width
of
shank
3
ar
Diameter
Q
Clmaping
System
E
3
-
08
:
d
=
4.76
11
:
d
=
6.35
16
:
d
=
9.525
22
:
d
=
12.7
27
:
d
=
15.875
60
°
-
Partial
Profile
60
°
55
°
-
Partial
Profile
55
°
STACME
-
StubACME
UN
-
American
UN
W
-
Whitworth
for
BSW
,
BSP
BSPT
-
Britsh
Standard
Pipe
Thread
VAM
-
VAM
H
90
-
H
90
ISO
-
ISO
Metric
UNJ
-
UNJ
MJ
-
ISO
5855
TR
-
TarpezDIN
10
*
ACME
-
ACME
NPT
-
NPT
NPTF
-
NPTF
NPS
-
NPS
PG
-
Pg
DIN
40430
API
-
API
None
Code
:
Regular
Type
M
:
M
type
Chip
Breaker
d
=
4.76
d
=
6.35
d
=
9.525
d
=
12.7
d
=
15.875
08
S
:
Screw
on
system
C
:
Clamp
on
system
L
11
16
d
22
For
External
ABUT
-
American
Butterss
BBUT
-
British
Buttress
SAGE
-
Metric
Buttress
DIN
513
RD
-
Round
DIN
405
RD
20400
-
Round
DIN
20400
BUT
-
API
Buttress
Casing
APIRD
-
API
Round
Casing
&
Tubing
EL
-
Extreme
Line
Casing
27
Holder
Type
Insert
Style
S
SEEEEiHiEi
A
Pitch
wJESBEBEB
E
:
For
External
N
:
For
Internal
Special
features
For
Internal
Q
Full
profile
Partial
profile
M
jp
[
mm
mm
Hand
of
holder
B
-
Coolant
Hole
G
G
3
I
API
Size
&
Taper
©
0.35
-
6
.
C
72
-
3
A
0.5
-
1.5
48
-
16
C
-
Carbide
Shank
AG
0.5
-
3.0
48
-
8
E
)
CB
-
Carbide
Shank
with
Coolant
Hole
Insert
Type
B
OSS
14
-
8
G
1.75
-
3.0
None
Code
7
-
5
N
3.5
-
5.0
R
:
Right
handed
L
:
Left
handed
380.5
API
V
-
0
..
38
R
382
APIV
-
0.038
R
1
:
6
503
APIV
-
0.050
1
:
4
383
APIV
-
0.038
R
1
:
4
551
APIV
-
0.055
1
:
8
403
APIV
-
0.040
1
:
4
502
APIV
-
0.050
1
:
6
A
-
Api
(
oil
)
4.5
-
4
Q
5.5
-
6.0
Length
of
Holder
Standard
U
-
U
Style
Insert
E
:
External
thread
^
Internal
thread
V
-
Vertical
Type
Insert
G
-
Gang
Tool
Height
of
shank
o
A
=
32
H
=
100
Q
=
180
VS
-
Slim
Throat
ED
B
=
40
J
=
110
R
=
200
No
.
of
Teeth
Carbide
Grade
o
o
Hand
of
Insert
C
=
50
K
=
125
S
=
250
X
-
Special
ar
s
D
=
60
L
=
140
T
=
300
0
)
i
i
Item
E
=
70
M
=
150
U
=
350
H
For
Multi
-
Tooth
Style
2
3
5
6
8
/
F
=
80
N
=
160
V
=
400
Standard
Style
Insert
and
Toolholder
Pocket
U
-
Style
Insert
and
Toolholder
Pocket
TTIP
30
TTIM
45
TTIG
30
TTIN
30
/
_
R
:
Right
handedL
:
Left
handed
G
=
90
P
=
170
W
=
450
t
279
280
A
\
Technical
Information
for
Threading
Common
Thread
Forms
Special
Features
Major
Diameter
The
largest
diameter
of
a
screw
thread
>
External
Thread
External
Thread
A
thread
on
the
external
surface
of
a
cylinder
screw
or
cone
Common
Thread
Forms
Pitch
Diameter
On
a
straight
thread
,
the
diameter
of
an
imaginary
cylinder
,
the
surface
of
which
cuts
the
thread
forms
where
the
width
of
the
thread
and
groove
are
equal
Whitworth
(
BSW
)
ISO
M
(
Metric
)
and
UN
(
Unified
National
)
UNJ
(
controlled
root
radius
)
Major
®
u
Pitch
Minor
®
<
ffi
-
p
-
p
p
0
,
1601
P
0
,
1082
P
Depth
of
Thread
The
distance
between
the
crest
and
root
measured
from
normal
to
the
axis
0
,
1062
p
0.125
P
0
,
125
P
0
,
1373
P
\
1
X
I
A
\
Minor
Diameter
The
smallest
diameter
of
a
screw
thread
r
>
Pitch
*
Thread
A
Angle
_
A
Helix
f
Angle
0
,
0722
P
|
0
,
9605
P
0
,
5774
F
0
,
6403
P
0
,
6134
P
0
,
8660
P
0
,
8660
P
,
r
Pitch
_
The
distance
between
the
corresponding
points
on
adjacent
thread
forms
measured
parallel
to
the
axis
.
This
distance
can
be
defined
in
millimeters
or
by
the
tpi
(
threads
per
inch
)
,
which
is
the
reciprocal
of
the
pitch
55
60
60
°
Helix
Angle
For
a
straight
thread
,
where
the
lead
of
the
thread
and
the
pitch
diameter
circle
circumference
form
a
right
angled
triangle
,
the
helix
angle
is
the
angle
opposite
of
the
lead
TT
0
,
25
P
^
^
|
^
*
Crest
~
screv
/
0
,
2706
P
^
0
,
0902
P
0
,
1373
P
0
,
1804
P
0
,
1601
P
0
,
1804
P
0
,
1443
P
0
,
1443
P
Use
:
Fittings
and
pipe
couplings
for
gas
,
water
,
and
sewer
lines
(
replaced
by
ISO
)
.
Use
:
All
branches
of
mechanical
industry
.
Use
:
Aircraft
and
space
industry
.
Straight
Thread
Athread
formed
on
a
cylinder
TaperThread
Athread
formed
on
a
cone
BSPT
(
British
Standard
Pipe
Thread
)
American
Buttress
NPT
(
American
National
Pipe
Thread
)
Nominal
Diameter
The
diameter
of
which
the
diameter
limits
are
derived
by
the
application
of
deviation
allowances
and
tolerances
Internal
Thread
Athread
on
the
internal
surface
of
a
cylinder
or
cone
p
p
1
/
2
D
play
.
p
.
I
,
.
0
,
1632
P
|
0
,
1600
P
0
,
0328
P
0
,
038
P
0
,
0627
P
f
I
Hi
0
,
8906
P
|
°
l
3
P
*
Sr
Right
handed
thread
The
Helix
Angle
(
j
)
Left
handed
thread
0
,
8657
P
L
rt
0
,
9602
P
0
,
6403
P
0
,
8
P
r
55
f
60
i
0
,
3
P
T
y
*
0
,
1373
P
/
axis
of
screw
9
^
"
7
45
0
,
0826
P
1
/
2
D
,
play
taper
1
:
16
taper
1
:
16
)
1
/
2
D
2
play
axis
of
screw
^
"
0
,
1600
P
Lead
(
L
)
0
,
1632
P
^
0
,
0328
P
Helix
angle
(
!
)
Use
:
Pipe
thread
for
steam
,
gas
,
and
water
lines
Use
:
Fittings
and
pipe
couplings
.
Use
:
Fittings
and
pipe
couplings
.
(
j
)
X
Pitch
diamiter
(
D
)
Acme
,
truncated
(
Stub
)
TR
DIN
103
Acme
p
nut
p
A
thread
which
,
when
viewed
axially
,
winds
in
a
counter
clockwise
and
receding
direction
.
All
left
handed
threads
are
designated
LH
77
*
A
thread
which
,
when
viewed
axially
,
winds
in
a
clockwise
and
receding
direction
Threads
are
always
right
handed
unless
they
are
specified
A
1
1
1
/
2
D
play
A
For
a
straight
thread
,
where
the
lead
of
the
thread
and
the
pitch
diameter
circle
circumference
form
a
right
angled
triangle
,
the
helix
angle
is
the
angle
opposite
of
the
lead
*
1
/
2
D
play
0
,
7167
p
0
,
6830
P
I
A
A
'
A
1
,
8660
P
+
0
,
5
P
0
,
5
P
*
1
A
thread
in
which
the
lead
is
an
integral
multiple
,
greater
than
one
,
of
the
pitch
,
A
multi
-
start
thread
permits
a
more
rapid
advance
without
a
coarser
(
larger
)
thread
form
Machining
a
Multi
-
start
Thread
1
,
9334
P
1
29
29
'
30
1
,
9334
P
0
,
6830
P
,
0
,
7167
P
y
1
/
2
D
2
play
r
V
A
0
,
8167
P
I
/
2
D
1
pla
>
c
Third
Start
Machined
(
Final
,
3
Starts
Thread
)
First
Start
Machined
Second
Start
Machined
P
3
-
5
6
-
12
>
12
mm
A
0
,
25
0
,
5
1
,
0
mm
1
/
2
pla
screw
A
=
0
,
0307
P
B
=
0
,
3707
P
x
D
play
C
=
0
,
3707
P
(
D
1
play
D
2
play
)
Use
:
Acme
-
General
is
used
in
mechanical
industry
for
motion
transmission
screws
.
A
=
0
,
4224
P
B
=
0
,
4224
P
x
D
play
C
=
0
,
4224
P
(
D
1
play
D
2
play
)
Use
:
Mechanical
industry
for
motion
transmission
screws
.
Use
:
Where
normal
Acme
is
too
deep
.
API
Rotary
Shoulder
Connection
API
Casing
and
Tubing
Round
Thread
Form
API
Buttress
Insert
Profile
Style
B
(
NF
0
B
(
ER
)
Sm
Partial
Profile
Full
Profile
Full
Profile
for
Fine
Pitches
Semi
Full
t
1
H
rn
F
1
*
4
<
cn
parallel
to
taper
10
axis
of
thread
taper
=
3
/
4
per
foot
(
62
,
5
mm
per
metre
)
on
diameter
The
V
partial
profile
insert
cuts
without
The
full
profile
insert
will
form
a
The
full
profile
for
Rne
Pitches
will
topping
the
outer
diameter
of
the
complete
thread
profile
including
the
form
a
complete
thread
thread
.
The
same
insert
can
be
used
crest
.
For
every
thread
pitch
and
for
a
range
of
different
thread
pitches
standard
,
a
separate
insert
is
which
have
a
common
thread
angle
required
The
Semi
profile
insert
will
form
a
complete
thread
including
crest
The
topping
of
the
outer
diameter
is
radius
but
without
topping
the
outer
generated
by
second
tooth
NOTE
:
Taper
shown
exaggerated
.
NOTE
:
Taper
shown
exaggerated
.
diameter
Mainly
used
for
trapezoidal
profiles
281
282
A
\
Technical
Information
for
Threading
Thread
Turning
Method
Infeed
Angle
Selection
And
Chip
Formation
Typical
Chip
Formation
Drawing
No
.
Thread
Inserts
&
Tool
holder
Rotation
Feed
Direction
Helot
Method
EX
RH
Counter
clockwise
Towards
chuck
Regular
Right
Hand
External
H
EX
LH
Clockwise
From
chuck
Reversed
H
Counter
clockwise
Regular
IN
RH
Towards
chuck
Right
Hand
Internal
IN
LH
Clockwise
From
chuck
Reversed
EX
LH
Counter
clockwise
Towards
chuck
Regular
Left
Hand
External
B
EX
RH
Clockwise
From
chuck
Reversed
IN
LH
Counter
clockwise
Towards
chuck
Regular
Left
Hand
Internal
IN
RH
Clockwise
From
chuck
Reversed
LU
External
LH
Thread
External
RH
Thread
i
m
m
O O
22
cr
.
x
x
Internal
LH
Thread
Internal
RH
Thread
=
i
>
o
o
LU
d
Calculating
the
Helix
Angle
(
0
)
I
Helix
Angle
Diagram
Pitch
P
*
Pitch
P
*
5
j
4
j
3
j
!
=
2
¥
!
=
iy
mmmr
Feed
towards
the
chuck
-
2.2
<
m
2.5
Xi
/
Standard
heix
angle
/
3
£
E
/
3.5
O
*
4
^
1.51
Standard
toolholder
pocket
angle
4.5
HI
5
Shim
angle
1
6
7
11
UJ
14
18
24
o
The
helix
angle
is
calculated
by
the
following
formula
:
Pitch
diameter
[
mm
]
\
=
09
O
50
100 150
200
Feed
towards
the
tailstock
The
coolant
should
provided
14
PXN
9
1
0
=
tan
7
Reversed
0
helix
angle
JIX
D
6
,
L
/
5
I
4.5
\
f
HI
Shim
I
angle
4
'
1.5
Standard
toolholder
pocker
angle
\
P
-
Helix
angle
0
°
P
-
Pitch
(
mm
)
N
-
No
.
of
starts
D
-
Pitch
diameter
(
mm
)
Lead
=
P
x
N
Si
,
3.5
N
-
o
3
Special
Toolholders
A
\
The
dimension
H
1
(
cutting
edge
height
)
remains
constant
with
every
insert
/
shim
combination
Homogeneity
and
stability
\
=
-
29
!
=
-
iy
Fast
heat
removal
Good
surface
coverage
Non
-
corrosive
ness
Good
lubricant
qualities
The
helix
angle
can
also
be
found
from
the
diagram
below
*
For
Multi
-
start
threads
,
use
the
lead
value
instead
of
the
pitch
283
284
A
\
Technical
Information
for
Threading
0
Anvil
Change
Recommendation
Standard
and
slanted
Anvils
Pitch
TPI
mm
)
^
Some
Pitch
to
Diameter
combinations
require
an
Anvil
change
.
If
an
Anvil
change
is
required
,
use
STM
-
R
Anvils
for
EX
-
RH
toolholders
and
for
IN
-
LH
boring
bars
.
Use
STM
-
L
Anvils
for
IN
-
RH
toolholders
and
for
EX
-
LH
boring
bars
.
2.5
10
Special
Holder
Required
ACME
STUBACME
TRAPEZ
(
DIN
103
)
ROUND
(
DIN
405
)
9
IP
Y
3
8
Negative
Helix
&
3.5
7
4
6
3
£
7
/
Standard
Anvil
(
Supplied
With
Holder
)
5
5
TOOTOOLtoolholder
and
boring
bar
pockets
have
a
built
-
in
1.5
helix
compensation
angle
.
This
angle
may
be
adjusted
to
match
the
helix
angle
of
the
thread
being
produced
by
replacing
the
anvil
.
6
4
/
3.5
/
8
3
7
Toolholder
10
Toolholder
2.5
/
UL
7
Change
to
anvil
STM
-
R
1
Nor
STM
-
L
1
N
12
2
16
1.5
mm
:
5
10
20
30
40
50
60
70
80
90
100 110 120
130
140
Inch
:
0.25
0.50
0.75
1
1.25
1.50
2
2.50
3
Pitch
Positive
Helix
Angles
Negative
Helix
Angles
Diameter
4
5
Applicable
when
turning
RH
thread
with
RH
holder
or
LH
thread
with
LH
holder
.
^
^
Most
applications
use
the
standard
Anvil
supplied
with
the
toolholder
or
boring
bar
.
If
an
Anvil
change
is
required
,
use
STM
-
R
Anvils
for
EX
-
RH
toolholders
and
for
IN
-
LH
boring
bars
.
Use
STM
-
L
Anvils
for
IN
-
RH
toolholders
and
for
EX
-
LH
boring
bars
.
Applicable
when
turning
RH
thread
with
LH
holder
or
LH
thread
with
RH
holder
.
TPI
mm
2.5
10
T
§
/
y
§
j
&
rsf
[
tj
"
-
/
/
£
#
7
9
Special
Holder
Required
%
PARTIAL
PROFILES
60
PARTIAL
PROFILES
55
Anvils
3
iso
8
&
f
77
&
A
K
*
"
%
/
//
UN
d
WHITWORTH
3.5
7
NPT
Resultant
Helix
Angle
03
M
S
BSPT
&
4.5
°
3.5
°
2.5
°
1.5
0
0.5
°
0
0
-
0.5
0
-
1.5
0
Co
4
6
Co
Holder
Insert
Size
5
Ordering
Code
5
/
d
Lmm
6
4
/
STM
16
R
-
3
P
STM
16
R
-
2
P
STM
16
R
-
1
P
STM
16
R
STM
16
R
-
1
N
STM
16
R
-
1.5
N
STM
16
R
-
2
N
STM
16
R
-
3
N
/
ER
/
NL
16
9.525
3.5
Standard
Anvil
(
Supplied
With
Holder
)
EL
/
NR
STM
16
L
-
3
P
STM
16
L
-
2
P
STM
16
L
-
1
P
STM
16
L
-
1
N
STM
16
L
-
1.5
N
STM
16
L
-
2
N
STM
16
L
-
3
N
STM
16
L
8
3
/
1 0
2.5
STM
22
R
-
3
P
STM
22
R
-
2
P
STM
22
R
-
1
P
STM
22
R
-
1
N
STM
22
R
-
1.5
N
STM
22
R
-
2
N
STM
22
R
-
3
N
STM
22
R
ER
/
NL
22
12
12.7
2
EL
/
NR
STM
22
L
-
3
P
STM
22
L
-
2
P
STM
22
L
-
1
P
STM
22
L
STM
22
L
-
1
N
STM
22
L
-
1.5
N
STM
22
L
-
2
N
STM
22
L
-
3
N
16
1.5
STM
22
UR
-
1
N
STM
22
UR
-
1.5
N
STM
22
UR
-
3
P
STM
22
UR
-
2
P
STM
22
UR
-
1
P
STM
22
UR
STM
22
UR
-
2
N
STM
22
UR
-
3
N
ER
/
NL
mm
:
5
10
20
30
40
50
60
70
80
90
100 110 120
130
140
Diameter
22
12.7
EL
/
NR
STM
22
UL
-
3
P
STM
22
UL
-
2
P
STM
22
UL
-
1
P
STM
22
UL
STM
22
UL
-
1
N
STM
22
UL
-
1.5
N
STM
22
UL
-
2
N
STM
22
UL
-
3
N
Inch
:
0.25
0.50
0.75
1
1.25
1.50
2
2.50
3
Pitch
4
5
STM
27
R
-
3
P
STM
27
R
-
2
P
STM
27
R
-
1
P
STM
27
R
-
1
N
STM
27
R
-
1.5
N
STM
27
R
-
2
N
STM
27
R
-
3
N
STM
27
R
ER
/
NL
A
Most
American
Buttress
and
Sagengewinde
applications
and
anvil
change
.
Note
that
in
many
cases
,
a
negative
anvills
required
.
If
an
Anvil
change
is
required
,
use
STM
-
R
Anvils
for
EX
-
RH
toolholders
and
for
IN
-
LH
boring
bars
.
Use
STM
-
L
Anvils
for
IN
-
RH
toolholders
and
for
EX
-
LH
boring
bars
.
15.875
27
EL
/
NR
STM
27
L
-
3
P
STM
27
L
-
2
P
STM
27
L
-
1
P
STM
27
L
-
1
N
STM
27
L
-
1.5
N
STM
27
L
-
2
N
STM
27
L
-
3
N
STM
27
L
TPI
mm
ER
/
NL
STM
27
UR
-
3
P
STM
27
UR
-
2
P
STM
27
UR
-
1
P
STM
27
UR
-
1
N
STM
27
UR
-
1.5
N
STM
27
UR
-
2
N
STM
27
UR
-
3
N
STM
27
UR
1 0
2.5
27
15.875
EL
/
NR
STM
27
UL
-
3
P
STM
27
UL
-
2
P
STM
27
UL
-
1
P
STM
27
UL
-
1
N
STM
27
UL
-
1.5
N
STM
27
UL
-
2
N
STM
27
UL
-
3
N
STM
27
UL
AMERICAN
BUTTERSS
SAGENGEWINDE
(
DIN
513
)
9
Special
Holder
Required
ff
*
m
/
s
c
8
3
Co
Standard
Anvil
(
Supplied
With
Holder
)
d
3.5
9.525
12.7
15.875
d
LO
E
Insert
Size
SMT
-
R
Before
Anvil
change
c
4
(
O
Q
)
16
22
27
L
Replacing
the
standard
anvil
with
an
anvil
with
negative
angle
will
eliminate
side
rubbing
~
o
U
)
Change
to
negative
anvil
STM
-
R
3
N
or
STM
-
L
3
N
5
c
cc
o
ER
/
NL
EL
/
NR
ER
/
NL
EL
/
NR
ER
/
NL
EL
/
NR
Holder
c
X
6
0
)
CO
X
Ordering
Code
STM
16
R
STM
16
L
STM
22
L
STM
22
R
STM
27
L
STM
27
R
8
=
3.74
10
^
Standard
anvil
has
lead
angle
1.5
°
12
[
Y
1
-
5
iNegative
anvil
Correct
16
mm
:
5
10
20
30
40
50
60
70
80
90
100
1
10
120
130
140
Diameter
After
Anvil
change
Inch
:
0.25
0.50
0.75
1
1.25
1.50
2
2.50
3
4
5
285
286
A
\
Technical
Information
for
Threading
Grade
Use
Recommended
Cutting
Speed
Vc
(
m
/
min
)
TiN
coated
,
yellow
color
,
the
universal
grade
for
general
steel
,
recommended
for
rigid
cutting
condition
.
Material
Hardness
TTIP
30
P
10
-
P
25
,
K
10
-
K
20
TTIP
30
TTIM
45
TTIG
30
TTIS
30
TPK
01
Low
alloy
steel
(
alloying
elements
<
5
%
)
P
<
HB
180
100
-
180
80
-
130
60
-
140
70
-
140
High
alloy
steel
(
alloying
elements
>
5
%
)
,
cast
steel
,
and
tool
steel
HB
180
-
280
50
-
70
60
-
80
60
-
80
50
-
100
TiALN
coated
,
black
color
;
Multi
-
Layer
PVD
coated
for
stainless
steel
8
t
steel
medium
machining
Steel
TTIM
45
P
20
-
P
40
,
K
20
-
K
30
M
Stainless
steel
8
l
Cast
steel
<
HB
200
60
-
90
90
-
130
40
-
120
90
-
140
Stainless
steel
HB
160
-
260
80
-
110
100
-
130
60
-
120
90
-
120
Tensile
Strength
<
350
Mpa
HB
130
-
230
80
-
100
100
-
130
60
-
120
60
-
140
TiALN
coated
,
purple
color
,
is
a
very
high
versatility
coating
with
excellent
toughness
and
chipping
resistance
,
can
play
a
high
performance
in
a
variety
of
processing
.
Cast
iron
Nodular
(
GGG
)
K
TTIG
30
P
20
-
P
30
,
K
20
-
K
30
90
-
100
120
-
130
80
-
120
60
-
130
Grey
cast
iron
(
GG
)
Malleable
cast
iron
Cast
iron
Aluminum
alloy
Copper
and
cooper
alloy
Non
metallic
<
HB
100
50
-
350
200
-
500
200
-
400
200
-
550
N
<
HB
100
110
-
180
260
-
400
80
-
225
150
-
250
Sub
-
micro
grade
with
AITiN
multy
-
layer
coating
,
Brazen
color
,
compatible
with
all
series
of
stainless
steel
81
steel
<
HRC
50
high
&
medium
machining
Non
-
ferrous
alloy
150
-
210
100
-
200
TTIS
30
P
10
-
P
30
,
K
10
-
K
30
s
High
Temperature
.
Alloys
,
Super
Alloys
25
-
60
20
-
40
30
-
50
Heat
resistant
material
Titanium
Alloy
35
-
45
25
-
65
50
-
70
35
-
45
H
uncoated
grade
for
non
-
ferrous
,
cast
iron
and
titanium
-
alloy
materials
TPK
01
K
10
-
K
30
Hardened
steel
HRC
45
-
55
35
-
45
20
-
60
40
-
60
Hardened
material
Calculation
of
N
[
RPM
]
Recommended
cutting
speed
as
per
workpiece
>
X
<
Workpiece
vc
X
1000
=
nXDXn
n
-
Revolution
Per
Minute
[
min
-
1
]
vc
-
Cutting
Speed
[
m
/
min
]
D
-
Workpiece
Diameter
[
mm
]
n
=
VC
1000
JIX
D
TTIP
30
P
Carbon
steel
,
Alloy
steel
,
Cast
steel
vc
TTIM
45
Number
of
Passes
TTIS
30
0.50
|
0.75
|
1.00
|
1.25
|
1.50
|
1.75
|
2.00
|
2.50
|
3.00
|
3.50
|
4.00
|
4.50
|
5.00
|
5.50
|
6.00
|
8.00
M
Stainless
steel
,
Heat
resistant
steel
,
Titanium
alloy
steel
mm
Pitch
TTIM
45
48
32
24
20
16
14
12
10
8
7
6
5.5
5
4.5
4
3
tpi
TTIG
30
4
6
4
-
7
4
-
8
5
-
9
6
-
10
7
-
12
7
-
12
8
-
14
9
-
16
10
18
11
18
11
19
12
-
2
12
-
20
12
-
20
15
-
24
No
.
of
passes
SKOne
cutting
depth
is
calculated
by
total
cutting
depth
divided
into
machining
times
ex
)
16
ER
-
1.5
ISO
,
hmin
0.92
:
If
lOtimes
machining
,
one
cutting
depth
is
0.092
(
0.92
/
10
)
TTIP
30
K
Carbon
Iron
,
Aluminum
,
Cast
steel
,
Copper
TTIM
45
287
288
A
\
Thread
Insert
0
Partial
Profile
60
Partial
profile
60
(
U
Style
)
Pitch Pitch
Dimensions Dimensions
Designation
(
Right
)
Designation
(
Left
)
Designation
(
Rights
-
Left
)
Picture Picture
Type
Type
d
f
d
f
L
L
tpi
tpi
r
x
r
x
mm
mm
ER
11
-
A
60
EL
11
-
A
60
0.5
-
1.5
48
-
16
6.35
11
0.05
0.8
0.9
UEI
08
-
U
60
1.75
-
2.0
14
-
11
4.76
U
8
0.15
0.8
4.0
Internal
60
16
-
A
60
16
-
A
60
0.5
-
1.5
48
-
16
9.525
16
0.05
0.8 0.9
11
-
U
60
1.5
-
4.0
16
-
6
6.35
U
0.10
0.8
5.5
11
External
Internal
Internal
16
-
G
60
16
-
G
60
1.75
-
3.0
14
-
8
9.525
16
0.27
1.2
1.7
16
-
U
60
2.5
-
6.0
10
-
4
9.525
U
16
0.20
1.2
8.2
60
External
16
-
AG
60
16
-
AG
60
0.5
-
3.0
48
-
8
9.525
16
0.08
1.2
1.7
22
-
U
60
5.5
-
8.0
4.5
-
3.25
12.7
U
22
0.30
0.6
11.0
External
L
22
-
N
60
22
-
N
60
3.5
-
5.0
7
-
5
12.7
22
0.53
1.7
2.5
27
-
U
60
6.5
-
9.0
4
-
2.75
15.875
U
27
0.37
1.0
13.7
External
27
-
Q
60
27
-
Q
60
5.5
-
6.0
4.5
-
4
15.875
27
0.64
2.1
3.1
27
-
S
60
27
-
S
60
5.5
-
8.0
4.5
-
4
15.875
27
0.39
2.5
4.0
0.5
-
1.25
48
-
20
3.97
6
0.04
0.6 0.6
IR
06
-
A
60
IL
06
-
A
60
0.5
-
1.5
48
-
16
4.76
8
0.05
0.6
0.7
08
-
A
60 08
-
A
60
Partial
profile
60
(
V
Sytle
)
0.5
-
1.5
48
-
16
6.35
0.05
0.8 0.9
11
11
-
A
60
11
-
A
60
0.5
-
1.5
48
-
16
9.525
16
0.05
0.8 0.9
16
-
A
60
16
-
A
60
Internal
Pitch
Dimensions
Designation
(
Right
)
Designation
(
Left
)
60
Internal
Picture
Type
1.75
-
3.0
14
-
8
9.525
16
0.16
1.2
1.7
16
-
G
60
16
-
G
60
f
d
L
T
tpi
r
x
mm
0.5
-
3.0
48
-
8
9.525
16
0.05
1.2
1.7
16
-
AG
60
16
-
AG
60
External
VER
11
-
A
60
VEL
11
-
A
60
0.5
-
1.5
48
-
16
6.35
V
11
0.05
0.69
2.3
3.2
3.5
-
5.0
7
-
5
12.7
22
0.30
1.7
2.5
22
-
N
60
22
-
N
60
16
-
A
60
16
-
A
60
0.5
-
1.5
48
-
16
9.525
V
16
0.05
1.1
2.7
3.5
5.5
-
6.0
4.5
-
4
15.875
27
0.30
1.8
2.7
27
-
Q
60
27
-
Q
60
Internal
60
16
-
G
60
16
-
G
60
1.75
-
3.0
14
-
8
9.525
V
16
0.27
1.1
1.9
3.5
5.5
-
8.0
4.5
-
4
15.875
27
0.39
2.5
4.0
27
-
S
60
27
-
S
60
External
16
-
AG
60
16
-
AG
60
0.5
-
3.0
48
-
8
9.525
V
16
0.08
1.1
1.9
3.5
External
22
-
N
60
22
-
N
60
3.5
-
5.0
7
-
5
12.70
V
22
0.53
1.1
2.3
4.8
27
-
V
60
27
-
V
60
6.0
-
10.0
4
-
2.5
15.875
V
27
0.75
5.2 5.2
10.2
Partial
profile
60
(
M
Chip
Breaker
)
Pitch
Dimensions
Designation
(
Right
)
Designation
(
Left
)
Picture
Type
d
f
L
tpi
r
x
mm
Partial
profile
55
ERM
16
-
A
60
0.5
-
1.5
48
-
16
9.525
16
0.08
0.8 0.9
Internal
60
'
16
-
G
60
1.75
-
3.0
14
-
8
9.525
16
0.08
1.2
1.7
External
L
Pitch
Dimensions
0.5
-
3.0
9.525
0.25
16
-
AG
60
48
-
8
16
1.1
1.5
Designation
(
Right
)
Designation
(
Left
)
Picture
Type
External
d
f
L
tpi
22
-
N
60
3.5
-
5.0
7
-
5
12.7
22
0.51
1.7
2.5
r
X
mm
IRM
08
-
A
60
0.5
-
1.5
48
-
16
4.76
8
0.08
0.6
0.7
ER
11
-
A
55
EL
11
-
A
55
0.5
-
1.5
48
-
16
6.35
11
0.05
0.8 0.9
11
-
A
60
0.5
-
1.5
48
-
16
6.35
0.08
0.8 0.9
11
Internal
16
-
A
55
16
-
A
55
0.5
-
1.5
48
-
16
9.525
16
0.05
0.8 0.9
60
'
0.5
-
1.5
48
-
16
9.525
16
0.08
0.8 0.9
16
-
A
60
Internal
16
-
G
55
16
-
G
55
1.75
-
3.0
14
-
8
9.525
16
0.21
1.2
1.7
16
-
G
60
1.75
-
3.0
14
-
8
9.525
16
0.13
1.2
1.7
External
16
-
AG
55
16
-
AG
55
0.5
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3.0
48
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8
9.525
16
0.07
1.2
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External
16
-
AG
60
0.5
-
3.0
48
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8
9.525
16
0.25
1.1
1.5
22
-
N
55
22
-
N
55
3.5
-
5.0
7
-
5
12.7
22
0.43
1.7
2.5
3.5
-
5.0
7
-
5
12.7
22
0.30
1.7
2.5
22
-
N
60
External
27
-
Q
55
27
-
Q
55
5.5
-
6.0
4.5
-
4
15.875
27
0.60
2.0
2.9
4.5
-
4
27
-
S
55
27
-
S
55
5.5
-
8.0
15.875
27
0.77
2.5
4.0
0.5
-
1.25
48
-
20
3.97
6
0.07
0.6 0.6
IR
06
-
A
55
IL
06
-
A
55
0.5
-
1.5
48
-
16
6.35
11
0.05
0.8
0.9
11
-
A
55
11
-
A
55
0.5
-
1.5
48
-
16
9.525
16
0.05
0.8 0.9
16
-
A
55
16
-
A
55
Internal
1.75
-
3.0
14
-
8
9.525
16
0.21
1.2
1.7
16
-
G
55
16
-
G
55
55
'
Internal
0.5
-
3.0
48
-
8
9.525
16
0.07
1.2
1.7
16
-
AG
55
16
-
AG
55
3.5
-
5.0
7
-
5
12.7
22
0.43
1.7
2.5
22
-
N
55
22
-
N
55
External
5.5
-
6.0
4.5
-
4
15.875
27
0.60
2.0
2.9
27
-
Q
55
27
-
Q
55
5.5
-
8.0
4.5
-
4
15.875
27
0.77
2.5
4.0
27
-
S
55
27
-
S
55
289
290
A
\
Thread
Insert
Partial
profile
55
(
M
Chip
Breaker
)
ISO
Metric
Pitch
Pitch
Dimensions
Dimensions
Designation
(
Right
)
Designation
(
Left
)
Designation
(
Right
)
Designation
(
Left
)
Picture Picture
Type
Type
d
f
d
hmin
L
L
tpi
r
x x
f
mm
mm
ERM
16
-
A
55
0.5
-
1.5
48
-
16
9.525
16
0.08
0.8
0.9
ER
11
-
0.40
ISO
EL
11
-
0.40
ISO
0.4
6.35
11
0.25
0.7
0.4
Internal
55
'
16
-
G
55
1.75
-
3.0
14
-
8
9.525
16
0.21
1.2
1.7
11
-
0.45
ISO
11
-
0.45
ISO
0.45
6.35
0.28
0.7
0.4
11
External
16
-
AG
55
0.5
-
3.0
48
-
8
9.525
16
0.08
1.1
1.5
11
-
0.50
ISO
11
-
0.50
ISO
0.5
6.35
11
0.31
0.6
0.4
External
External
22
-
N
55
3.5
-
5.0
7
-
5
12.7
22
0.43
1.7
2.5
11
-
0.60
ISO
11
-
0.60
ISO
0.6
6.35
11
0.37
0.6 0.6
IRM
11
-
A
55
0.5
-
1.5
48
-
16
6.35
11
0.08
0.8
0.9
11
-
0.70
ISO
11
-
0.70
ISO
0.7
6.35
0.43
0.6 0.6
11
Internal
0.5
-
1.5
48
-
16
9.525
16
0.05
0.8
0.9
16
-
A
55
55
11
-
0.75
ISO
11
-
0.75
ISO
0.75
6.35
11
0.46
0.6 0.6
16
-
G
55
1.75
-
3.0
14
-
8
9.525
16
0.08
1.2
1.7
11
-
0.80
ISO
11
-
0.80
ISO
0.8
6.35
11
0.49
0.6 0.6
Internal
16
-
AG
55
0.5
-
3.0
48
-
8
9.525
16
0.08
1.1
1.5
11
-
1.00
ISO
11
-
1.00
ISO
1.0
6.35
11
0.61
0.7 0.7
External
3.5
-
5.0
7
-
5
12.7
22
0.43
1.7
2.5
22
-
N
55
11
-
1.25
ISO
11
-
1.25
ISO
1.25
6.35
0.77
0.8
0.9
11
11
-
1.50
ISO
11
-
1.50
ISO
1.5
6.35
11
0.92
0.8
1.0
11
-
1.75
ISO
11
-
1.75
ISO
1.75
6.35
1.07
0.8
11
1.1
11
-
2.00
ISO
11
-
2.00
ISO
2.0
6.35
11
1.23
0.8
1.1
16
-
0.40
ISO
16
-
0.40
ISO
0.4
9.525
16
0.25
0.7
0.4
Partial
profile
55
(
U
Style
)
16
-
0.45
ISO
16
-
0.45
ISO
0.45
9.525
16
0.28
0.7
0.4
Pitch
Dimensions
16
-
0.50
ISO
16
-
0.50
ISO
0.5
9.525
16
0.31
0.6
0.4
Designation
(
Rig
ht
+
Left
)
Picture
Type
16
-
0.60
ISO
16
-
0.60
ISO
0.6
9.525
16
0.37
0.6 0.6
d
f
L
tpi
r
x
mm
0.7
9.525
0.43
16
-
0.70
ISO
16
-
0.70
ISO
16
0.6 0.6
UEI
08
-
U
55
1.75
-
2.0
4.76
U
0.25
0.8
4.0
14
-
11
8
16
-
0.75
ISO
16
-
0.75
ISO
0.75
9.525
16
0.46
0.6 0.6
11
-
U
55
1.5
-
4.0
16
-
6
6.35
U
11
0.10
0.8
5.5
1
/
8
P
External
16
-
0.80
ISO
16
-
0.80
ISO
0.8
9.525
16
0.49
0.6 0.6
External
Internal
16
-
U
55
2.5
-
6.0
10
-
4
9.525
U
16
0.20
1.2
8.2
16
-
l
.
OOISO
16
-
l
.
OOISO
1.0
9.525
16
0.61
0.7 0.7
External
22
-
U
55
5.5
-
8.0
4.5
-
3.25
12.7
U
22
0.60
0.9
11.0
16
-
1.25
ISO
16
-
1.25
ISO
1.25
9.525
16
0.77
0.8
0.9
27
-
U
55
6.5
-
9.0
4
-
2.75
15.875
U
27
0.80
1.2
13.7
16
-
1.50
ISO
16
-
1.50
ISO
1.5
9.525
16
0.92
0.8
1.0
16
-
1.75
ISO
16
-
1.75
ISO
1.75
9.525
16
1.07
0.9
1.2
16
-
2.00
ISO
16
-
2.00
ISO
2.0
9.525
16
1.23
1.0
1.3
16
-
2.50
ISO
16
-
2.50
ISO
2.5
9.525
16
1.53
1.1
1.5
Partial
profile
55
(
V
Sytle
)
16
-
3.00
ISO
16
-
3.00
ISO
3.0
9.525
16
1.84
1.2
1.6
16
-
3.50
ISO
16
-
3.50
ISO
3.5
9.525
16
2.15
1.6
1.9
Pitch
Dimensions
Designation
(
Right
)
Designation
(
Left
)
22
-
3.50
ISO
22
-
3.50
ISO
3.5
12.70
22
2.15
1.6
2.3
Picture
Type
d
f
T
L
tpi
r
x
mm
22
-
4.00
ISO
22
-
4.00
ISO
4.0
12.70
22
2.45
1.6
2.3
22
-
4.50
ISO
22
-
4.50
ISO
4.5
12.70
22
2.78
1.7
2.4
VER
11
-
A
55
VEL
11
-
A
55
0.5
-
1.5
48
-
16
6.35
V
0.05
0.8
2.7
3.2
11
22
-
5.00
ISO
22
-
5.00
ISO
5.0
12.70
22
3.07
1.7
2.5
16
-
A
55
16
-
A
55
0.5
-
1.5
48
-
16
9.525
V
16
0.05
1.0
0.9
3.6
22
-
5.50
ISO
22
-
5.50
ISO
5.5
12.70
22
3.37
1.9
2.7
16
-
G
55
16
-
G
55
1.75
-
3.0
14
-
8
9.525
V
16
0.21
1.0
1.7
3.6
External
22
-
6.00
ISO
22
-
6.00
ISO
6.0
12.70
22
3.68
1.8
2.7
16
-
AG
55
16
-
AG
55
0.5
-
3.0
48
-
8
9.525
V
16
0.07
1.0
1.8
3.6
27
-
5.50
ISO
27
-
5.50
ISO
5.5
15.875
27
3.37
1.9
2.7
External
22
-
N
55
22
-
N
55
3.5
-
5.0
7
-
5
12.70
V
22
0.43
1.2
2.5
4.8
27
-
6.00
ISO
27
-
6.00
ISO
15.875
27
3.68
2.0
2.9
6.0
27
-
V
55
27
-
V
55
4
-
2.5
15.875
V
27
5.2
6.0
-
10.0
0.70
1.8
8.7
27
-
7.00
ISO
27
-
7.00
ISO
7.0
15.875
27
4.30
2.4
3.3
27
-
8.00
ISO
27
-
8.00
ISO
8.0
15.875
27
4.91
2.2
3.2
291
292
A
\
Thread
Insert
Partial
profile
60
(
M
Chip
Breaker
)
ISO
Metric
(
V
Style
)
Pitch
Pitch
Dimensions
Dimensions
Designation
(
Right
)
Designation
(
Left
)
Designation
(
Right
)
Designation
(
Left
)
Picture Picture
Type Type
d
hmin
f
d
hmin
f
L
L
T
x
x
mm mm
ERM
16
-
l
.
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1.0
9.525
16
0.61
0.8
0.7
VER
11
-
0.75
ISO
VEL
11
-
0.75
ISO
0.75
6.35
V
11
0.46
0.7
2.6
3.2
16
-
1.25
ISO
1.25
9.525
16
0.77
0.8
0.9
11
-
1.00
ISO
11
-
1.00
ISO
1.0
6.35
V
0.61
0.7
2.5
3.2
11
16
-
1.50
ISO
1.5
9.525
16
0.93
0.8
1.0
11
-
1.25
ISO
11
-
1.25
ISO
1.5
6.35
V
11
0.92
0.7
2.2
3.2
16
-
1.75
ISO
1.75
9.525
16
1.09
1.2 1.2
11
-
1.50
ISO
11
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1.50
ISO
1.75
6.35
V
11
1.07
0.7
2.1
3.2
16
-
2.00
ISO
2.0
9.525
16
1.25
1.2
1.3
11
-
1.75
ISO
11
-
1.75
ISO
2.0
6.35
V
11
1.23
0.7
1.9
3.2
V
4
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internal
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60
16
-
2.50
ISO
2.5
9.525
16
1.55
1.2
1.5
11
-
2.00
ISO
11
-
2.00
ISO
0.35
6.35
V
16
0.20
1.1
3.25
3.6
External
16
-
3.00
ISO
3.0
9.525
16
1.87
1.2
1.5
16
-
0.40
ISO
16
-
0.40
ISO
0.4
9.525
V
16
0.25
1.1
3.2
3.6
22
-
3.50
ISO
3.5
12.7
22
2.15
1.6
2.3
16
-
0.45
ISO
16
-
0.45
ISO
0.5
9.525
V
16
0.31
1.1
3.0
3.6
External
22
-
4.00
ISO
4.0
12.7
22
2.45
1.6
2.3
16
-
0.75
ISO
16
-
0.75
ISO
0.75
9.525
V
16
0.46
3.0
3.6
1.1
V
4
P
internal
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-
External
22
-
4.50
ISO
4.5
12.7
22
2.78
1.7
2.4
16
-
0.80
ISO
16
-
0.80
ISO
0.8
9.525
V
16
0.49
3.0
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1.1
22
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5.0
12.7
22
3.07
1.7
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16
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l
.
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1.0
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V
16
0.61
1.1
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1
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8
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External
22
-
5.50
ISO
5.5
12.7
22
3.37
1.9
2.7
16
-
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ISO
16
-
1.25
ISO
1.25
9.525
V
16
0.77
1.1
2.7
3.6
22
-
6.00
ISO
6.0
12.7
22
3.68
1.9
2.7
16
-
1.50
ISO
16
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1.50
ISO
1.5
9.525
V
16
0.92
1.1
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3.6
16
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1.75
ISO
16
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16
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3.6
16
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ISO
16
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2.00
ISO
2.0
9.525
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16
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1.1
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3.6
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16
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9.525
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16
1.53
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Metric
(
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Style
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16
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16
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3.00
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3.0
9.525
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3.6
16
1.84
1.1
27
-
5.50
ISO
27
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5.50
ISO
5.5
15.875
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27
3.37
1.0
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6.35
Pitch
Dimensions
27
-
6.00
ISO
27
-
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ISO
6.0
15.875
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27
3.68
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6.35
Designation
(
Rig
ht
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Left
)
Picture
Type
hmin
f
d
L
27
-
8.00
ISO
27
-
8.00
ISO
8.0
15.875
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27
4.91
1.8
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8.70
X
mm
27
-
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27
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10.0
15.875
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27
6.13
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5.2
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22
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5.00
ISO
5.0
4.76
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22
3.07
2.2
11.0
22
-
5.50
ISO
5.5
6.35
U
22
3.37
2.2
11.0
External
22
-
6.00
ISO
6.0
12.70
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22
3.68
2.2
11.0
27
-
8.00
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8.0
15.875
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27
4.91
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13.7
ISO
Metric
(
M
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)
Internal
33
-
12.00
ISO
12.0
19.05
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33
7.36
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16.5
60
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08
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4.76
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1.15
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External
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Designation
(
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Designation
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22
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12.7
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22
2.89
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Picture
Tooth
Type
d
hmin
f
L
d
X
22
-
5.50
ISO
5.5
12.7
U
22
3.17
2.4
11.0
mm
Internal
22
-
6.00
ISO
6.0
12.7
U
22
3.46
2.1
11.0
ER
16
-
l
.
OOISO
3
M
1.0
9.525
16
0.61
1.8
2.6
3
27
-
8.00
ISO
8.0
15.875
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27
4.26
2.4
13.7
16
-
1.50
ISO
2
M
1.5
9.525
16
0.92
1.6
2.4
2
33
-
12.00
ISO
12.0
19.05
U
33
7.36
3.5
16.9
16
-
2.00
ISO
2
M
2.0
9.525
16
1.23
2.1
3.1
2
22
-
1.50
ISO
3
M
1.5
12.7
22
0.92
2.5
3.8
3
External
L
3.1
22
-
2.00
ISO
2
M
2.0
12.7
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3
H
TD
n
c
3
r
TOOL
DRILL
GROOVE
LINE
THREAD
LINE
A
\
Thread
Insert
American
UN
(
UN
,
UNC
,
UNF
,
UNEF
,
UNS
)
(
M
Chip
Breaker
)
American
UN
(
M
+
Style
)
Pitch Pitch
Dimensions Dimensions
Designation
(
Right
)
Designation
(
Left
)
Designation
(
Right
)
Designation
(
Left
)
Picture
Picture
Type Type
d
hmin
f
d
hmin
f
Tooth
L
L
tpi
tpi
x
x
IRM
11
-
20
UN
20
6.35
11
0.73
0.8
0.9
IR
16
-
24
UN
2
M
24
9.525
16
0.61
1.1
1.7
2
11
-
18
UN
18
6.35
0.81
0.8
1.0
16
-
20
UN
3
M
20
9.525
16
0.73
1.4
2.0
3
11
16
-
24
UN
24
9.525
16
0.61
0.8 0.8
16
-
18
UN
2
M
18
9.525
16
0.81
1.5
2.2
2
-
x
16
-
20
UN
20
9.525
16
0.73
0.8
0.9
16
-
16
UN
2
M
16
9.525
16
0.92
1.7
2.5
2
V
4
P
Internal
60
;
16
-
18
UN
18
9.525
16
0.81
0.8
1.0
16
-
14
UN
2
M
14
9.525
16
1.05
1.9
2.8
2
Internal
Internal
16
-
16
UN
16
9.525
16
0.92
0.9
1.1
16
-
12
UN
2
M
12
9.525
16
1.22
2.2
3.3
2
P
External
16
-
14
UN
14
9.525
16
1.05
1.2
1.5
22
-
16
UN
3
M
16
12.7
22
0.92
2.6
4.1
3
1
$
P
External
16
-
12
UN
12
9.525
16
1.22
1.2
1.5
22
-
14
UN
2
M
14
12.7
22
1.05
1.9
2.8
2
16
-
10
UN
10
9.525
16
1.47
1.2
1.5
22
-
12
UN
2
M
12
12.7
22
1.22
2.2
3.3
2
16
-
8
UN
8
9.525
16
1.83
1.3
1.7
22
-
12
UN
3
M
12
12.7
22
1.22
3.4
5.4
3
27
-
8
UN
2
M
8
15.875
27
1.83
3.1
4.9
2
American
UN
(
U
Style
)
Pitch
Dimensions
Designation
(
Rig
ht
+
Left
)
Picture
Type
d
hmin
f
L
x
mm
UI
08
-
13
UN
13
4.76
U
8
1.20
1.0
4.0
08
-
12
UN
12
4.76
U
8
1.30
0.9
4.0
f
08
-
11
UN
4.76
U
8
1.42
0.9
4.0
11
X
11
-
11
UN
11
6.35
U
11
1.33
1.2
5.5
Internal
L
22
-
4.5
UN
4.5
12.7
U
22
3.26
2.4
11.0
1
/
8
P
External
22
-
4
UN
4
12.7
U
22
3.57
2.4
11.0
d
27
-
3
UN
3
15.875
U
27
4.89
2.7
13.7
33
-
2
UN
2
19.05
U
33
7.79
3.6
16.9
American
UN
(
V
Style
)
Pitch
Dimensions
Designation
(
Right
)
Designation
(
Left
)
Picture
Type
d
hmin
f
L
T
tpi
x
V
4
P
Internal
VIR
27
-
4
UN
VIL
27
-
4
UN
4
15.875
V
27
3.67
1.0
3.3
6.35
60
Internal
27
-
3
UN
3
5.2
27
-
3
UN
15.875
V
27
4.89
1.8
8.70
1
/
®
P
External
1
301
302
A
\
Thread
Insert
4
'
Whitworth
(
BSW
,
BSF
,
BSP
,
BSB
)
Whitworth
(
BSW
,
BSF
,
BSP
,
BSB
)
(
M
Chip
Breaker
)
Pitch Pitch
Dimensions
Dimensions
Designation
(
Right
)
Designation
(
Left
)
Designation
(
Right
)
Designation
(
Left
)
Picture
Picture
Type
Type
d
hmin
f
d
hmin
f
L
L
tpi tpi
x
x
ER
11
-
60
W
EL
11
-
60
W
60
6.35
0.27
0.7
0.4
ERM
16
-
19
W
19
9.525
16
0.86
0.8
1.0
11
11
-
56
W
11
-
56
W
56
6.35
0.29
0.7
0.4
11
16
-
18
W
18
9.525
16
0.90
0.8
1.0
R
0.137
P
Internal
11
-
48
W
11
-
48
W
48
6.35
11
0.34
0.6 0.6
55
16
-
16
W
16
9.525
16
1.02
0.9
1.1
11
-
40
W
11
-
40
W
40
6.35
11
0.41
0.6
0.6
External
16
-
14
W
14
9.525
16
1.16
1.2
1.5
L
h
11
-
36
W
11
-
36
W
36
6.35
11
0.45
0.6 0.6
v
R
0.1
37
P
16
-
12
W
12
9.525
16
1.36
1.2
1.5
External
11
-
32
W
11
-
32
W
32
6.35
11
0.51
0.6 0.6
16
-
11
W
11
9.525
16
1.48
1.2
1.5
11
-
28
W
11
-
28
W
28
6.35
11
0.58
0.6
0.7
16
-
10
W
10
9.525
16
1.63
1.1
1.5
11
-
26
W
11
-
26
W
26
6.35
11
0.63
0.7
0.8
11
-
24
W
11
-
24
W
24
6.35
0.7
11
0.68
0.8
11
-
22
W
22
6.35
0.74
0.8 0.9
11
-
22
W
11
11
-
20
W
11
-
20
W
20
6.35
0.81
0.8 0.9
11
Whitworth
(
U
Style
)
11
-
19
W
11
-
19
W
19
6.35
0.86
0.8
1.0
11
11
-
18
W
11
-
18
W
18
6.35
0.90
0.8
1.0
11
Pitch
Dimensions
11
-
16
W
11
-
16
W
16
6.35
11
1.02
0.9
1.1
Designation
(
Right
-
*
-
Left
)
Picture
Type
11
-
14
W
11
-
14
W
14
6.35
11
1.16
1.0
1.2
d
hmin
f
L
tpi
x
16
-
60
W
16
-
60
W
60
9.525
16
0.27
0.7
0.4
16
-
56
W
16
-
56
W
56
9.525
16
0.29
0.7
0.4
UEI
22
-
4.5
W
4.5
12.7
U
22
3.61
2.3
11.0
16
-
48
W
16
-
48
W
48
9.525
16
0.34
0.6 0.6
R
0.137
P
Internal
22
-
4
W
4
12.7
U
22
4.07
1.8
11.0
55
16
-
40
W
16
-
40
W
40
9.525
16
0.41
0.6 0.6
External
h
22
-
3.5
W
3.5
12.7
U
22
4.65
2.1
11.0
R
0.137
P
Internal
i
16
-
36
W
16
-
36
W
36
9.525
16
0.45
0.6 0.6
53
'
External
Internal
22
-
3.25
W
3.25
12.7
U
22
5.00
2.0
11.0
External
16
-
32
W
16
-
32
W
32
9.525
16
0.51
0.6 0.6
5
»
27
-
3.5
W
3.5
15.875
U
22
4.65
2.1
13.7
16
-
30
W
16
-
30
W
30
9.525
16
0.55
0.6
0.7
External
27
-
3.25
W
3.25
15.875
U
22
5.00
2.0
13.7
16
-
28
W
16
-
28
W
28
9.525
16
0.58
0.6
0.7
16
-
26
W
16
-
26
W
26
9.525
16
0.63
0.7
0.8
27
-
3
W
3
15.875
U
22
5.42
2.3
13.7
16
-
24
W
16
-
24
W
24
9.525
16
0.68
0.7
0.8
27
-
2.75
W
2.75
15.875
U
22
5.94
2.4
13.7
16
-
22
W
16
-
22
W
22
9.525
16
0.74
0.8 0.9
16
-
20
W
16
-
20
W
20
9.525
16
0.81
0.8 0.9
16
-
19
W
16
-
19
W
19
9.525
16
0.86
0.8
1.0
Whitworth
(
V
Style
)
16
-
18
W
16
-
18
W
18
9.525
16
0.90
0.8
1.0
16
-
16
W
16
-
16
W
16
9.525
16
1.02
0.9
1.1
Pitch
Dimensions
16
-
14
W
16
-
14
W
14
9.525
16
1.16
1.0
1.2
Designation
(
Right
)
Designation
(
Left
)
Picture
Type
16
-
12
W
16
-
12
W
12
9.525
16
1.36
1.1
1.4
d
hmin
f
L
T
tpi
x
16
-
11
W
16
-
11
W
11
9.525
16
1.48
1.1
1.5
16
-
10
W
16
-
10
W
10
9.525
16
1.63
1.1
1.5
VER
11
-
19
W
VEL
11
-
19
W
19
6.35
V
11
0.86
0.69
2.3
3.20
16
-
9
W
16
-
9
W
9
9.525
16
1.81
1.2
1.7
11
-
14
W
11
-
14
W
14
6.35
V
1.16
0.69
2.0
3.20
11
16
-
8
W
16
-
8
W
8
9.525
16
2.03
1.2
1.5
11
-
11
W
11
-
11
W
11
6.35
V
1.48
0.69
1.7
3.20
11
22
-
7
W
22
-
7
W
7
12.7
22
3.32
1.6
2.3
16
-
20
W
16
-
20
W
20
9.525
V
16
0.81
1.0
0.9
3.60
22
-
6
W
22
-
6
W
6
12.7
22
2.71
1.6
2.3
16
-
19
W
16
-
19
W
19
9.525
V
16
0.86
1.1
2.7
3.60
R
0.137
P
Internal
External
22
-
5
W
22
-
5
W
5
12.7
22
3.25
1.7
2.4
55
'
16
-
18
W
16
-
18
W
18
9.525
V
16
0.90
1.31
2.6
3.60
27
-
4.5
W
27
-
4.5
W
4.5
15.875
27
3.61
1.8
2.6
i
h
16
-
16
W
16
-
16
W
16
9.525
V
16
1.02
1.1
2.6
3.60
27
-
4
W
27
-
4
W
4
15.875
27
4.07
2.0
2.9
*
RO
.
137
P
External
16
-
14
W
16
-
14
W
9.525
V
16
1.16
2.4
3.60
14
1.1
16
-
12
W
16
-
12
W
12
9.525
V
16
1.36
2.2
3.60
1.1
16
-
11
W
16
-
11
W
9.525
V
16
1.48
2.1
3.60
11
1.1
27
-
4
W
27
-
4
W
4
15.875
V
27
4.07
1.0
3.3
6.35
27
-
3
W
27
-
3
W
3
15.875
V
27
5.42
1.0
4.3
8.70
27
-
2.5
W
27
-
2.5
W
2.5
15.875
V
27
6.51
1.0
5.2
10.2
303
304
A
\
Thread
Insert
0
Whitworth
(
BSW
,
BSF
,
BSP
,
BSB
)
Whitworth
(
M
+
Style
)
Pitch
Dimensions
Designation
(
Right
)
Designation
(
Left
)
Pitch
Dimensions
Picture
Type
Designation
(
Right
)
Designation
(
Left
)
Picture
Type
d
hmin
f
L
tP
1
X
d
hmin
f
Tooth
L
tpi
x
IR
06
-
26
W
IL
06
-
26
W
26
3.97
6
0.63
0.7
0.6
ER
16
-
28
W
2
M
28
9.525
16
0.58
1.2
1.6
2
06
-
22
W
06
-
22
W
22
3.97
6
0.74
0.6
0.6
16
-
19
W
2
M
19
9.525
16
0.86
1.6
2.3
2
06
-
20
W
06
-
20
W
20
3.97
6
0.81
0.6
0.7
R
0.137
P
Internal
55
'
16
-
19
W
3
M
19
9.525
16
0.86
2.2
3.4
3
06
-
18
W
06
-
18
W
18
3.97
6
0.90
0.6
0.7
External
4
16
-
14
W
2
M
14
9.525
16
1.16
2.0
3.0
2
08
-
28
W
08
-
28
W
28
4.76
8
0.58
0.6
0.6
h
08
-
24
W
08
-
24
W
24
4.76
8
0.68
0.6
0.6
16
-
11
W
2
M
11
9.525
16
1.48
2.1
3.2
2
External
08
-
20
W
08
-
20
W
20
4.76
8
0.81
0.6
0.7
22
-
14
W
2
M
14
12.7
22
1.16
2.9
4.6
2
08
-
19
W
08
-
19
W
19
4.76
8
0.86
0.6
0.7
22
-
11
W
2
M
11
12.7
22
1.48
2.3
3.5
2
0.6
08
-
18
W
08
-
18
W
18
4.76
8
0.90
0.7
08
-
16
W
08
-
16
W
16
4.76
8
1.02
0.6
0.7
60
6.35
0.27
0.7
0.4
11
-
60
W
11
-
60
W
11
11
-
56
W
11
-
56
W
56
6.35
0.29
0.7
0.4
11
11
-
48
W
11
-
48
W
48
6.35
0.34
0.6
0.6
11
11
-
40
W
11
-
40
W
40
6.35
0.41
0.6
0.6
11
11
-
36
W
11
-
36
W
36
6.35
0.45
0.6
0.6
11
11
-
32
W
11
-
32
W
32
6.35
11
0.51
0.6
0.6
11
-
28
W
11
-
28
W
28
6.35
11
0.58
0.6
0.7
11
-
26
W
11
-
26
W
26
6.35
11
0.63
0.7
0.8
11
-
24
W
11
-
24
W
24
6.35
11
0.68
0.7
0.8
11
-
22
W
11
-
22
W
22
6.35
11
0.74
0.8
0.9
11
-
20
W
11
-
20
W
20
6.35
11
0.81
0.8
0.9
11
-
19
W
11
-
19
W
19
6.35
11
0.86
0.8
1.0
11
-
18
W
11
-
18
W
18
6.35
11
0.90
0.8
1.0
R
0.137
P
Internal
55
;
11
-
16
W
11
-
16
W
16
6.35
11
1.02
0.9
1.1
h
11
-
14
W
11
-
14
W
14
6.35
11
1.16
1.0
1.2
'
R
0.137
P
External
11
-
12
W
11
-
12
W
60
9.525
16
0.27
0.7
0.4
Internal
11
-
11
W
11
-
11
W
56
0.29
0.7
9.525
16
0.4
16
-
60
W
16
-
60
W
48
9.525
16
0.34
0.6
0.6
16
-
56
W
16
-
56
W
40
9.525
16
0.41
0.6
0.6
16
-
48
W
16
-
48
W
36
9.525
16
0.45
0.6
0.6
16
-
40
W
16
-
40
W
32
9.525
16
0.51
0.6
0.6
16
-
36
W
16
-
36
W
30
9.525
16
0.55
0.6
0.7
16
-
32
W
16
-
32
W
28
9.525
16
0.58
0.6
0.7
16
-
28
W
16
-
28
W
26
9.525
16
0.63
0.7
0.8
16
-
24
W
16
-
24
W
24
9.525
16
0.68
0.7
0.8
16
-
22
W
16
-
22
W
22
9.525
16
0.74
0.8
0.9
16
-
20
W
16
-
20
W
20
9.525
16
0.81
0.8
0.9
16
-
19
W
16
-
19
W
19
9.525
16
0.86
0.8
1.0
16
-
18
W
16
-
18
W
18
9.525
16
0.90
0.8
1.0
16
-
16
W
16
-
16
W
16
9.525
16
1.02
0.9
1.1
9.525
16
-
14
W
16
-
14
W
14
16
1.16
1.0
1.2
16
-
12
W
16
-
12
W
12
9.525
1.36
16
1.1
1.4
16
-
11
W
16
-
11
W
9.525
16
1.48
1.5
11
1.1
16
-
10
W
16
-
10
W
10
9.525
16
1.63
1.5
1.1
16
-
9
W
16
-
9
W
9
9.525
16
1.81
1.2
1.7
16
-
8
W
16
-
8
W
8
9.525
16
2.03
1.2
1.5
22
-
7
W
22
-
7
W
7
12.7
22
3.32
1.6
2.3
22
-
6
W
22
-
6
W
6
12.7
22
2.71
1.6
2.3
22
-
5
W
22
-
5
W
5
12.7
22
3.25
1.7
2.4
27
-
4.5
W
27
-
4.5
W
4.5
15.875
27
3.61
1.8
2.6
27
-
4
W
15.875
27
2.9
27
-
4
W
4
4.07
2.0
305
306
A
\
Thread
Insert
Whitworth
(
M
Chip
Breaker
)
British
Standard
Pipe
Thread
(
BSPT
)
Pitch Pitch
Dimensions Dimensions
Designation
(
Right
)
Designation
(
Left
)
Designation
(
Right
)
Designation
(
Left
)
Picture
Picture
Type Type
d
hmin
f
d
hmin
f
L L
tpi
tpi
x x
IRM
11
-
19
W
19
6.35
11
0.86
0.9
1.1
ER
11
-
28
BSPT
EL
11
-
28
BSPT
28
6.35
11
0.58
0.6
0.6
11
-
19
BSPT
11
-
19
BSPT
19
6.35
11
0.86
0.8
0.9
11
-
14
W
14
6.35
11
1.16
0.9
1.1
11
-
14
BSPT
11
-
14
BSPT
14
6.35
11
1.16
0.9
1.0
16
-
19
W
19
9.525
16
0.86
0.8
1.0
R
0.137
P
Internal
16
-
28
BSPT
16
-
28
BSPT
28
9.525
16
0.58
0.6
0.6
16
-
18
W
18
9.525
16
0.90
0.8
1.0
External
55
'
L
Internal
16
-
19
BSPT
16
-
19
BSPT
19
9.525
16
0.86
0.8
0.9
16
-
16
W
16
9.525
16
1.02
0.9
1.1
h
16
-
14
BSPT
16
-
14
BSPT
14
9.525
16
1.16
1.0
1.2
16
-
14
W
14
9.525
16
1.16
1.2
1.5
External
16
-
11
BSPT
16
-
11
BSPT
11
9.525
16
1.48
1.1
1.5
16
-
12
W
12
9.525
16
1.36
1.2
1.5
IR
06
-
28
BSPT
IL
06
-
28
BSPT
28
3.97
6
0.58
0.7
0.6
16
-
11
W
11
9.525
16
1.48
1.2
1.5
08
-
28
BSPT
08
-
28
BSPT
28
4.76
8
0.58
0.6
0.6
16
-
8
W
8
9.525
16
2.03
1.2
1.5
08
-
19
BSPT
08
-
19
BSPT
19
4.76
8
0.58
0.6
0.6
11
-
28
BSPT
11
-
28
BSPT
28
6.35
0.58
0.6
0.6
11
RQ
.
137
P
Internal
11
-
19
BSPT
11
-
19
BSPT
19
6.35
0.86
0.8
0.9
11
Internal
L
Whitworth
(
U
Style
)
11
-
14
BSPT
11
-
14
BSPT
14
6.35
1.16
0.9
1.0
11
Externa
16
-
28
BSPT
16
-
28
BSPT
29
9.525
16
0.58
0.6
0.6
Pitch
Dimensions
Designation
(
Right
-
*
-
Left
)
16
-
19
BSPT
16
-
19
BSPT
19
9.525
16
0.86
0.8
0.9
Picture
Type
d
hmin
f
L
tpi
x
16
-
14
BSPT
16
-
14
BSPT
14
9.525
16
1.16
1.0
1.2
9.525
16
-
11
BSPT
16
-
11
BSPT
11
16
1.48
1.1
1.5
4.76
U
1.0
4.0
UI
08
-
14
W
14
8
1.16
R
0.137
P
Internal
bb
08
-
12
W
12
4.76
U
8
1.36
0.9
4.0
*
Internal
h
08
-
11
W
11
4.76
U
8
1.48
0.9
4.0
External
British
Standard
Pipe
Thread
(
BSPT
)
(
M
Chip
Breaker
)
Pitch
Dimensions
Designation
(
Right
)
Designation
(
Left
)
Picture
Type
Whitworth
(
V
Style
)
d
hmin
f
L
tpi
x
ERM
16
-
28
BSPT
28
9.525
16
0.58
0.7
0.8
R
0.137
P
Internal
Pitch
Dimensions
Designation
(
Right
)
Designation
(
Left
)
bb
Picture
Type
16
-
19
BSPT
19
9.525
16
0.86
0.8
1.0
d
hmin
f
L
T
tpi
»
x
External
L
-
i
16
-
14
BSPT
9.525
16
1.16
1.2
1.5
14
»
VIR
27
-
4
W
VIL
27
-
4
W
15.875
V
27
4.07
1.0
3.3
6.35
4
R
0.137
P
Internal
16
-
11
BSPT
11
9.525
16
1.48
1.2
1.5
55
Internal
27
-
3
W
27
-
3
W
3
15.875
V
27
5.42
1.0
4.3
8.70
IRM
11
-
19
BSPT
19
6.35
11
0.86
0.8
1.0
*
h
27
-
2.5
W
27
-
2.5
W
2.5
15.875
V
27
6.51
1.0
5.2
10.2
\
R
0.137
P
11
-
14
BSPT
14
6.35
11
1.16
0.9
1.1
R
0.137
P
Internal
External
55
16
-
28
BSPT
28
9.525
16
0.58
0.7
0.8
Internal
h
16
-
19
BSPT
19
9.525
16
0.86
0.8
1.0
*
External
16
-
14
BSPT
14
9.525
16
1.16
1.2
1.5
Whitworth
(
M
+
Style
)
16
-
11
BSPT
11
9.525
16
1.48
1.2
1.5
Pitch
Dimensions
Designation
(
Right
)
Designation
(
Left
)
Picture
Type
d
hmin
f
Tooth
L
x
mm
IR
16
-
14
W
2
M
14
9.525
16
1.16
2.0
3.0
2
R
0.137
P
Internal
55
16
-
11
W
2
M
9.525
16
1.48
2.1
3.2
2
11
*
Internal
h
22
-
14
W
3
M
11
12.7
22
1.16
2.8
4.5
3
R
0.137
P
External
22
-
11
W
2
M
11
12.7
22
1.48
2.3
3.5
2
307
308
A
\
Thread
Insert
#
National
Pipe
Thread
(
V
Style
)
National
Pipe
Thread
(
NPT
)
Pitch
Dimensions
Designation
(
Right
)
Designation
(
Left
)
Picture
Type
Pitch
Dimensions
Designation
(
Right
)
Designation
(
Left
)
d
hmin
f
L
T
tpi
x
Picture
Type
d
hmin
f
L
tpi
x
VER
11
-
27
NPT
VEL
11
-
27
NPT
27
6.35
V
0.66
0.7
2.0
3.2
11
ER
11
-
27
NPT
EL
11
-
27
NPT
27
6.35
11
0.66
0.7
0.8
11
-
18
NPT
11
-
18
NPT
18
6.35
V
1.01
0.7
1.8
3.2
11
11
-
18
NPT
11
-
18
NPT
18
6.35
11
1.01
0.8
1.0
Internal
11
-
14
NPT
11
-
14
NPT
14
6.35
V
11
1.33
0.7
1.8
3.2
11
-
14
NPT
11
-
14
NPT
14
6.35
11
1.33
0.8
1.0
External
11
-
11.5
NPT
11
-
11.5
NPT
11.5
6.35
V
11
1.64
0.7
2.1
3.2
Internal
.
16
-
27
NPT
16
-
27
NPT
27
9.525
16
0.66
0.7
0.8
16
-
27
NPT
16
-
27
NPT
27
9.525
V
16
0.66
1.10
2.9
3.6
External
L
External
16
-
18
NPT
16
-
18
NPT
18
9.525
16
1.01
0.8
1.0
16
-
18
NPT
16
-
18
NPT
18
9.525
V
16
1.01
1.10
2.6
3.6
*
External
16
-
14
NPT
16
-
14
NPT
14
9.525
16
1.33
0.9
1.2
16
-
14
NPT
16
-
14
NPT
14
9.525
V
16
1.33
1.00
1.2
3.6
16
-
11.5
NPT
16
-
11.5
NPT
11.5
9.525
16
1.64
1.1
1.5
16
-
11.5
NPT
16
-
11.5
NPT
11.5
9.525
V
16
1.64
1.10
2.1
3.6
16
-
8
NPT
16
-
8
NPT
8
9.525
16
2.42
1.3
1.8
IR
06
-
27
NPT
IL
06
-
27
NPT
27
3.97
6
0.66
0.6 0.6
National
Pipe
Thread
(
M
+
Style
)
08
-
27
NPT
08
-
27
NPT
27
4.76
8
0.66
0.6 0.6
08
-
18
NPT
08
-
18
NPT
18
4.76
8
1.01
0.6 0.6
Pitch
Dimensions
Designation
(
Right
)
Designation
(
Left
)
11
-
27
NPT
11
-
27
NPT
27
6.35
0.66
0.7
0.8
11
Picture
Type
Internal
.
hmin
f
d
Tooth
L
tpi
x
11
-
18
NPT
11
-
18
NPT
18
6.35
11
1.01
0.8
1.0
h
Internal
11
-
14
NPT
11
-
14
NPT
14
6.35
11
1.33
0.8
1.0
ER
16
-
18
NPT
2
M
18
9.525
16
1.01
1.4
2.1
2
V
47
f
External
16
-
27
NPT
16
-
27
NPT
27
9.525
16
0.66
0.7
0.8
Internal
16
-
11.5
NPT
2
M
11.5
9.525
16
1.64
2.0
3.2
2
x
16
-
18
NPT
16
-
18
NPT
18
9.525
16
1.01
0.8
1.0
External
16
-
14
NPT
2
M
14
9.525
16
1.33
2.0
3.0
2
L
9.525
1.33
16
-
14
NPT
16
-
14
NPT
14
16
0.9
1.2
22
-
11.5
NPT
2
M
12.7
22
2.2
3.4
2
11.5
1.64
External
»
16
-
11.5
NPT
16
-
11.5
NPT
11.5
9.525
1.5
16
1.64
1.1
27
-
11.5
NPT
3
M
11.5
15.875
27
1.64
3.5
5.6
3
16
-
8
NPT
16
-
8
NPT
8
9.525
16
2.42
1.3
1.8
IR
27
-
8
NPT
2
M
8
15.875
27
2.42
3.1
4.9
2
16
-
18
NPT
2
M
18
9.525
16
1.01
1.4
2.1
2
LU
16
-
11.5
NPT
2
M
11.5
9.525
16
1.64
2.0
3.2
2
Z
Internal
=
i
16
-
14
NPT
2
M
14
9.525
16
1.33
2.0
3.0
2
d
National
Pipe
Thread
(
NPT
)
(
M
Chip
Breaker
)
2
22
-
11.5
NPT
2
M
11.5
12.7
22
1.64
2.2
3.4
2
External
Pitch
Dimensions
27
-
11.5
NPT
3
M
11.5
15.875
27
1.64
3.5
5.6
3
Designation
(
Right
)
Designation
(
Left
)
Picture
Type
27
-
8
NPT
2
M
8
15.875
27
2.42
3.1
4.9
2
d
hmin
f
L
tpi
x
LU
z
ERM
16
-
27
NPT
27
9.525
16
0.66
0.7
0.8
=
i
R
0.137
P
Internal
Round
DIN
405
zl
bb
16
-
18
NPT
18
9.525
16
1.01
0.8
1.0
cr
*
External
16
-
14
NPT
14
9.525
16
1.33
1.2
1.5
O
L
h
»
Pitch
Dimensions
R
0.137
P
Designation
(
Right
)
Designation
(
Left
)
16
-
11.5
NPT
11.5
9.525
16
1.64
1.2
1.5
Picture
Type
External
hmin
f
d
L
tpi
x
16
-
8
NPT
8
9.525
16
2.42
1.3
1.5
IRM
11
-
18
NPT
18
6.35
11
1.01
0.8
1.0
ER
16
-
10
RD
EL
16
-
10
RD
10
9.525
16
1.27
1.1
1.2
LU
Z
16
-
27
NPT
27
9.525
16
0.66
0.7
0.8
R
0.22104
P
Internal
R
0.137
P
Internal
16
-
8
RD
16
-
8
RD
8
9.525
16
1.59
1.4
1.3
55
16
-
18
NPT
18
9.525
16
1.01
0.8
1.0
O
Internal
16
-
6
RD
16
-
6
RD
6
9.525
16
2.12
1.5
1.7
O
L
h
External
9.525
1.33
1.2
1.5
16
-
14
NPT
14
16
22
-
6
RD
22
-
6
RD
12.7
22
2.12
6
1.5
1.7
R
0.137
P
External
External
16
-
11.5
NPT
11.5
9.525
1.2
1.5
16
1.64
22
-
4
RD
22
-
4
RD
12.7
22
3.18
2.2
2.3
4
16
-
8
NPT
8
9.525
16
2.42
1.3
1.5
27
-
4
RD
27
-
4
RD
4
15.785
27
3.18
2.2
2.3
IR
16
-
10
RD
IL
16
-
10
RD
10
9.525
16
1.27
1.1
1.2
16
-
8
RD
16
-
8
RD
8
9.525
16
1.59
1.4
1.3
R
0.22101
P
Internal
16
-
6
RD
16
-
6
RD
6
9.525
16
2.12
1.5
1.7
Internal
22
-
6
RD
22
-
6
RD
6
12.7
22
2.12
1.5
1.7
R
0.22104
P
External
22
-
4
RD
22
-
4
RD
4
12.7
22
3.18
2.2
2.3
27
-
4
RD
27
-
4
RD
4
15.785
27
3.18
2.2
2.3
309
310
A
\
Thread
Insert
Round
DIN
20400
Trapez
DIN
103
(
TR
)
Pitch Pitch
Dimensions
Dimensions
Designation
(
Right
)
Designation
(
Left
)
Designation
(
Right
+
Left
)
Picture
Picture
Type
Type
d
hmin
f
d
hmin
f
L
L
x x
mm
mm
ER
22
-
3.0
RD
20400
EL
22
-
3.0
RD
20400
3.0
22
1.3
1.7
UE
22
-
6.0
TR
22
3.5
2.0
12.7
1.65
x
6.0
12.7
U
11.0
Ro
.
22
iay
>
Internal
22
-
4.0
RD
20400
22
-
4.0
RD
20400
4.0
12.7
22
2.20
2.2
22
-
7.0
TR
7.0
12.7
U
22
4.0
2.3
1.6
11.0
-
:
o
External
Mk
ffnlgr
V
/
R
0238511
V
L
Internal
22
-
5.0
RD
20400
22
-
5.0
RD
20400
5.0
12.7
22
2.75
1.7
22
-
8.0
TR
8.0
12.7
U
22
4.5
2.6
11.0
1.4
30
'
*
vrw
\
External
ML
22104
P
External
22
-
6.0
RD
20400
22
-
6.0
RD
20400
6.0
12.7
22
3.30
1.7
2.1
27
-
8.0
TR
8.0
12.7
U
22
4.5
2.6
13.7
a
IR
22
-
3.0
RD
20400
IL
22
-
3.0
RD
20400
3.0
12.7
22
1.65
1.3
1.7
27
-
9.0
TR
9.0
15.875
U
27
5.0
3.0
13.7
External
R
0.221
(
XP
Internal
M
-
d
22
-
4.0
RD
20400
22
-
4.0
RD
20400
4.0
12.7
22
2.20
1.6
2.2
27
-
10.0
TR
10.0
15.875
U
27
5.50
3.20
13.7
30
'
Internal
22
-
5.0
RD
20400
22
-
5.0
RD
20400
5.0
12.7
22
2.75
1.4
1.7
33
-
12.0
TR
12.0
19.05
U
33
6.50
3.90
16.9
22
-
6.0
RD
20400
22
-
6.0
RD
20400
6.0
12.7
22
3.30
1.7
2.1
UI
08
-
2.0
TR
2.0
4.76
U
8
1.25
0.9
4.0
K
0.221
CWP
External
16
-
4.0
TR
4.0
9.525
U
16
2.25
2.10
8.0
16
-
5.0
TR
5.0
9.525
U
16
2.76
1.56
8.0
Round
DIN
20400
(
U
Style
)
22
-
6.0
TR
6.0
12.7
U
22
3.50
2.00
11.0
22
-
7.0
TR
7.0
12.7
U
22
4.00
2.30
11.0
Pitch
Dimensions
Designation
(
Right
+
Left
)
Internal
Picture
Type
22
-
7.0
TR
40
7.0
12.7
U
22
4.00
2.60
11.0
d
hmin
f
L
x
mm
22
-
8.0
TR
8.0
12.7
U
22
4.50
2.60
11.0
External
d
UEI
27
-
8.0
RD
20400
8.0
15.875
U
27
4.40
3.0
13.7
27
-
8.0
TR
8.0
15.875
U
27
4.50
2.60
13.7
27
-
10.0
RD
20400
10.0
15.875
U
27
5.50
3.4
13.7
27
-
9.0
TR
9.0
15.875
U
27
5.00
3.00
13.7
Internal
27
-
10.0
TR
10.0
15.875
U
27
5.50
3.20
13.7
-
xtorn
.
'
il
33
-
12.0
TR
12.0
19.05
U
33
6.50
3.90
16.9
Trapez
DIN
103
(
TR
)
Pitch
Dimensions
Designation
(
Right
)
Designation
(
Left
)
Picture
Type
hmin
f
d
L
x
mm
ER
11
-
1.5
TR
EL
11
-
1.5
TR
1.5
6.35
0.90
0.8 0.9
11
16
-
1.5
TR
16
-
1.5
TR
1.5
9.525
16
0.90
1.0
1.1
16
-
2.0
TR
16
-
2.0
TR
2.0
9.525
16
1.25
1.1
1.3
16
-
2.5
TR
16
-
2.5
TR
2.5
9.525
16
1.55
1.2
1.4
16
-
3.0
TR
16
-
3.0
TR
3.0
9.525
16
1.75
1.3
1.5
L
External
16
-
4.0
TR
16
-
4.0
TR
4.0
9.525
16
2.25
1.3
1.5
External
22
-
4.0
TR
22
-
4.0
TR
4.0
12.7
22
2.25
1.7
1.9
22
-
5.0
TR
22
-
5.0
TR
5.0
12.7
22
2.75
2.1
2.5
22
-
6.0
TR
22
-
6.0
TR
6.0
12.7
22
3.50
2.3
2.7
27
-
6.0
TR
27
-
6.0
TR
6.0
15.875
27
3.50
2.3
2.7
27
-
7.0
TR
27
-
7.0
TR
7.0
15.875
27
4.00
2.7
3.2
IR
08
-
1.5
TR
IL
08
-
1.5
TR
1.5
4.76
8
0.85
0.6 0.6
11
-
1.5
TR
11
-
1.5
TR
1.5
6.35
11
0.90
0.8 0.9
16
-
1.5
TR
16
-
1.5
TR
1.5
9.525
16
0.90
1.0
1.1
16
-
2.0
TR
16
-
2.0
TR
2.0
9.525
16
1.25
1.1
1.3
16
-
2.5
TR
16
-
2.5
TR
2.5
9.525
16
1.53
1.2
1.4
Internal
30
-
Internal
16
-
3.0
TR
16
-
3.0
TR
3.0
9.525
16
1.75
1.3
1.5
fi
'
.
rtrm
16
-
4.0
TR
16
-
4.0
TR
4.0
9.525
16
2.25
1.5
1.5
External
22
-
4.0
TR
22
-
4.0
TR
4.0
12.7
22
2.25
1.7
1.9
d
22
-
5.0
TR
22
-
5.0
TR
5.0
12.7
22
2.75
2.1
2.5
22
-
6.0
TR
22
-
6.0
TR
6.0
12.7
22
3.50
2.3
2.7
27
-
6.0
TR
27
-
6.0
TR
6.0
15.8
27
3.50
2.3
2.7
27
-
7.0
TR
27
-
7.0
TR
7.0
27
2.7
3.2
15.875
4.00
311
312
A
\
Thread
Insert
Trapez
DIN
103
(
V
Style
)
American
ACME
(
ACME
)
Pitch Pitch
Dimensions Dimensions
Designation
(
Right
)
Designation
(
Left
)
Designation
(
Right
)
Designation
(
Left
)
Picture Picture
Type Type
d
hmin
f
d
hmin
f
L
T
L
tpi
tpi
x
x
VER
22
-
2.0
TR
VEL
22
-
2.0
TR
2.0
22
2.4
4.76
6.35
0.92
12.7
V
1.25
1.0
ER
11
-
16
ACME
EL
11
-
16
ACME
16
11
1.0
1.1
22
-
3.0
TR
22
-
3.0
TR
3.0
22
1.75
2.4
4.76
12.7
V
1.0
16
-
16
ACME
16
-
16
ACME
9.525
16
0.92
1.0
16
1.1
22
-
4.0
TR
22
-
4.0
TR
4.0
12.7
V
22
2.25
1.0
2.4
4.76
16
-
14
ACNE
16
-
14
ACNE
14
9.525
16
1.03
1.0
1.2
22
-
5.0
TR
22
-
5.0
TR
5.0
12.7
V
22
2.75
1.0
2.4
4.76
16
-
12
ACME
16
-
12
ACME
12
9.525
16
1.19
1.1
1.2
22
-
6.0
TR
22
-
6.0
TR
6.0
12.7
V
22
3.50
1.0
2.4
4.76
16
-
10
ACME
16
-
10
ACME
10
9.525
16
1.52
1.3
1.4
Internal
22
-
7.0
TR
22
-
7.0
TR
7.0
12.7
V
22
4.00
1.0
3.3
6.00
29
'
External
16
-
8
ACME
16
-
8
ACME
8
9.525
16
1.84
1.4
1.5
m
MlTv
27
-
2.0
TR
27
-
2.0
TR
2.0
15.875
V
27
1.25
1.0
3.3
6.35
16
-
6
ACME
16
-
6
ACME
6
9.525
16
2.37
1.7
1.9
27
-
3.0
TR
27
-
3.0
TR
3.0
15.875
V
27
1.75
1.0
3.3
6.35
External
22
-
6
ACME
22
-
6
ACME
6
12.7
22
2.37
1.8
2.1
d
27
-
4.0
TR
27
-
4.0
TR
4.0
15.875
V
27
2.25
1.0
3.3
6.35
22
-
5
ACME
22
-
5
ACME
5
12.7
22
2.79
2.0
2.3
27
-
5.0
TR
27
-
5.0
TR
5.0
15.875
V
27
2.75
1.0
3.3
6.35
External
27
-
6.0
TR
27
-
6.0
TR
6.0
15.875
V
27
3.50
1.0
3.3
6.35
22
-
4
ACME
22
-
4
ACME
4
12.7
27
3.43
2.1
2.2
External
27
-
7.0
TR
27
-
7.0
TR
7.0
15.875
V
27
4.00
1.0
3.3
6.35
27
-
4
ACME
27
-
4
ACME
15.875
27
3.43
2.4
2.7
4
27
-
8.0
TR
27
-
8.0
TR
8.0
15.875
V
27
4.50
1.0
3.3
6.35
IR
08
-
16
ACME
IL
08
-
16
ACME
16
4.76
8
0.92
0.6
0.6
27
-
9.0
TR
27
-
9.0
TR
9.0
15.875
V
27
5.00
1.0
4.3
8.70
11
-
16
ACME
11
-
16
ACME
16
6.35
11
0.92
0.9
0.9
27
-
10.0
TR
27
-
10.0
TR
10.0
15.875
V
27
5.50
1.0
4.3
8.70
16
-
16
ACME
16
-
16
ACME
16
9.525
16
0.92
1.0
1.1
27
-
12.0
TR
27
-
12.0
TR
12.0
15.875
V
27
6.50
1.0
4.3
8.70
16
-
14
ACNE
16
-
14
ACNE
14
9.525
16
1.03
1.1
1.2
27
-
14.0
TR
27
-
14.0
TR
14.0
15.875
V
27
8.00
1.8
5.2
10.20
16
-
12
ACNE
16
-
12
ACNE
12
9.525
16
1.19
1.2
1.3
35
-
16.0
TR
35
-
16.0
TR
16.0
20.0
V
35
5.38
1.0
6.0
12.00
Internal
16
-
10
ACME
16
-
10
ACME
10
9.525
16
1.52
1.2
1.3
35
-
18.0
TR
35
-
18.0
TR
18.0
20.0
V
35
5.38
1.0
6.5
15.00
35
-
20.0
TR
35
-
20.0
TR
20.0 20.0
V
35
7.38
1.0
7.5
15.00
16
-
8
ACME
16
-
8
ACME
8
9.525
16
1.84
1.4
1.5
VIR
22
-
2.0
TR
VIL
22
-
2.0
TR
2.0
12.7
V
22
1.25
1.0
2.4
4.76
16
-
6
ACME
16
-
6
ACME
6
9.525
16
2.37
1.7
1.9
External
22
-
3.0
TR
22
-
3.0
TR
3.0
12.7
V
22
1.75
1.0
2.4
4.76
22
-
6
ACME
22
-
6
ACME
6
12.7
22
2.37
1.8
2.1
22
-
4.0
TR
22
-
4.0
TR
4.0
12.7
V
22
2.25
1.0
2.4
4.76
22
-
5
ACME
22
-
5
ACME
5
12.7
22
2.79
2.0
2.3
22
-
5.0
TR
22
-
5.0
TR
5.0
12.7
V
22
2.75
1.0
2.4
4.76
22
-
4
ACME
22
-
4
ACME
4
12.7
27
3.43
2.1
2.2
22
-
6.0
TR
22
-
6.0
TR
6.0
12.7
V
22
3.50
1.0
2.4
4.76
27
-
4
ACME
27
-
4
ACME
4
15.875
27
3.43
2.3
2.6
22
-
7.0
TR
22
-
7.0
TR
7.0
12.7
V
22
4.00
1.0
3.3
6.00
27
-
2.0
TR
27
-
2.0
TR
2.0
15.875
V
27
1.25
1.0
3.3
6.35
27
-
3.0
TR
27
-
3.0
TR
3.0
15.875
V
27
1.75
1.0
3.3
6.35
American
ACME
(
U
Style
)
27
-
4.0
TR
27
-
4.0
TR
4.0
15.875
V
27
2.25
1.0
3.3
6.35
Internal
27
-
5.0
TR
27
-
5.0
TR
5.0
15.875
V
27
2.75
1.0
3.3
6.35
Pitch
Dimensions
Designation
(
Rig
ht
+
Left
)
Picture
Type
27
-
6.0
TR
27
-
6.0
TR
6.0
15.875
V
27
3.50
1.0
3.3
6.35
d
hmin
f
L
tpi
x
r
External
27
-
7.0
TR
27
-
7.0
TR
15.875
V
3.3
7.0
27
4.00
1.0
6.35
T
|
|
t
27
-
8.0
TR
27
-
8.0
TR
8.0
15.875
V
27
4.50
1.0
3.3
6.35
UE
22
-
4
ACME
4
12.7
U
22
3.43
2.3
11.0
Internal
Ww
\
27
-
9.0
TR
27
-
9.0
TR
9.0
15.875
V
27
5.00
1.0
4.3
8.70
22
-
3
ACME
3
12.7
U
22
4.49
2.9
11.0
External
27
-
10.0
TR
27
-
10.0
TR
10.0
15.875
V
27
5.50
1.0
4.3
8.70
27
-
3
ACME
3
15.875
U
27
4.49
2.9
13.7
27
-
12.0
TR
27
-
12.0
TR
12.0
15.875
V
27
6.50
1.0
4.3
8.70
External
33
-
2
ACME
2
19.05
U
33
6.54
4.3
16.9
27
-
14.0
TR
27
-
14.0
TR
14.0
15.875
V
27
8.00
1.8
5.2
10.20
UI
08
-
14
ACME
14
4.76
U
8
1.03
0.8
4.0
35
-
16.0
TR
35
-
16.0
TR
16.0
20.0
V
35
5.38
1.0
6.0
12.00
08
-
12
ACME
12
4.76
U
8
1.19
0.8
4.0
35
-
18.0
TR
35
-
18.0
TR
18.0
20.0
V
35
5.38
1.0
6.5
15.00
35
-
20.0
TR
35
-
20.0
TR
20.0 20.0
V
35
7.38
1.0
7.5
15.00
08
-
10
ACME
10
4.76
U
8
1.52
0.8
4.0
11
-
8
ACME
8
6.35
U
11
1.84
1.0
5.5
Internal
22
-
4
ACME
12.7
U
22
3.43
2.3
4
11.0
Fio
.
em
.
il
22
-
3
ACME
3
12.7
U
22
4.49
2.9
11.0
27
-
3
ACME
3
15.875
U
27
4.49
2.9
13.7
33
-
2
ACME
2
19.05
U
33
6.54
4.3
16.9
313
314
A
\
Thread
Insert
American
ACME
(
V
Style
)
Stub
ACME
(
U
Style
)
Pitch Pitch
Dimensions
Dimensions
Designation
(
Right
)
Designation
(
Left
)
Designation
(
Right
+
Left
)
Picture
Picture
Type Type
d
hmin
f
d
hmin
f
L
T
L
tpi
tpi
x
x
VER
27
-
4
ACME
VEL
27
-
4
ACME
15.875
V
27
3.43
3.3
6.35
UE
22
-
4
STACME
12.7
U
22
2.16
2.6
4.0
1.0
4
11.0
Internal
29
27
-
3.5
ACME
27
-
3.5
ACME
3.5
15.875
V
27
3.85
4.0
6.35
1.8
22
-
3
STACME
3
12.7
U
22
2.79
3.4
11.0
vrn
External
External
27
-
3
ACME
27
-
3
ACME
3
15.875
V
27
4.49
1.8
4.6
6.35
33
-
2
STACME
2
19.05
U
33
4.06
5.0
16.9
27
-
2
ACME
27
-
2
ACME
2
15.875
V
27
6.60
1.8
5.0
8.70
External
External
UI
08
-
14
STACME
14
4.76
U
8
0.67
0.8
4.0
6.35
VIR
27
-
4
ACME
VIL
27
-
4
ACME
4.0
15.875
V
27
3.43
1.0
3.3
Internal
08
-
12
STACME
12
4.76
U
8
1.76
0.9
4.0
29
'
1
6.35
27
-
3.5
ACME
27
-
3.5
ACME
3.5
15.875
V
27
3.85
1.8
4.0
Internal
vm
73
08
-
10
STACME
10
4.76
U
8
1.02
1.0
4.0
Internal
6.35
27
-
3
ACME
27
-
3
ACME
3
15.875
V
27
4.49
1.8
4.6
vr
&
\
22
-
4
STACME
4
12.7
U
22
2.16
2.5
11.0
8.70
27
-
2
ACME
27
-
2
ACME
2
15.875
V
27
6.60
1.8
5.0
Internal
External
External
27
-
3
STACME
3
12.7
U
22
2.79
3.3
11.0
*
d
33
-
2
SSTACME
2
19.05
U
33
4.06
5.0
16.9
Stub
ACME
(
STACME
)
Pitch
Dimensions
Designation
(
Right
)
Designation
(
Left
)
Picture
Type
Stub
ACME
(
V
Style
)
hmin
f
d
L
tpi
x
Pitch
Dimensions
ER
11
-
16
STACME
EL
11
-
16
STACME
16
6.35
0.60
1.0
1.0
11
Designation
(
Right
)
Designation
(
Left
)
Picture
Type
16
-
16
STACME
16
-
16
STACME
16
9.525
16
0.60
1.0
1.0
d
hmin
f
L
T
tpi
x
16
-
14
STACNE
16
-
14
STACNE
14
9.525
16
0.67
1.1 1.1
VER
27
-
4
STACME
VEL
27
-
4
STACME
4
15.875
V
27
2.16
1.0
3.3
6.35
16
-
12
STACME
16
-
12
STACME
12
9.525
16
0.76
1.2
1.2
External
27
-
3
STACME
27
-
3
STACME
3
15.875
V
27
2.79
6.35
1.8
4.6
16
-
10
STACME
16
-
10
STACME
10
9.525
16
1.02
1.2
1.3
27
-
2
STACME
27
-
2
STACME
2
15.875
V
27
4.06
1.8
5.0
8.70
16
-
8
STACME
16
-
8
STACME
8
9.525
16
1.21
1.5
1.4
External
External
L
16
-
6
STACME
16
-
6
STACME
6
9.525
16
1.52
1.7
1.8
External
22
-
6
STACME
22
-
6
STACME
6
12.7
22
1.52
1.7
1.8
VIR
27
-
4
STACME
VIL
27
-
4
STACME
4
15.875
V
27
2.16
1.0
3.3
6.35
Internal
Internal
29
'
22
-
5
STACME
22
-
5
STACME
5
12.7
22
1.78
2.1
2.3
vrm
27
-
3
STACME
27
-
3
STACME
3
15.875
V
27
2.79
1.8
4.6
6.35
22
-
4
STACME
22
-
4
STACME
4
12.7
22
2.16
2.3 2.3
27
-
2
STACME
27
-
2
STACME
2
15.875
V
27
4.06
1.8
5.0
8.70
External
27
-
4
STACME
27
-
4
STACME
4
15.875
27
2.16
2.3
2.4
*
27
-
3
STACME
27
-
3
STACME
3
15.875
27
2.79
2.9 2.9
IR
08
-
16
STACME
IL
08
-
16
STACME
16
4.76
8
0.60
0.6 0.6
11
-
16
STACME
11
-
16
STACME
6.35
16
11
0.60
1.0
1.0
16
-
16
STACME
16
-
16
STACME
16
9.525
16
0.60
1.0
1.0
16
-
14
STACNE
16
-
14
STACNE
14
9.525
16
0.67
1.1
1.1
16
-
12
STACME
16
-
12
STACME
12
9.525
16
0.76
1.1
1.2
16
-
10
STACME
16
-
10
STACME
10
9.525
16
1.02
1.2
1.3
Internal
16
-
8
STACME
16
-
8
STACME
8
9.525
16
1.21
1.4
1.5
16
-
6
STACME
16
-
6
STACME
6
9.525
16
1.52
1.7
1.8
External
22
-
6
STACME
22
-
6
STACME
6
12.7
22
1.52
1.7
1.8
22
-
5
STACME
22
-
5
STACME
5
12.7
22
1.78
2.1
2.3
22
-
4
STACME
22
-
4
STACME
4
12.7
22
2.16
2.3
2.3
27
-
4
STACME
27
-
4
STACME
4
15.875
27
2.16
2.3
2.4
27
-
3
STACME
27
-
3
STACME
3
15.875
27
2.79
2.9
2.9
315
316
A
\
Thread
Insert
UNJ
(
Unified
Constant
Thread
)
UNJ
(
Unified
Constant
Thread
)
Pitch
Pitch
Dimensions Dimensions
Designation
(
Right
)
Designation
(
Left
)
Designation
(
Right
)
Designation
(
Left
)
Picture Picture
Type Type
d
hmin
f
d
hmin
f
L L
tpi
tpi
x x
ER
11
-
48
UNJ
EL
11
-
48
UNJ
48
6.35
11
0.31
0.6
0.5
IR
11
-
48
UNJ
IL
11
-
48
UNJ
48
6.35
11
0.28
0.6
0.5
11
-
44
UNJ
11
-
44
UNJ
44
6.35
11
0.33
0.6 0.6
11
-
44
UNJ
11
-
44
UNJ
44
6.35
11
0.30
0.6 0.6
11
-
40
UNJ
11
-
40
UNJ
40
6.35
11
0.37
0.6 0.6
11
-
40
UNJ
11
-
40
UNJ
40
6.35
11
0.33
0.6 0.6
11
-
36
UNJ
11
-
36
UNJ
36
6.35
11
0.41
0.6 0.6
11
-
36
UNJ
11
-
36
UNJ
36
6.35
11
0.37
0.6 0.6
11
-
32
UNJ
11
-
32
UNJ
32
6.35
11
0.46
0.6
0.7
11
-
32
UNJ
11
-
32
UNJ
32
6.35
11
0.42
0.6
0.7
11
-
28
UNJ
11
-
28
UNJ
28
6.35
11
0.52
0.7 0.7
11
-
28
UNJ
11
-
28
UNJ
28
6.35
11
0.47
0.7 0.7
11
-
24
UNJ
11
-
24
UNJ
24
6.35
11
0.61
0.7
0.8
11
-
24
UNJ
11
-
24
UNJ
24
6.35
11
0.55
0.7
0.8
11
-
20
UNJ
11
-
20
UNJ
20
6.35
11
0.73
0.8 0.9
11
-
20
UNJ
11
-
20
UNJ
20
6.35
11
0.66
0.8 0.9
11
-
18
UNJ
11
-
18
UNJ
18
6.35
11
0.81
0.8
1.0
11
-
18
UNJ
11
-
18
UNJ
18
6.35
11
0.74
0.8
1.0
11
-
16
UNJ
11
-
16
UNJ
16
6.35
11
0.92
0.9
1.1
11
-
16
UNJ
11
-
16
UNJ
16
6.35
11
0.83
0.9
1.1
11
-
14
UNJ
11
-
14
UNJ
14
6.35
11
1.05
1.0
1.2
11
-
14
UNJ
11
-
14
UNJ
14
6.35
11
0.95
1.0
1.2
16
-
48
UNJ
16
-
48
UNJ
48
9.525
16
0.31
0.6
0.5
16
-
48
UNJ
16
-
48
UNJ
48
9.525
16
0.28
0.6
0.5
16
-
44
UNJ
16
-
44
UNJ
44
9.525
16
0.33
0.6
0.6
16
-
44
UNJ
16
-
44
UNJ
44
9.525
16
0.30
0.6
0.6
16
-
40
UNJ
16
-
40
UNJ
40
9.525
16
0.37
0.6 0.6
16
-
40
UNJ
16
-
40
UNJ
40
9.525
16
0.33
0.6 0.6
16
-
36
UNJ
16
-
36
UNJ
36
9.525
16
0.41
0.6 0.6
16
-
36
UNJ
16
-
36
UNJ
36
9.525
16
0.37
0.6 0.6
Internal
5
/
16
P
60
'
16
-
32
UNJ
16
-
32
UNJ
32
9.525
16
0.46
0.6
0.7
16
-
32
UNJ
16
-
32
UNJ
32
9.525
16
0.42
0.6
0.7
External
h
,
Internal
16
-
28
UNJ
16
-
28
UNJ
28
9.525
16
0.52
0.7
0.7
16
-
28
UNJ
16
-
28
UNJ
28
9.525
16
0.47
0.7 0.7
L
Rm
»
0.18042
P
,
RmaxO
.
15011
P
External
16
-
24
UNJ
16
-
24
UNJ
24
9.525
16
0.61
0.7
0.8
16
-
24
UNJ
16
-
24
UNJ
24
9.525
16
0.55
0.7
0.8
16
-
20
UNJ
16
-
20
UNJ
20
9.525
16
0.73
0.8 0.9
16
-
20
UNJ
16
-
20
UNJ
20
9.525
16
0.66
0.8 0.9
16
-
18
UNJ
16
-
18
UNJ
18
9.525
16
0.81
0.8
1.0
16
-
18
UNJ
16
-
18
UNJ
18
9.525
16
0.74
0.8
1.0
16
-
16
UNJ
16
-
16
UNJ
16
9.525
16
0.92
0.9
1.1
16
-
16
UNJ
16
-
16
UNJ
16
9.525
16
0.83
0.9
1.1
9.525
9.525
16
-
14
UNJ
16
-
14
UNJ
14
16
1.05
1.0
1.2
16
-
14
UNJ
16
-
14
UNJ
14
16
0.95
1.0
1.2
16
-
13
UNJ
16
-
13
UNJ
13
9.525
16
1.13
1.0
1.3
16
-
13
UNJ
16
-
13
UNJ
13
9.525
16
1.02
1.0
1.3
16
-
12
UNJ
16
-
12
UNJ
12
9.525
16
1.22
1.3
16
-
12
UNJ
16
-
12
UNJ
12
9.525
16
1.3
1.1
1.11
1.1
16
-
11
UNJ
16
-
11
UNJ
9.525
16
1.33
1.2
1.5
16
-
11
UNJ
16
-
11
UNJ
9.525
16
1.21
1.2
1.5
11
11
16
-
10
UNJ
16
-
10
UNJ
10
9.525
16
1.47
1.2
1.5
16
-
10
UNJ
16
-
10
UNJ
10
9.525
16
1.33
1.2
1.5
16
-
9
UNJ
16
-
9
UNJ
9
9.525
16
1.63
1.3
1.7
16
-
9
UNJ
16
-
9
UNJ
9
9.525
16
1.48
1.3
1.7
16
-
8
UNJ
16
-
8
UNJ
8
9.525
16
1.83
1.2
1.6
16
-
8
UNJ
16
-
8
UNJ
8
9.525
16
1.66
1.2
1.6
22
-
7
UNJ
22
-
7
UNJ
7
12.7
22
2.09
1.7
2.3
22
-
7
UNJ
22
-
7
UNJ
7
12.7
22
1.90
1.7
2.3
22
-
6
UNJ
22
-
6
UNJ
6
12.7
22
2.44
1.7
2.3
22
-
6
UNJ
22
-
6
UNJ
6
12.7
22
2.21
1.7
2.3
22
-
5
UNJ
22
-
5
UNJ
5
12.7
22
2.93
1.8
2.5
22
-
5
UNJ
22
-
5
UNJ
5
12.7
22
2.66
1.8
2.5
15.875
2.95
27
-
4.5
UNJ
27
-
4.5
UNJ
4.5
15.875
27
3.26
2.0
2.7
27
-
4.5
UNJ
27
-
4.5
UNJ
4.5
27
2.0
2.7
27
-
4
UNJ
27
-
4
UNJ
15.875
27
3.67
2.2
3.0
27
-
4
UNJ
27
-
4
UNJ
15.875
27
3.32
2.2
3.0
4
4
UNJ
(
M
+
Style
)
UNJ
(
U
Style
)
Pitch
Dimensions
Pitch
Dimensions
Designation
(
Right
)
Designation
(
Left
)
Designation
(
Right
-
*
-
Left
)
Picture
Type
Picture
Type
d
hmin
f
Tooth
L
tpi
d
hmin
f
x
L
tpi
x
ER
16
-
16
UNJ
2
M
9.525
0.92
2.4
2
16 16
1.6
UE
22
-
4.5
UNJ
4.5
12.7
U
22
3.26
2.1
11.0
Internal
5
/
16
P
22
-
16
UNJ
2
M
16
12.7
16
0.92
2.3
3.8
2
22
-
4
UNJ
4
12.7
U
22
3.67
2.1
11.0
External External
RmaxQ
.
18
W
2
P
RrraQ
.
15011
P
External
Rmafl
.
1802
P
RmaxQ
.
15011
P
External
UI
22
-
4.5
UNJ
4.5
12.7
U
22
3.26
2.1
11.0
Internal
5
/
16
P
hr
22
-
4
UNJ
4
12.7
U
22
3.67
2.1
11.0
Internal
Rma
>
fl
.
18
Ctt
2
P
/
Rmaj
<
D
.
15011
P
External
317
318
A
\
Thread
Insert
MJ
American
Buttress
(
U
Style
)
Pitch Pitch
Dimensions Dimensions
Designation
(
Right
)
Designation
(
Left
)
Designation
(
Right
)
Designation
(
Left
)
Picture Picture
Type Type
d
hmin
f
d
hmin
f
L
L
tpi
x
x
mm
ER
11
-
1.00
MJ
EL
11
-
1.00
MJ
1.0
6.35
11
0.58
0.7
0.7
UER
22
-
4
ABUT
UEL
22
-
4
ABUT
4
12.7
U
22
4.21
2.4
9.8
11
-
1.25
MJ
11
-
1.25
MJ
1.25
6.35
11
0.72
0.8 0.9
External
22
-
3
ABUT
22
-
3
ABUT
3
12.7
U
22
5.61
3.1
12.1
11
-
1.50
MJ
11
-
1.50
MJ
1.5
6.35
11
0.87
0.8
1.0
0.16316
P
External
16
-
0.70
MJ
16
-
0.70
MJ
0.7
9.525
16
0.40
0.6
0.6
16
-
0.80
MJ
16
-
0.80
MJ
0.8
9.525
16
0.45
0.7
0.7
UIR
22
-
4
ABUT
UIL
22
-
4
ABUT
4
12.7
U
22
4.21
2.4
9.8
S
^
6
P
Internal
Internal
i
16
-
1.00
MJ
16
-
1.00
MJ
1.0
9.525
16
0.58
0.7
0.7
External
22
-
3
ABUT
22
-
3
ABUT
3
12.7
U
22
5.61
3.1
12.1
L
16
-
1.25
MJ
16
-
1.25
MJ
1.25
9.525
16
0.72
0.8 0.9
0.16316
P
16
-
1.50
MJ
16
-
1.50
MJ
1.5
9.525
16
0.87
0.8
1.0
V
8
P
External
External
16
-
2.00
MJ
16
-
2.00
MJ
2.0
9.525
16
1.15
1.0
1.3
16
-
2.50
MJ
16
-
2.50
MJ
2.5
9.525
16
1.49
1.1
1.5
16
-
3.00
MJ
16
-
3.00
MJ
3.0
9.525
1.73
1.2
1.6
16
IR
11
-
1.00
MJ
IL
11
-
1.00
MJ
1.0
6.35
0.49
0.6
0.7
11
American
Buttress
(
V
Style
)
11
-
1.25
MJ
11
-
1.25
MJ
1.25
6.35
0.61
0.8 0.9
11
11
-
1.50
MJ
11
-
1.50
MJ
1.5
6.35
11
0.73
0.8
1.0
Pitch
Dimensions
Designation
(
Right
)
Designation
(
Left
)
11
-
2.00
MJ
11
-
2.00
MJ
2.0
6.35
11
0.97
0.8
1.0
Picture
Type
d
hmin
f
L
T
tpi
x
16
-
0.75
MJ
16
-
0.75
MJ
0.75
9.525
16
0.37
0.6
0.6
16
-
0.80
MJ
16
-
0.80
MJ
0.8
9.525
16
0.44
0.7
0.7
VER
4
ABUT
VEL
4
ABUT
4
12.7
V
22
4.21
0.6
1.8
6.35
16
-
1.00
MJ
16
-
1.00
MJ
1.0
9.525
16
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1.3
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Right
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Designation
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Left
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Picture Picture
Type Type
Designation
size
d
hmin
f
d
hmin
f
L L
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x
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16
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9.525
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12.7
22
3.09
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9.525
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1.07
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9.525
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23
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15.875
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15.875
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12.7
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Designation
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Left
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Picture
Picture
Type Type
Designation
size
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d
hmin
f
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L
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x
x
mm
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22
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API
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12.7
22
2.99
1.8
2.6
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Designation
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size
Picture
Type
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Designation
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Picture
Type
Designation
Type
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Stock
Dimensions
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Designation
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Spare
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Stock
Dimensions
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Stock
Dimensions
(
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Application
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Application
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Designation Designation
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L
dmin
d
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L
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screw
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screw
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27
UI
M
5
X
12
T
-
20
0014
-
Q
16
C
17
14 14
13.2
180
9.0
28
X
M
3.5
X
9
T
-
15
X
CNR
/
L
-
U
0016
-
R
16
C
19
16
16
15.0
200
10.0
36
16
IR
/
L
24
250
0020
-
S
16
C
20
20
19.0
12.0
40
STM
16
R
Spare
parts
T
-
15
M
3.5
X
12
M
3
X
6
N
0025
-
T
16
C
29
25 25
24.0
300
14.5
45
Stock
Dimensions
(
mm
)
STM
16
L
Application
Insert
Designation
0032
-
T
16
C
36
32 32
29.0
300
18.5
50
Fig
.
dmin
d
I
dl
R
L
H
L
s
Shim
Clamp
shim
screw
Wrench
Screw
CNR
/
L
0032
-
S
22
U
39
32
32.0
29
250
25.5
60
STM
22
UL
STM
22
UR
CH
6
R
3
CHX
0621
CTS
-
6
HW
30
L
22
UI
SNR
/
L
for
Oil
&
Gas
0040
-
T
22
U
47
40
40.0
36
300
29.5
60
2
0040
-
T
27
U
48
40
40.0
36
300
29.4
60
STM
27
UL
STM
27
UR
27
UI
CH
8
R
3
CHX
0822
CTS
-
8
HW
40
L
0050
-
U
27
U
58
50
50.0
45
350
34.4
75
ed
0060
-
V
27
U
69
60
60.0
54
400
39.3
75
H
t
L
45
°
Spare
parts
Stock
Dimensions
(
mm
)
Helix
Angle
Thread
form
Designation
Connection
No
or
size
Deg
.
d
H
L
S
R
L
Wrench
Insert
screw
SNR
/
L
0025
-
S
16
-
APIRD
25
29
250
14.5
1.0
2.375
"
-
20
"
;
1.315
"
-
3.5
"
M
3.5
x
9
0032
-
S
16
-
APIRD
32
29
250
19.6
1.0
T
-
15
2.375
"
-
20
"
;
1.66
"
-
3.5
"
8
APIRD
,
10
APIRD
0040
-
T
16
-
APIRD
40
36
300
22.0
1.0
2.375
"
-
20
"
;
1.9
"
-
3.5
"
4
-
1
/
2
"
-
20
"
NC
10
-
NC
77
all
sizes
5
BUT
,
V
.
038
R
,
V
.
050
,
V
.
040
,
V
.
055
0040
-
T
22
-
API
40
36
300
24.2
0.0
M
4.5
X
11.5
T
-
20
V
.
038
R
300
45
22.6
0050
-
T
27
-
V
38
NC
23
-
NC
38
1.5
50
T
-
20
M
5.0
X
12
400
72
39.7
0080
-
V
27
-
V
50
V
.
050
R
NC
40
-
NC
77
80
1.5
331
332
TOOL
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®
H
r
TOOL
LINE
DRILL
LINE
MILL
LINE
GROOVE
LINE
THREAD
LINE
A
\
Mill
-
Thread
Technical
Section
vy
Thread
Milling
Holders
Code
System
Thread
Milling
Inserts
Code
System
iso
R
0025
TTIM
45
3
0
1
.
50
V
Clamping
Method
Hand
Cutting
Dia
.
Length
of
Holder
Cutting
edge
Length
Shank
Type
Number
of
Inserts
Clamping
Method
Hand
Cutting
Dia
.
Length
of
Holder
Cutting
edge
Length
Clamping
Method
0
0
3
(
30
)
0
©
O
Cutting
Diameter
Cutting
edge
Length
Type
of
Insert
Pitch
l
@
9
0
(
30
)
0
0
E
:
External
N
:
Internal
El
:
External
&
Interna
R
:
right
hand
L
:
left
hand
1212.0
mm
1414.0
mm
2121.0
mm
30
30.0
mm
40
40.0
mm
S
:
Screw
only
0025
=
25
mm
mm
:
0.5
-
6.0
TPI
48
-
6
Length
of
Holder
Cutting
edge
Length
Shank
Type
Standard
Carbide
Grades
o
o
0
(
SS
)
@
@
@
nag
TTIM
45
1212.0
mm
1414.0
mm
2121.0
mm
30
30.0
mm
40
40.0
mm
Non
:
steel
shank
C
:
carbide
shank
ISO
-
ISO
Metric
UN
-
American
UN
(
UNO
,
UNF
,
UNEF
,
UNS
)
W
-
Whit
Worth
(
BSW
,
BSF
,
BSP
,
BSB
)
NPT
-
National
Pipe
Thread
NPTF
-
National
Pipe
Thread
BSPT
-
British
Standard
Pipe
Thread
(
BSPT
)
FHJ
KMSR
TTIM
45
B
Number
of
Insert
@
0
Non
:
1
insert
2
:
2
inserts
Thread
Milling
Cutters
Code
System
0063
.
§
Number
of
Inserts
Clamping
Method
Hand
Cutting
Dia
.
Tool
Length
Cutting
edge
Length
Bore
Dia
Clamping
Method
lrg
@
Hg
0
l
Hand
Cutting
Diameter
0
@
©
mi
)
0
0
HD
-
ES
R
:
right
hand
L
:
left
hand
S
:
Screw
only
0063
=
63
mm
Tool
Length
Cutting
edge
Length
Number
of
Insert
w
@
w
0
)
w
0
3
:
3
Inserts
4
:
4
Inserts
5
:
5
Inserts
1212.0
mm
1414.0
mm
2121.0
mm
30
30.0
mm
40
40.0
mm
C
D
E
Bore
Diameter
@@
OBI
'
S
0
0
)
3
ES
22
=
22.0
mm
27
=
27.0
mm
32
=
32.0
mm
335
336
(
B
>
A
\
Mill
-
Thread
Technical
Section
VX
Conversion
of
Cutting
Speed
to
Rotational
Speed
Tool
Selection
For
indexable
and
solid
carbide
Mill
Threads
Conversion
of
selected
cutting
speed
to
rotational
speed
is
calculated
by
the
following
formula
:
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
.
P
=
Thread
Pitch
A
TPI
mm
D
=
Tool
cutting
diameter
Example
:
V
=
120
m
/
min
D
-
30
mm
VxlOOO
120
x
1000
4
6.0
=
1274
FIPM
N
=
5
5.0
3.14
x
30
JtxD
6
4.0
3.5
D
=
Cutting
diameter
r
'
%
8
D
=
29
D
=
21
oo
3.0
10
ii
10
2.5
o
Q Q
0
8
12
2.0
7
r
y
-
16
1.5
I
ft
20
1.25
D
=
9
D
=
12
24
4
1.0
32
0.75
48
0.5
3
d
4
5
6
7
8
9
10
11
12
1314
15
16
18
20
22
24
26
28
30
32
34
36
38
40
44
48
52
58
64
5
/
8
3
/
4
mm
inch
1
/
4
3
/
8
1
/
2
1
1.25
1.5
2
2.5
Any
tool
with
a
small
cutting
diameter
can
produce
larger
diameter
threads
.
Example
:
Internal
thread
M
30
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
Right
Hand
Thread
i
d
=
30
Chosen
toolholder
:
SR
0021
H
21
Insert
:
21
N
1.5
ISO
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
.
337
338
(
B
>
A
\
Mill
-
Thread
Technical
Section
VX
Recommended
Select
for
Thread
Milling
Long
Mill
-
Thread
Insert
Speed
and
Feed
Selection
TTIM
45
B
Material
Hardness
Feed
Rate
(
mm
)
Vc
(
m
/
min
)
Sub
-
Micron
Grade
with
Titanium
Aluminum
Nitride
multi
-
layer
coating
(
ISO
P
20
-
P
30
,
K
10
-
K
20
)
.
This
is
a
general
purpose
grade
,
which
can
be
used
with
all
materials
;
it
should
be
run
at
medium
to
high
cutting
speeds
.
Low
alloy
steel
(
alloying
elements
<
5
%
)
P
<
HB
180
100
-
200
0.10
-
0.30
High
alloy
steel
(
alloying
elements
>
5
%
)
,
cast
steel
,
and
tool
steel
HB
180
-
280
0.10
-
0.30
70
-
170
Steel
M
Stainless
steel
8
t
Cast
steel
<
HB
200
90
-
140
0.10
-
0.30
Stainless
steel
Cast
iron
Nodular
(
GGG
)
Grey
cast
iron
(
GG
)
Malleable
cast
iron
HB
160
-
260
Tensile
Strength
<
350
Mpa
HB
130
-
230
100
-
120
0.05
-
0.30
Mill
-
Thread
Insert
Speed
and
Feed
Selection
K
80
-
100
0.05
-
0.30
Cast
iron
80
-
100
0.05
-
0.30
Aluminum
alloy
Copper
and
cooper
alloy
Non
metallic
CHB
100
80
-
400
0.10
-
0.40
N
Vc
(
m
/
min
)
Material
Feed
Rate
(
mm
)
Hardness
<
HB
100
100
-
200
0.10
-
0.40
Non
-
ferrous
alloy
100
-
250
0.10
-
0.40
Low
alloy
steel
(
alloying
elements
<
5
%
)
P
<
HB
180
80
-
160
s
High
Temperature
.
Alloys
,
Super
Alloys
10
-
30
0.04
-
0.10
High
alloy
steel
(
alloying
elements
>
5
%
)
,
cast
steel
,
and
tool
steel
HB
180
-
280
60
-
100
Steel
Heat
resistant
material
Titanium
Alloy
20
-
90
0.04
-
0.10
M
H
Stainless
steel
8
t
Cast
steel
<
HB
200
130
-
190
Hardened
steel
15
-
40
0.06
-
0.12
HRC
45
-
55
Stainless
steel
Hardened
material
Cast
iron
Nodular
(
GGG
)
Grey
cast
iron
(
GG
)
Malleable
cast
iron
HB
160
-
260
Tensile
Strength
<
350
Mpa
HB
130
-
230
80
-
100
K
80
-
100
Cast
iron
100
-
120
0.05
-
0.15
Aluminum
alloy
Copper
and
cooper
alloy
Non
metallic
<
HB
100 180
-
340
N
<
HB
100
100
-
200
Non
-
ferrous
alloy
115
-
460
s
High
Temperature
.
Alloys
,
Super
Alloys
20
-
40
Heat
resistant
material
Titanium
Alloy
25
-
90
H
Hardened
steel
20
-
45
HRC
45
-
55
Hardened
material
339
340
A
\
Mill
-
Thread
Insert
ISO
Metric
American
UN
(
UN
,
UNC
,
UNF
,
UNEF
,
UNS
)
P
P
T
/
www
\
n
Y
/
yyyywv
yi
H
H
II
i
.
v
-
*
i
Tk
-
ITk
-
A
A
Insert
size
=
A
Insert
size
=
A
Pitch
(
mm
)
Pitch
(
mm
)
12
14
21
30
40
12
14
21
30
40
0.5
Ext
.
32
Ext
.
14
E
32
UN
32
Int
.
*
12
N
32
UN
14
N
32
UN
0.5
Int
.
*
12
N
0.50
ISO
14
N
0.50
ISO
28
Ext
.
14
E
28
UN
0.75
Ext
.
14
E
0.75
ISO
28
Int
.
*
12
N
28
UN
14
N
28
UN
0.75
Int
.
*
12
N
0.75
ISO
14
N
0.75
ISO
27
Ext
.
1.0
Ext
.
21
E
1.00
ISO
14
E
1.00
ISO
27
Int
.
14
N
27
UN
1.0
Int
.
21
N
1.00
ISO
*
12
N
1.00
ISO
14
N
1.00
ISO
21
E
24
UN
24
Ext
.
14
E
24
UN
1.25
Ext
.
14
E
1.25
ISO
24
Int
.
*
12
N
24
UN
14
N
24
UN
21
N
24
UN
1.25
Int
.
*
12
N
1.25
ISO
14
N
1.25
ISO
21
N
1.25
ISO
21
E
20
UN
20
Ext
.
14
E
20
UN
30
E
20
UN
1.5
Ext
.
14
N
1.50
ISO
21
E
1.50
ISO
30
E
1.50
ISO
40
E
1.50
ISO
20
Int
.
*
12
N
20
UN
14
N
20
UN
21
N
20
UN
30
E
20
UN
1.5
Int
.
21
N
1.50
ISO
30
N
1.50
ISO
40
N
1.50
ISO
*
12
N
1.50
ISO
14
N
1.50
ISO
21
E
18
UN
18
Ext
.
14
E
18
UN
30
E
18
UN
1.75
Ext
.
14
E
1.75
ISO
21
N
18
UN
18
Int
.
*
12
N
18
UN
14
N
18
UN
30
N
18
UN
1.75
Int
.
21
N
1.75
ISO
14
N
1.75
ISO
21
E
16
UN
40
E
16
UN
16
Ext
.
14
E
16
UN
30
E
16
UN
2.0
Ext
.
21
E
2.00
ISO
30
E
2.00
ISO
40
E
2.00
ISO
21
N
16
UN
40
N
16
UN
14
E
2.00
ISO
16
Int
.
*
12
N
16
UN
14
N
16
UN
30
N
16
UN
21
E
14
UN
40
E
14
UN
14
Ext
.
14
E
14
UN
21
N
2.00
ISO
30
E
14
UN
2.0
Int
.
14
N
2.00
ISO
30
N
2.00
ISO
40
N
2.00
ISO
21
N
14
UN
40
N
14
UN
14
Int
.
14
N
14
UN
30
N
14
UN
21
E
2.50
ISO
2.5
Ext
.
14
N
2.50
ISO
13
Ext
.
14
E
13
UN
2.5
Int
.
14
N
2.50
ISO
21
N
2.50
ISO
13
Int
.
3.0
Ext
.
21
E
3.00
ISO
30
E
3.00
ISO
40
E
3.00
ISO
12
Ext
.
14
E
12
UN
21
E
12
UN
40
E
12
UN
30
E
12
UN
3.0
Int
.
21
N
3.00
ISO
30
N
3.00
ISO
40
N
3.00
ISO
21
N
12
UN
40
N
12
UN
12
Int
.
14
N
12
UN
30
N
12
UN
3.5
Ext
.
30
E
3.50
ISO
11
Ext
.
14
E
11
UN
21
E
11
UN
21
N
3.50
ISO
30
N
3.50
ISO
40
N
3.50
ISO
3.5
Int
.
11
Int
.
14
N
11
UN
30
E
4.00
ISO
40
E
4.00
ISO
4.0
Ext
.
40
E
10
UN
10
Ext
.
*
14
E
10
UN
21
E
10
UN
30
E
10
UN
30
N
4.00
ISO
40
N
4.00
ISO
4.0
Int
.
21
N
10
UN
40
N
10
UN
10
Int
.
14
N
10
UN
30
N
10
UN
4.5
Ext
.
9
Ext
.
4.5
Int
.
30
N
4.50
ISO
40
N
4.50
ISO
9
Int
.
*
*
14
N
9
UN
40
E
5.00
ISO
5.0
Ext
.
40
E
8
UN
8
Ext
.
30
E
8
UN
21
N
8
UN
40
N
8
UN
30
N
5.00
ISO
40
N
5.00
ISO
8
Int
.
5.0
Int
.
30
N
8
UN
7
Ext
.
5.5
Ext
.
21
N
7
UN
7
Int
.
30
N
5.50
ISO
40
N
5.50
ISO
5.5
Int
.
40
E
6
UN
6
Ext
.
30
E
6
UN
40
E
6.00
ISO
6.0
Ext
.
40
N
6
UN
6
Int
.
30
N
6
UN
40
N
6.00
ISO
6.0
Int
.
5
Ext
.
6.3
7.5
12.0
16.0
20.0
H
5
Int
.
30
N
5
UN
4.5
Ext
.
2.9
3.1
4.7
5.5
6.3
T
40
N
4.5
UN
4.5
Int
.
*
One
cutting
edge
4
Ext
.
4
Int
.
40
N
4
UN
H
6.3
7.5
12.0
16.0
20.0
2.9
3.1
4.7
5.5
6.3
T
*
One
cutting
edge
**
Cannot
be
used
with
carbide
shank
Toolholders
.
341
342
A
\
Mill
-
Thread
Insert
V
.
/
Whitworth
(
BSW
,
BSF
,
BSP
,
BSB
)
National
Pipe
Thread
(
NPT
)
P
P
Tywvwvy
rr
n
/
yyvyXAA
H
H
Conical
pipe
thread
inserts
are
one
-
sided
and
may
be
used
for
both
External
and
Internal
threading
.
n
o
Same
Insert
for
External
and
Internal
thread
.
-
*
l
TX
A
99
Y
Taper
1
:
16
Screw
A
T
Insert
size
=
A
Insert
size
=
A
Pitch
(
TPI
)
Pitch
(
TPI
)
12
14
21
30
40
12
14
21
30
40
24
14
El
24
W
18
12
El
18
NPT
14
El
18
NPT
20
14
El
20
W
21
EI
20
W
14
14
El
14
NPT
21
EI
14
NPT
19
14
El
19
W
21
EI
19
W
11.5
21
EI
11.5
NPT
*
12
El
19
W
30
EI
11.5
NPT
40
El
11.5
NPT
14
El
18
W
18
8
30
EI
8
NPT
40
El
8
NPT
30
EI
16
W
14
El
16
W
21
EI
16
W
16
H
6.3
7.5
12.0
16.0
20.0
30
EI
14
W
21
EI
14
W
14 14
El
14
W
2.9
3.1
4.7
5.5
6.3
T
12
14
EI
12
W
30
EI
11
W
40
EI
11
W
11
*
14
El
11
W
21
EI
11
W
21
EI
10
W
10
40
El
8
W
8
H
6.3
7.5
12.0
16.0
20.0
2.9
3.1
4.7
5.5
6.3
T
PG
-
DIN
40430
*
One
cutting
edge
P
ywvwvY
H
British
Standard
Pipe
Thread
(
BSPT
)
Conical
pipe
thread
inserts
are
one
-
sided
and
may
be
used
for
both
External
and
Internal
threading
.
I
T
A
6
UE
P
Insert
size
=
A
n
^
y
\
/
yyv
\
Pitch
(
TPI
)
12
14
21
30
40
H
I
Conical
pipe
thread
inserts
are
one
-
sided
and
may
be
used
for
both
External
and
Internal
threading
.
©
JL
90
Y
\
Taper
1
:
16
14
EI
18
PG
(
PG
9
,
11
,
13.5
,
16
)
21
EI
18
PG
(
PG
16
)
18
Screw
A
T
21
EI
16
PG
(
PG
21
,
29
,
36
,
42
,
48
)
16
30
EI
16
PG
(
PG
36
,
42
,
48
)
Insert
size
=
A
H
6.3
7.5
12.0
16.0
20.0
Pitch
(
TPI
)
12
14
21
30
40
2.9
3.1
4.7
5.5
6.3
T
19
12
El
19
BSPT
14
EI
19
BSPT
14
14
El
14
BSPT
21
EI
14
BPST
21
EI
11
BSPT
11
30
EI
11
BSPT
40
El
11
BSPT
H
6.3
7.5
12.0
16.0
20.0
2.9
3.1
4.7
5.5
6.3
T
343
344
A
\
Mill
-
Thread
Holder
V
.
/
Single
Insert
Toolholder
Long
Carbide
Shank
Toolholder
With
internal
coolant
bore
i
D
(
Iny
vwwwvw
^
d
D
[
tDl
<
ap
^
ap
L
1
L
Spare
parts
Spare
parts
Stock Stock
Dimensions
(
mm
)
Dimensions
(
mm
)
Application
Insert
Application
Insert
#
Designation
Designation
d
d
R
L
D
D
1
L
i
R
L
D
D
1
L
2
ap ap
Wrench
Wrench
screw screw
SR
0009
-
H
12
(
1
)
12
E
/
N
Y
50
-
SSTX
3
-
4.0
P
TPF
-
08
9.5
20
7.5
85
14
12
SR
0010
-
K
12
C
9.9
8
8.0
125
12
12
E
/
N
Y
50
-
SSTX
3
-
4.0
P
TPF
-
08
0010
-
H
12
9.9
20
7.6
85
16
12
0013
-
H
14
C
13.2
10
10.0
110
14
0012
-
F
14
12.0
20
8.9
75
20
0013
-
J
14
C
13.2
10
10.0
155
14 14
14
E
/
N
Y
50
-
SSTX
3
-
4.0
P
TPF
-
08
0012
-
H
14
12.0
20
8.9
100
30
0015
-
K
14
C
15.2
12
12.0
175
14 14
14
E
/
N
Y
50
-
SSTX
3
-
4.0
P
TPF
-
10
0014
-
H
14
14.5
20
11.2
85
25
14
0021
-
K
21
C
21.0
16
16.0
130
21
21
E
/
N
Y
60
-
SSTX
4
-
5.7
P
TPF
-
15
0017
-
H
14
17.0
20
13.4
85
30
14
0021
-
M
21
C
21.0
16
16.0
200
21
0017
-
K
14
17.0
20
13.4
120
40
14
0027
-
S
30
C
27.0
20
20.0
250
30 30
E
/
N
Y
50
-
STX
5
-
7.0
P
TPF
-
20
0018
-
1
-
121
(
2
)
18.0
20
14.4
85
30
21
For
holders
with
long
overhang
reduce
the
cutting
speed
and
feed
rate
between
20
%
to
40
%
(
depends
on
workpiece
material
,
pitch
and
overhang
)
21
E
/
N
Y
60
-
SSTX
4
-
5.7
P
TPF
-
15
0018
-
K
21
(
2
)
18.0
20
14.4
120
45
21
0021
-
H
21
21.0
20
16.5
94
40
21
30
E
/
N
Y
50
-
SSTX
5
-
7.0
P
TPF
-
20
23.0
0029
-
J
30
29.0
25
110
50
30
Y
50
-
SSTX
5
-
7.0
P
TPF
-
20
40
E
/
N
0048
-
M
40
48.0
40
35.0
153
78
40
(
1
)
Not
for
conical
inserts
:
12
-
18
NPT
,
12
-
18
NPTF
,
12
-
19
BSPT
(
2
)
Cannot
be
used
with
the
following
inserts
:
211
3.5
ISO
,
2118
UN
,
2117
UN
,
21
-
11
BSPT
,
21
-
11.5
NPT
,
21
-
11.5
NPTF
Single
Insert
Toolholder
With
internal
coolant
bore
IT
.
D
d
©
1
ap
L
Spare
parts
Stock
Dimensions
(
mm
)
Application
Insert
Designation
d
R
L
D
D
1
L
2
ap
Wrench
screw
21
E
/
N
Y
60
-
SSTX
4
-
5.7
P
TPF
-
15
SR
0025
-
K
21
25
20
20.7
125
21
0031
-
M
30
31
25
24.5
150
30
0031
-
Q
30
31
25
24.5
180
30
30
E
/
N
Y
50
-
SSTX
5
-
7.0
P
TPF
-
20
0038
-
M
30
38
32
31.5
150
30
0038
-
Q
40
38
32
31.5
180
40 40
E
/
N
Y
50
-
SSTX
5
-
7.0
P
TPF
-
20
0048
-
R
40
48
40
36
210
40
For
holders
with
long
overhang
reduce
the
cutting
speed
and
feed
rate
between
20
%
to
40
%
(
depends
on
workpiece
material
,
pitch
and
overhang
)
345
346
A
\
Mill
-
Thread
Holder
Twin
Insert
Toolholder
Thread
Milling
Modular
~
I
~
/
VWWW
c
d
L
1
D
®
i
i
_
www
7
Di
]
e
<
0
^
ap
i
o
L
/
XAAAAAAAAA
ap
L
Spare
parts
Spare
parts
Stock
Dimensions
(
mm
)
Application
Insert
Stock
Dimensions
(
mm
)
Designation
No
.
of Inserts
Application
Insert
Designation
No
.
of
Inserts
R
L
D D
2
LI
L
M
ap
Wrench
d
R
L
D D
1
L
screw
2
ap
Wrench
screw
LU
z
SR
0013
D
14
-
M
06
-
1
T
1
13.7
9.6
17
23.3
14
M
6
=
j
SR
SR
0020
G
14
-
2
2
20 20
16.0
93 37
14
a
Y
50
-
SSTX
3
-
4.0
P
14
E
/
N
TPF
-
8
0015
D
14
-
M
08
-
1
T
15.8
11.7
17
24.5
M
8
1
14
<
SR
0020
J
14
-
2
2
20 20
16.0
113
57
14
LU
14
E
/
N
Y
50
-
SSTX
3
-
4.0
P
TPF
-
08
DC
0020
D
14
-
M
10
-
2
T
2
20.0
15.3
18
29.3
14
M
10
X
SR
0030
J
21
-
2
2
30
25
24.0
113
52
21
21
E
/
N
Y
60
-
SSTX
4
-
5.7
P
TPF
-
15
0020
D
14
-
M
10
-
3
T
3
20.0
15.3
24
35.3
14
M
10
SR
0030
L
21
-
2
2
30
25
24.0
140
80
21
0021
D
21
-
M
10
-
1
T
21.0
15.3
25
36.3
21
M
10
1
SR
0040
L
30
-
2
2
40
32
30.0
135
70
30
30
E
/
N
Y
50
-
SSTX
5
-
7.0
P
TPF
-
20
0025
D
21
-
M
10
-
1
T
1
25.0
19.7
40
60.0
21
M
10
SR
0040
P
30
-
2
2
40
32
30.0
170
103
30
21
E
/
N
Y
60
-
SSTX
4
-
5.7
P
TPF
-
15
LU
0030
D
21
-
M
16
-
2
T
2
30.4
23.9
25
42.0
21
M
16
Z
SR
0050
M
40
-
2
2
50
40
38.0
153
80
40 40
E
/
N
Y
50
-
SSTX
5
-
7.0
P
TPF
-
20
0030
D
21
-
M
16
-
3
T
3
30.4
23.9
34
51.0
21
M
16
LU
>
O
0027
D
30
-
M
12
-
1
T
27.0
18.3
38.2
52.0
30
M
12
1
30
E
/
N
Y
50
-
SSTX
5
-
7.0
P
TPF
-
20
O
DC
O
Multi
Inserts
Thread
Milling
Cutter
LU
Da
z
H
d
L
A
©
ap
V
LU
D
Z
Zi
d
DC
O
Spare
parts
Stock
Dimensions
(
mm
)
Application
Insert
No
.
of
Inserts
Arbor
Designation
d
R
L
D
H
ap
Wrench
screw
LU
SR
0050
C
21
-
4
-
22
4
50
22
50
21
A
Z
21
E
/
N
Y
60
-
SSTX
4
-
5.7
P
TPF
-
15
0063
C
21
-
5
-
22
5
63
22
50
21
A
O
O
22
50
0063
C
30
-
4
-
22
4
63
30
A
0080
D
30
-
4
-
27
4
80
27
55
30
A
30
E
/
N
Y
50
-
SSTX
5
-
7.0
P
TPF
-
20
0100
D
30
-
4
-
32
4
100
32
60
30
B
0100
D
30
-
8
-
32
8
100
32
60
30
B
0080
D
40
-
4
-
27
4
80
27
65
40
A
40
E
/
N
Y
50
-
SSTX
5
-
7.0
P
0100
E
40
-
4
-
32
4
100
32
70
40
B
TPF
-
20
0100
E
40
-
6
-
32
6
100
32
70
40
B
347
348
A
\
Super
Fast
Mill
-
Thread
Insert
V
.
/
ISO
Metric
National
Pipe
Thread
(
NPT
)
Teeth Teeth
Dimensions
(
mm
)
Dimensions
(
mm
)
Pitch
(
TPI
)
Designation
(
External
)
Designation
(
External
+
Internal
)
Picture
Picture
Designation
(
Internal
)
Pitch
(
mm
)
L
Le
Zt
L
Le
Zt
H
25
E
l
.
OOISO
SM
H
25
N
l
.
OOISO
SM
1.0
25
24.00
24
H
25
EI
14
NPT
SM
14
25
23.58
13
30
°
30
°
1
/
4
P
Internal
Le
1.25
ISO
SM
1.25
ISO
SM
1.25
25
23.75
19
11.5
NPT
SM
11.5
25
24.30
11
lA
/
wwwlB
fMn
1.50
ISO
SM
1.50
ISO
SM
1.5
25
24.00
16
8
NPT
SM
8
25
22.22
7
2.00
ISO
SM
2.00
ISO
SM
2.0
25
24.00
12
External
External
2.50
ISO
SM
2.50
ISO
SM
2.5
25
25.00
10
3.00
ISO
SM
3.00
ISO
SM
3.0
25
24.00
8
American
UN
(
UN
,
UN
,
UNF
,
UNEF
,
UNS
)
British
Standard
Pipe
Thread
(
BSPT
)
Teeth
Teeth
Dimensions
(
mm
)
Dimensions
(
mm
)
Designation
(
External
)
Designation
(
External
+
Internal
)
Pitch
(
TPI
)
Picture Picture
Designation
(
Internal
)
Pitch
(
TPI
)
L
Le
Zt
L
Le
Zt
H
25
E
20
UN
SM
H
25
N
20
UNSM
20
25
24.13
19
H
25
EI
14
BSPTSM
14
25
24.06
13
R
0.137
P
\
27.5
°
27.5
Jnternal
Le
18
UN
SM
25
23.99
17
11
BSPT
SM
25
23.09
10
18
UN
SM
18
11
1
°
47
'
16
UN
SM
16
UN
SM
16
25
23.81
15
Le
14
UN
SM
14
UN
SM
14
25
23.58
13
A
>
47
fR
0
i
37
P
.
External
O
12
UN
SM
12
UN
SM
12
25
23.28
11
10
UN
SM
10
UN
SM
10
25
22.86
9
1
/
8
P
External
9
UN
SM
9
UN
SM
9
25
22.58
8
8
UN
SM
8
UN
SM
8
25
22.22
7
Whitworth
(
BSW
,
BSF
,
BSP
,
BSB
)
Teeth
Dimensions
(
mm
)
Pitch
(
TPI
)
Designation
(
External
+
Internal
)
Picture
L
Le
Zt
H
25
EI
16
WSM
16
25
23.81
15
*
Le
/
vyvy
\
AwyvyvA
/
v
/
v
n
R
0.137
P
-
14
W
SM
25
23.58
13
14
12
W
SM
12
25
23.28
11
o
©
11
W
SM
11
25
23.09
10
R
0.137
P
External
349
350
A
\
Super
Fast
Mill
-
Thread
Holder
V
.
/
SM
Standard
Toolholder
SM
Conical
Toolholder
*
D
2
T
'
/
T
T
CZD
D
1
J
V
"
ap
L
Spare
parts
Spare
parts
Stock
Stock
Dimensions
(
mm
)
Dimensions
(
mm
)
Designation
Designation
No
.
of
Inserts
No
.
of
Inserts
d
d
R
L
D
1
D
2
LI
L
R
L
D
1
D
2
LI
L
ap
ap
Wrench
Wrench
screw
screw
HSMC
25
17
-
A
25
-
26
T
2
(
1
)
2
17.0
25
HSMC
25
17
-
A
25
-
26
T
2
-
PT
2
17.2
25 25
14.0
25
26
85
14.0
26
85
17
-
A
25
-
36
T
2
(
1
)
2
14.0
17.0
25
36
95
25
22
-
A
25
-
43
T
3
-
PT
3
18.0
22.2
25
43
102
25
SSTM
4
-
3.6
P
TT
-
08
P
19
-
A
25
-
32
T
2 2
15.0
19.0
25
32
92
25
28
-
A
25
-
43
T
4
-
PT
3
25.0
28.4
25
43
103
25
19
-
A
25
-
44
T
2
2
15.0
19.0
25
44
104
25
21
-
A
25
-
37
T
3 3
16.5
20.5
25
37
96
25
SSTM
4
-
3.6
P
TT
-
08
P
21
-
A
25
-
44
T
3 3
16.5
20.5
25
44
103
25
22
-
A
25
-
43
T
3 3
18.0
22.0
25
43
102
25
Conical
Thread
Application
by
Toolholder
22
-
A
25
-
55
T
3
3
18.0
22.0
25
55
114
25
30
-
A
25
-
55
T
5 5
26.0
30.0
25
55
115
25
30
-
A
25
-
80
T
4 4
26.0
30.0
25
80
140
25
Tooholder
Min
.
Thread
Dia
.
(
1
)
Inserts
with
a
thread
pitch
of
>
3
mm
or
>
8
TPI
are
not
moutable
D
2
Standard
Thread
Application
by
Toolholder
NPT
NPTF
BSPT
(
mm
)
Tooholder
Min
.
Thread
Dia
.
1
/
2
-
14
;
3
/
4
-
14
;
1
-
11.5
;
11
/
4
-
11.5
;
11
/
2
-
11.5
;
2
-
11.5
1
/
2
-
14
;
3
/
4
-
14
;
1
-
11.5
;
11
/
4
-
11.5
;
11
/
2
-
11.5
;
2
-
11.5
1
/
2
-
14
;
3
/
4
-
14
HSMC
25
17
-
A
25
-
26
T
2
-
PT
17.2
D
2
ISO
ISO
UNC
UN
/
UNF
/
UNEF
/
UNS
BSF
BSP
(
G
)
(
fine
)(
mm
)
(
coarse
)
3
/
4
-
14
;
1
-
11.5
;
11
/
4
-
11.5
;
11
/
2
-
11.5
;
2
-
11.5
3
/
4
-
14
;
1
-
11.5
;
11
/
4
-
11.5
;
11
/
2
-
11.5
;
2
-
11.5
3
/
4
-
14
;
1
-
11
;
11
/
4
-
11
;
11
/
2
-
11
;
2
-
11
;
2
1
/
2
-
11
;
3
-
11
;
4
-
11
;
5
-
11
;
6
-
11
22
-
A
25
-
43
T
3
-
PT
22.2
HSMC
25
17
-
A
25
-
26
T
2
"
M
19
xl
;
M
19
x
1.5
;
M
20
x
2
"
7
/
8
-
10
UNS
;
13
/
16
-
12
UN
;
7
/
8
-
14
UNF
;
3
/
4
-
16
UNF
;
3
/
4
-
18
UNS
;
3
/
4
-
20
UNEF
"
7
/
8
-
11
;
7
/
8
-
12
;
7
/
8
-
14
;
7
/
8
-
16
"
1
-
11.5
;
11
/
4
-
11.5
;
11
/
2
-
11.5
;
2
-
11.5
1
-
11.5
;
11
/
4
-
11.5
;
11
/
2
-
11.5
;
2
-
11.5
1
-
11
;
11
/
4
-
11
;
11
/
2
-
11
;
2
-
11
;
2
1
/
2
-
11
;
3
-
11
;
4
-
11
;
5
-
11
;
6
-
11
1
/
2
-
14
17.0
M
20
X
2.5
28
-
A
25
-
43
T
4
-
PT
28.4
17
-
A
25
-
36
T
2
"
7
/
8
-
16
;
7
/
8
-
14
;
15
/
16
-
12
;
15
/
16
-
11
"
19
-
A
25
-
32
T
2
"
M
21
xl
;
M
21
xl
.
5
;
M
22
x
2
"
"
7
/
8
-
20
UNEF
;
7
/
8
-
18
UNS
;
7
/
8
-
16
UN
;
7
/
8
-
14
UNF
;
7
/
8
-
12
UN
;
7
/
8
-
10
UNS
"
M
22
x
2.5
M
24
x
3
"
7
/
8
-
9
;
5
/
8
-
14
19.0
1
-
8
"
19
-
A
25
-
44
T
2
"
15
/
16
-
9
UN
;
1
-
10
UNS
;
15
/
16
-
12
UN
;
1
-
14
UNS
;
15
/
16
-
16
UN
;
7
/
8
-
18
UNS
;
7
/
8
-
20
UNEF
"
21
-
A
25
-
37
T
3
"
1
-
11
;
1
-
12
;
1
-
14
;
1
-
16
"
"
M
22
xl
;
M
23
X
1.5
;
M
23
x
2
;
M
23.5
x
2.5
"
1
-
8
5
/
8
-
14
20.5
M
24
x
3
21
-
A
25
-
44
T
3
22
-
A
25
-
43
T
3
"
1
-
11
;
1
-
12
;
1
-
14
;
1
-
16
"
"
111
/
16
-
8
UN
;
1
-
9
UN
;
1
-
10
UNS
;
1
-
12
UNF
;
1
-
14
UNS
;
1
-
16
UN
;
1
-
18
UN
;
15
/
16
-
20
UNEF
"
"
M
24
xl
;
M
24
X
1.5
;
M
25
x
2
;
M
25
x
2.5
"
3
/
4
-
14
22.0
M
27
x
3
22
-
A
25
-
55
T
3
1
3
/
8
-
811
N
;
1
3
/
8
-
9
UN
;
1
3
/
8
-
10
UN
;
1
5
/
16
-
12
UN
;
1
3
/
8
-
14
UNS
;
1
5
/
16
-
16
UN
;
1
5
/
16
-
18
UNEF
;
1
5
/
16
-
20
UN
30
-
A
25
-
55
T
5
"
M
32
xl
;
M
32
X
1.5
;
M
33
x
2
;
M
33
x
2.5
;
M
34
x
3
"
"
1
3
/
8
-
11
;
1
3
/
8
-
12
;
1
3
/
8
-
14
;
1
3
/
8
-
16
"
1
-
11
30.0
30
-
A
25
-
80
T
4
To
mount
insert
correctly
,
push
the
insert
toward
the
pocket
walls
.
\
'
\
Always
mount
all
inserts
with
identification
marks
on
the
same
side
.
To
mount
insert
correctly
,
push
the
insert
toward
the
pocket
walls
.
Side
with
identification
marks
Side
without
identification
marks
.
351
352
A
\
Super
Fast
Mill
-
Thread
Cutter
V
.
/
Conical
Thread
Application
by
Toolholder
SM
Conical
Toolholder
Tooholder
Min
.
Thread
Dia
.
D
2
NPT
NPTF
BSPT
(
mm
)
/
wwwy
^
.
A
11
/
4
-
11.5
;
11
/
2
-
11.5
;
2
-
11.5
;
2
1
/
2
-
8
;
3
-
8
11
/
4
-
11.5
;
11
/
2
-
11.5
;
2
-
11.5
;
2
1
/
2
-
8
(
and
up
)
1
1
/
2
-
6
x
11
HSMC
25
0036
-
16
-
05
T
-
PT
35.9
*
*
For
inserts
8
NPT
and
8
NPTF
use
for
CNC
program
36.4
mm
.
H
Coolant
-
Thru
is
recommended
,
especially
when
D
2
>
0.7
x
nominal
thread
diameter
To
mount
insert
correctly
,
push
the
insert
toward
the
pocket
walls
.
Side
with
identification
marks
.
Side
without
identification
marks
.
Always
mount
all
inserts
on
the
same
side
!
Spare
parts
Stock
Dimensions
(
mm
)
Designation
No
.
of
Inserts
#
d
R
L
D
1
D
2
Da
H
ap
Wrench
screw
HSMC
25
036
-
16
-
05
T
32
33.5
5
36.0
16
38
25
044
-
22
-
06
T
44.0
22
38.0
25
6
40
48
SSTM
4
-
3.6
P
TT
-
08
P
052
-
27
-
08
T
8
48
52.0
27
60
40.0
25
036
-
16
-
05
T
-
PT
5
32
35.9
*
16
38
33.5
25
*
For
inserts
8
NPT
and
8
NPTF
use
for
CNC
program
36.4
mm
.
Standard
Thread
Application
by
Toolholder
Tooholder
Min
.
Thread
Dia
.
D
2
ISO
(
fine
)
UN
/
UNF
/
UNEF
/
UNS
BSF
BSP
(
G
)
(
mm
)
1
9
/
16
-
12
UN
;
1
5
/
8
-
14
UNS
;
1
9
/
16
-
16
UN
;
11
/
2
-
18
UNEF
;
11
/
2
-
20
UN
"
1
3
/
4
-
16
13
/
4
-
12
"
M
38
xl
;
M
39
x
1.5
;
M
39
x
2
;
M
40
x
3
HSMC
25
036
-
16
-
05
T
36.0
11
/
4
-
11
1
7
/
8
-
12
UN
;
113
/
16
-
16
UN
;
113
/
16
-
20
UN
;
115
/
16
-
8
UN
;
1
7
/
8
-
10
UNS
;
1
7
/
8
-
14
UNS
M
48
xl
;
M
48
xl
.
5
;
M
48
x
2
;
M
48
x
3
"
2
-
16
2
-
12
"
044
-
22
-
06
T
44.0
11
/
2
-
11
2
1
/
4
-
8
UN
;
2
1
/
4
-
10
UN
;
2
1
/
4
-
12
UN
;
2
1
/
4
-
14
UN
;
2
1
/
4
-
16
UN
;
2
1
/
4
-
18
UN
;
2
1
/
4
-
20
UN
;
7
/
8
-
14
UNF
;
7
/
8
-
12
UN
;
7
/
8
-
10
UNS
M
55
xl
;
M
55
x
1.5
;
M
55
x
2
;
M
56
x
3
"
2
1
/
4
-
16
2
1
/
4
-
12
"
052
-
27
-
08
T
19.0
2
-
11
353
354
A
\
Thread
Milling
for
Deep
Holes
VX
D
-
Tread
Code
System
D
TTIM
45
0015
6
7
u
Q
m
Q
(
E
)
^
^
ED
D
D
Q
Eiisiiiiitiii
nun
CTBca
Q
iaiai
.
m
.
-
i
mm
CTraca
TTIM
45
TTIM
45
Insert
size
Insert
style
S
:
Screw
on
system
R
:
Interanl
right
hand
11
=
6.35
22
=
12.7
16
=
9.525
27
=
15.875
U
:
M
\
A
;
m
EI
nnitd
m
m
OTS
ca
0
Hliliiiari
BIHI
CTEIEil
Insert
size
Q
EDQ
D
(
EESB
Cutting
diameter
TTIM
45
11
=
6.35
22
=
12.7
16
=
9.525
27
=
15.875
Q
ED
EI
E
2
E
2
E
TTIM
45
0015
=
15
mm
Insert
style
Pitch
I
:
Internal
El
:
External
+
lnternal
0
QQ
0
BIB
SEffl
Full
profile
Partial
profile
Insert
style
16
=
Shank
diameter
16
mm
TPI
TPI
mm mm
1.0
-
8.0
18
-
2.5
2.5
-
4.0
1.5
-
2.5
1.5
-
4.0
2.5
-
6.0
4.0
-
6.0
6.0
-
8.0
10
-
6
A
:
Weldon
C
:
Cylindrical
E
:
Carbide
Shank Shank
Q
cn
m
n
ncra
f
Era
a
U
:
A
:
18
-
10
shank
TTIM
45
16
-
6
10
-
4
Standard
6
-
4
60
-
Partial
Profile
60
°
ISO
-
ISO
Metric
55
-
Partial
Profile
55
°
UN
-
American
UN
TR
-
TrapezDIN
103
4
-
3
0
EHrUmitd
mm
CTT
3
f
%
i
NPT
-
NPT
Length
of
holder
Q
HKHDESESB
TTIM
45
0
)
EQQJD
(
E
)
(
^
B
TTIM
45
Deep
hole
thread
Carbide
grade
TTIM
45
TTIS
30
TTIG
30
355
356