93Tungaloy
DCX APMX RMPX A WøD1 øD2 ae
E/HXN03R016M... ø16 0.9 3.8 12.2
E/HXN03R018M... ø18 0.9 1.7° 0.27 3.8 26 34 14.2
E/HXN03R020M... ø20 0.9 1.4° 0.27 3.8 30 38 16.2
E/HXN03R022M... ø22 0.9 1.2° 0.27 3.8 34 42 18.2
E/HXN03R025M... ø25 0.9 1° 0.27 3.8 40 48 21.2
E/HXN03R028M... ø28 0.9 0.8° 0.27 3.8 46 54 24.2
E/HXN03R030M... ø30 0.9 0.7° 0.27 3.8 50 58 26.2
E/HXN03R032M... ø32 0.9 0.7° 0.27 3.8 54 62 28.2
EXN03R035M... ø35 0.9 0.6° 0.27 3.8 60 68 31.2
E/H/TXN03R040M… ø40 0.9 0.5° 0.27 3.8 70 78 36.2
TXN03R050M... ø50 0.9 0.4° 0.27 3.8 90 98 46.2
ø22 ø25 ø28 ø30 ø32 ø35 ø40 ø50
nVfnVfnVfnVfnVfnVfnVfnVf
CICT = 3 CICT = 4 CICT = 4 CICT = 5 CICT = 4 CICT = 5 CICT = 4 CICT = 5 CICT = 5 CICT = 6 CICT = 5 CICT = 6 CICT = 5 CICT = 6 CICT = 5 CICT = 8
2,890 8,670 11,560 2,550 10,200 12,750 2,270 9,080 11,350 2,120 8,480 10,600 1,990 9,950 11,940 1,820 9,100 10,920 1,590 7,950 9,540 1,270 6,350 10,160
Vc = 200 m/min, fz = 1 mm/t
2,890 8,670 11,560 2,550 10,200 12,750 2,270 9,080 11,350 2,120 8,480 10,600 1,990 9,950 11,940 1,820 9,100 10,920 1,590 7,950 9,540 1,270 6,350 10,160
Vc = 200 m/min, fz = 1 mm/t
2,170 5,210 6,950 1,910 6,120 7,640 1,710 5,480 6,840 1,590 5,090 6,360 1,490 5,960 7,160 1,360 5,440 6,530 1,190 4,760 5,720 950 3,800 6,080
Vc = 150 m/min, fz = 0.8 mm/t
1,740 3,140 4,180 1,530 3,680 4,590 1,360 3,270 4,080 1,270 3,050 3,810 1,190 3,570 4,290 1,090 3,270 3,930 950 2,850 3,420 760 2,280 3,650
Vc = 120 m/min, fz = 0.6 mm/t
1,740 2,610 3,480 1,530 3,060 3,830 1,360 2,720 3,400 1,270 2,540 3,180 1,190 2,980 3,570 1,090 2,730 3,270 950 2,380 2,850 760 1,900 3,040
Vc = 120 m/min, fz = 0.5 mm/t
1,450 1,740 2,320 1,270 2,040 2,540 1,140 1,830 2,280 1,060 1,700 2,120 990 1,980 2,380 910 1,820 2,190 800 1,600 1,920 640 1,280 2,050
Vc = 100 m/min, fz = 0.4 mm/t
2,890 8,670 11,560 2,550 10,200 12,750 2,270 9,080 11,350 2,120 8,480 10,600 1,990 9,950 11,940 1,820 9,100 10,920 1,590 7,950 9,540 1,270 6,350 10,160
Vc = 200 m/min, fz = 1 mm/t
2,170 6,510 8,680 1,910 7,640 9,550 1,710 6,840 8,550 1,590 6,360 7,950 1,490 7,450 8,940 1,360 6,800 8,160 1,190 5,950 7,140 950 4,750 7,600
Vc = 150 m/min, fz = 1 mm/t
580 1,050 1,400 510 1,230 1,530 450 1,080 1,350 420 1,010 1,260 400 1,200 1,440 360 1,080 1,300 320 960 1,160 250 750 1,200
Vc = 40 m/min, fz = 0.6 mm/t
430 390 520 380 460 570 340 410 510 320 390 480 300 450 540 270 410 490 240 360 440 190 290 460
Vc = 30 m/min, fz = 0.3 mm/t
1,740 1,570 2,090 1,530 1,840 2,300 1,360 1,640 2,040 1,270 1,530 1,910 1,190 1,790 2,150 1,090 1,640 1,970 950 1,430 1,710 760 1,140 1,830
Vc = 120 m/min, fz = 0.3 mm/t
1,160 1,050 1,400 1,020 1,230 1,530 910 1,100 1,370 850 1,020 1,280 800 1,200 1,440 730 1,100 1,320 640 960 1,160 510 770 1,230
Vc = 80 m/min, fz = 0.3 mm/t
870 530 700 760 610 760 680 550 680 640 520 640 600 600 720 550 550 660 480 480 580 380 380 610
Vc = 60 m/min, fz = 0.2 mm/t
øD1, øD2
APMX
A
Wae
RMPX
APMX
Milling
APPLICATION RANGE
- The above table shows the conditions for standard shank type cutters. When using
long shank type cutters, the number of teeth may be different. In this case, the cutting
conditions should be changed by referring to: “The usage of standard and long shanks”
shown in previous page
- Cutting conditions are generally limited by the rigidity and power of the machine and the
rigidity of the workpiece. When setting the conditions, start from half of the values of the
standard cutting conditions and then increase the value gradually while making sure the
machine is running normally
Tool dia.: DCX (mm), Number of revolutions: n (min-1), Feed speed: Vf (mm/min), Max. depth of cut: ap = 0.5 mm
Shoulder
milling Slotting
Traversing
Small depth
plunging
Ramping
Plunging Drilling
(Helical feed) Enlarged hole
For øDc above ø33 mm, slot milling, ramping or contouring is not recommended as chips may be re-cut
Not possible Not possibleNot possible Not possible
Designation Tool dia. Max. depth
of cut
Max. ramping
angle
Max. plunging
depth
Max. cutting width in
plunging
Min.machinable
hole dia.
Max.machinable
hole dia.
Max. cutting width in
enlarged hole