AddDoFeed

m_545_t_01

Small diameter high feed milling solution

A great cost saving alternative for solid carbide endmills

Applications & Features

High feedDeep shoulder millingShoulder millingFace millingSlottingPocketingRampingPlungingHole enlarging

1. Small inserts, close pitch design

– Small insert design allows higher machining efficiency and reduced tool costs due to increased number of inserts

AddDoFeed 02 inserts for cutter diameters ø8 – 25 mm

Small inserts enable close pitch and rigid design

Number of inserts per diameter comparison

2. High tool rigidity

– High tool rigidity is achieved by using higher material support below each pocket and fine thread screws, allowing this small-sized cutter to successfully withstand higher cutting force

The robust design of AddDoFeed 02 insert provides excellent fracture resistance

Shallow-pitched fine threads prevent screw from self-loosening due to higher number of threads in contact

3. Effective chip evacuation

– Chip jamming and re-cutting are challenges when machining narrow grooves and small cavities. AddDoFeed insert features an inclination on the cutting edge optimized for effective chip formation, which eliminates chip re-cutting and prolongs insert tool life

Inserts & Grades

Inserts

LNMU02

  • Maximum depth of cut
    – LNMU02: 0.5 mm
Main Grades

AH130

  • High chipping and fracture resistance
  • Designed for machining austenitic stainless steel under general cutting conditions

AH3225

  • Good balance between wear and fracture resistance
  • Suitable for steel and stainless steel

AH8015

  • Good balance between wear and fracture resistance
  • First choice for machining heat-resistant alloy under general cutting conditions

Cutter bodies

Shank Type

EXN02 (ø8 – ø25 mm)

Shank type for high-feed milling

Modular Type

HXN02 (ø8 – ø25 mm)

Modular head (TungFlex) for high-feed milling

Practical examples

Part: Compressor shaft
Material: SNCM439 (42HRC)
Cutter: EXN02R010M10.0-02 (ø10, z = 2)
Insert: LNMU0202ZER-MM
Grade: AH3225
Cutting conditions: Vc = 180 (m/min)
fz = 0.6 (mm/t)
ap = 0.4 (mm)
ae = 10 (mm)
Application: Slotting
Coolant: Wet
Machine: Vertical M/C, BT30
Part: Gas turbine component
Material: SUH660
Cutter: EXN02R012M12.0-02 (ø12, z = 2)
Insert: LNMU0202ZER-MM
Grade: AH130
Cutting conditions: Vc = 60 (m/min)
fz = 0.5 (mm/t)
ap = 0.3 (mm)
ae = 8 (mm)
Application: Shoulder milling
Coolant: Wet
Machine: Vertical M/C, BT50
Part: Die and mold
Material: SNCM439 (42HRC)
Cutter: EXN02R012M12.0-02 (ø12, z = 2)
Insert: LNMU0202ZER-MM
Grade: AH8015
Cutting conditions: Vc = 151 (m/min)
fz = 0.3 (mm/t)
ap = 0.5 (mm)
ae = – 12 (mm)
Application: Pocketing
Coolant: Wet
Machine: Vertical M/C, BT50

Standard cutting conditions

30 – 40HRC

ISO Workpiece materials Hardness Priority Grades Cutting speed Vc (m/min) Feed per tooth fz (mm/t) Tool dia.: øDc (mm), Number of revolutions: n (min-1), Feed speed: Vf (mm/min), Max. depth of cut: ap = 0.5 mm, Number of teeth: CICT
ø8, CICT = 1 ø10, CICT = 2 ø12, CICT = 2 ø16 ø20 ø25
n Vf n Vf n Vf n Vf n Vf n Vf
CICT = 3 CICT = 4 CICT = 4 CICT = 5 CICT = 6 CICT = 7
Carbon steels
(S45C / C45, S55C / C55, etc)
– 300HB First choice AH3225 100 – 300 0.2 – 1.2 7,960 6,370 6,370 10,200 5,310 8,500 3,980 9,560 12,740 3,180 10,180 12,720 2,550 12,240 14,280
– 300HB For wear resistance AH8015 100 – 300 0.2 – 1.2 Vc = 200 m/min, fz = 0.8 mm/t
Alloy steels
(SCM440 / 42CrMo4, etc)
– 300HB First choice AH3225 100 – 300 0.2 – 1.2 7,960 6,370 6,370 10,200 5,310 8,500 3,980 9,560 12,740 3,180 10,180 12,720 2,550 12,240 14,280
– 300HB For wear resistance AH8015 100 – 300 0.2 – 1.2 Vc = 200 m/min, fz = 0.8 mm/t
Prehardened steels
(NAK80, PX5, etc)
30 – 40HRC First choice AH8015 100 – 200 0.2 – 0.8 5,970 2,990 4,780 4,780 3,980 3,980 2,990 4,490 5,980 2,390 4,780 5,980 1,910 5,730 6,690
For impact resistance AH3225 100 – 200 0.2 – 0.8 Vc = 150 m/min, fz = 0.5 mm/t
Stainless steels
(SUS304 / X5CrNi18-9,
SUS316 / X5CrNiMo17-12-3, etc)
– 200HB First choice AH130 100 – 150 0.2 – 0.8 4,780 2,390 3,820 3,820 3,190 3,190 2,390 3,590 4,780 1,910 3,820 4,780 1,530 4,590 5,360
Vc = 120 m/min, fz = 0.5 mm/t
Gray cast irons
(FC250 / 250 / GG25,
FC300 / 300 / GG30, etc)
150 – 250HB First choice AH8015 100 – 300 0.2 – 1.2 7,960 6,370 6,370 10.200 5,310 8,500 3,980 9,560 12,740 3,180 10,180 12,720 2,550 12,240 14,280
150 – 250HB For impact resistance AH3225 100 – 300 0.2 – 1.2 Vc = 200 m/min, fz = 0.8 mm/t
Ductile cast irons
(FCD600 / 600-3 / GGG60, etc)
150 – 250HB First choice AH8015 80 – 200 0.2 – 1.2 5,970 4,780 4,780 7,650 3,980 6,370 2,990 7,180 9,570 2,390 7,650 9,560 1,530 7,350 8,570
150 – 250HB For impact resistance AH3225 80 – 200 0.2 – 1.2 Vc = 150 m/min, fz = 0.8 mm/t
Titanium alloy
(Ti-6Al-4V, etc)
– 40HRC First choice AH130 30 – 60 0.2 – 0.7 1,590 800 1,270 1,270 1,060 1,060 800 1,200 1,600 640 1,280 1,600 510 1,530 1,790
– 40HRC For wear resistance AH8015 30 – 60 0.2 – 0.7 Vc = 40 m/min, fz = 0.5 mm/t
Heat resistant alloy
(Inconel, Hastelloy, etc)
– 40HRC First choice AH8015 20 – 50 0.1 – 0.3 1,190 240 1,000 400 800 320 600 360 480 480 390 480 380 460 540
– 40HRC For impact resistance AH3225 20 – 50 0.1 – 0.3 Vc = 30 m/min, fz = 0.2 mm/t
Hardened steel SKD61 / X40CrMoV5-1, etc 40 – 50HRC First choice AH8015 80 – 150 0.1 – 0.5 4,780 1,440 3,820 2,300 3,190 1,920 2,390 2,160 2,870 1,910 2,300 2,870 1,530 2,760 3,220
40 – 50HRC For impact resistance AH3225 80 – 150 0.1 – 0.5 Vc = 120 m/min, fz = 0.3 mm/t
SKD11 / X153CrMoV12, etc 50~60HRC First choice AH8015 50 – 70 0.1 – 0.3 2,390 480 1,910 770 1,590 640 1,190 720 960 950 760 950 760 920 1,070
Vc = 60 m/min, fz = 0.2 mm/t

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