Sumitomo katalog 2023

Insert Selection

Grades

Negative & Positive Inserts External Holders

Boring Bars Parting-Off Grooving Threading Holders Milling Cutters

Indexable Endmills Solid Carbide Endmills

Multi-Drills

SumiBoron SumiDia CBN/PCD Inserts & Tools Guidance Spare Parts Index, App

1

Contents Insert Selection

A1 –

External Holders

D1 –

Grades

B1 –

Boring Bars

E1 –

C1 –

Grooving Holders F1 – Parting-Off Holders

C63 –

Threading Holders

Inserts

Negative Type

Inserts

Positive Type Negative

Positive

80° Diamond Type C20

C63

55° Diamond Type

C70

C29

Round Type

C74 C37

C75

60° Triangular Type C46

C80

35° Diamond Type

C55

C90

80° Trigon Type

C58

C94

Square Type

CBN Inserts

M1 –

PCD Inserts

M1 –

Guidance 2

F62 –

N1 –

Milling Cutters

G1 –

Multi-Drills

Milling Cutters

G53 –

SumiBoron

High Feed / Special Purpose Cutters

CBN Grades

SumiDia

Indexable Endmills H1 – Endmills

Coated Solid Types

Endmills

Uncoated Solid Types

Spare Parts P1 –

PCD Grades

K1 – L1 – L24 –

CBN / PCD Inserts and Tools M1 –

J1 – J36–

Index

P9 – 3

Dimension symbols are compliant with ISO13399 The following table shows ISO13399-compliant dimension symbols. Contents corresponding to the sample symbols/notations are shown below. Tool shape diagrams and stock charts use the symbols and notation examples from the table below.

(1) Inserts (For Turning / For Milling) Symbol AN APMX BS CDX CHW CW D1 DMIN IC INSL L PDX PDY PNA RE RER REL S W1 WF

Description

Symbol APMX B BD CDX CRKS DC DCB DCON DCSFMS DMIN DMM DN GAMF GAMP H HBH HBKL HBKW HBL HF KDP KWW LF LH LHD LS LSCX LU LUX WF

Clearance angle major Depth of cut maximum Wiper edge length Cutting depth maximum Corner chamfer width Cutting width Fixing hole diameter Minimum bore diameter Inscribed circle diameter Insert length Cutting edge length Profile distance ex Profile distance ey Profile included angle Corner radius Right side corner radius Left side corner radius Insert thickness Insert width Functional width

(Turning Insert Example)

(2) Tool Holders For Turning Description Depth of cut maximum Shank width Body diameter Cutting depth maximum Connection retention knob thread size Cutting diameter Connection bore diameter Connection diameter Contact surface diameter machine side Minimum bore diameter Shank diameter Neck diameter Rake angle radial Rake angle axial Shank height Head bottom offset height Head back offset length Head back offset width Head bottom offset length Functional height Groove depth Keyway width Functional length Head length Head length Shank length Clamping length maximum Usable length Usable length maximum Functional width

(External Holder Example)

RE

-5˚

B 95˚ LH

˚

S

L

80

H

4-RE

Figure shows right-handed tool.

(Grooving Tool Holder Example)

HF

CW

WF

CDX

B

L S

CW

(Grooving Insert Example)

4

LF

HF

-5˚

LF LH

H

80°

WF

D1

IC

Notes: The symbols in the above table are compliant with ISO13399 and do not include symbols unique to our company. As symbols under review are not included, these may change over time.

(3) Cutters / Indexable Endmills Symbol APMX BD BDX CBDP CRKS CW DBC DC DCB DCON DCSFMS DCX DMM DN H KDP KWW LBX LF LH LS LU OAL RMPX THUB

(4) Endmills

Description

Symbol

Depth Of Cut Maximum Body Diameter Body Diameter Maximum Connection Bore Depth Connection Retention Knob Thread Size Cutting Width Connection Bore Diameter Cutting Diameter Clamping Diameter, Nominal, on Workpiece Side Connection Diameter Contact Surface Diameter Machine Side Cutting Diameter Maximum Shank Diameter Neck Diameter Shank Height Groove Depth Keyway Width Body Length Maximum Functional Length Head Length Shank Length Usable Length Overall Length Maximum Ramping Angle Hub Thickness

DCSFMS DCB KWW LF

CBDP

KDP

(Shell Type Example)

Description

APMX CHW DC DMM DN LF LFS LU RE

Depth Of Cut Maximum Corner Chamfer Width Cutting Diameter Shank Diameter Neck Diameter Functional Length Functional Length Secondary Usable Length Corner Radius

(5) Drills / Reamers Symbol

Description

BD BDX CW DC DCB DCON DCSFMS DF DMM LBX LCF LF LFA LFS LH LPR LS LU LUX OAL PL WBTHK

Body Diameter Body Diameter Maximum Cutting Width Cutting Diameter Clamping Diameter, Nominal, on Workpiece Side Connection Diameter Contact Surface Diameter Machine Side Flange Diameter Shank Diameter Body Length Maximum Length Chip Flute Functional Length A Dimension On Lf Functional Length Secondary Head Length Protruding Length Shank Length Usable Length Usable Length Maximum Overall Length Point Length Web Thickness

D1 DC DCX

DC ±0,01

DC

DMM h5

(Endmill Example) DMM

(Shank Type Example)

RE ±0,02

APMX

LF

LS

LH LF

(Drill Example)

(Modular Type Example) LU

CRKS

140°

DCON

DC

LS OAL

LCF OAL

LS2 LF

DC h8

PL

DCON h6

L11

H

5

Notice Thank you for using the Sumitomo Electric Hardmetal General Catalogue (Sumitomo/SUMIBORON/SUMIDIA Cutting Tools Catalogue). This catalogue presents the major items in the Sumitomo Cutting Tools product line. The catalogue ist organised as follows: (1) Cutting Tool Grades (2) Sumitomo Products (3) SUMIBORON, SUMIDIA Products Ask for our brochures and pamphlets. This catalogue is current as of January 2022.

As a result ot our ongoing research, product may reflect enhancements in qualitiy, performance and specifications not listed in this catalogue. To order Sumitomo/SUMIBORON/SUMIDIA products, contact your nearest Sumitomo Electric Hardmetal dealer or distributor. For inquiries or other requests, feel free to contact your nearest sales office.

Stock Marking Chart l : Euro stock item

: Made to order item

m : Japan stock item

− : We cannot produce

q : Delivery on request

Note: Stocking policy may change without prior notice, please consult our sales representative for actual stock situation.

p : To be replaced by new item

Meaning of Icons Common

Endmill Featured for the first time in this catalogue

New

Shape 30°

Newly added to expand our selection of items

on

Expansi

Sharp edge

Corner with honing

Radius

Ballnose

Helix angle (ex.)

Grade ISO classification of work material:

Steel

Stainless Steel

Cast Iron

No. of teeth

2

3

4 Flutes

Non Ferrous Alloy

Exotic Alloy

Hardened Steel

Miling Cutter 8mm

4mm

Max. depth of cut

6

45°

Cutting edge angle

6

8

A1–A20 Insert Selection

A

Insert Selection

Insert Selection

Chipbreaker and Grade Selection

▌◄

Sumitomo Grades (Turning) ...................................... A2 Sumitomo Grades (Milling) ....................................... A3 Steel Turning Inserts .................................................. A 4–7 Stainless Steel Turning Inserts.................................. A 8–9 Cast Iron Turning Inserts............................................ A10–11 Exotic Alloy Inserts..................................................... A12–13 Hardened Steel Turning Inserts................................. A14–15 Non-Ferrous Metal Turning Inserts........................... A16–17 Small Product Machining........................................... A18–19

A1

Selection of Sumitomo Grades (Turning) General Steel (Carbon Steel, Alloy Steel), Soft Steel

Insert Selection

Work Material Classification

Wear Resistance

Q

P01

P10

Wear Resistance

P30

Q

P40

C P C

Fracture Resistance

K01

Q

K10

AC4010K C

K20

AC4015K

AC6040M

AC630M

K30

C

C

AC420K

C

C

C

AC8025P

P

AC1030U

P

AC1030U

P

AC530U

P

AC530U

AC1030U

P

P

AC530U

T1500Z

P

Coated Cermet

Wear Resistance

C

AC6030M

AC8035P Small Product Machining

Fracture Resistance

C

AC8025P

Cast Iron

M01 M10 M20 M30 M40

AC6020M

AC8020P

Coated Carbide

Fracture Resistance C

AC8015P New

P20

Stainless Steel

New

P

T2500Z P T3000Z

T1000A

T1000A

T1000A

T1500A

Cermet

T1500A

T2500A

G10E

Carbide

BN7000 Uncoated CBN Coated CBN

New New P

Exotic Alloy

Work Material Classification

Wear Resistance New

Coated Carbide

S01

Q P

S10

Wear Resistance

S30

Q

H10

H20

P

AC5015S

P

BNS8125

Non-Ferrous Metal Wear Resistance

Classification

Q

Fracture Resist.

N01 N10 N20 N30

H1

P

AC503U

DA90 DA150 DA1000

PCD

AC5025S Work Material

EH510 EH520

Coated CBN

Powdered Metal Wear Resistance

Classification

BNC2010 BNC2020 P New P BNC2125 New P BNC2115

P

BNC300

Work Material Classification

BN350

BNS800

▌◄

: 2nd Recommendation

P

20

30

AC5005S

BN7115 BN7000

Cemented Carbides and Hard Brittle Materials Wear Resistance

Q

01

10

Fracture Resist.

20

30

NPD10

PCD

C : CVD Coating

10

T1000A

Cermet

New

BNX20

: 1st Recommendation

New

Uncoated CBN

BN2000

BN7000

Fracture Resist.

01

Q

Coated Carbide

BN1000

NCB100

A2

H30

BNC8115

Carbide

P

Uncoated CBN

H01

Fracture Resistance

AC5005S

P

Carbide

S20

Work Material

Hardened Steel

Fracture Resistance

BNC500

P

DA90

P

: PVD Coating

Blank: Uncoated

Selection of Sumitomo Grades (Milling) Classification

Wear Resistance

Q

Fracture Resistance

P01

P10 P C

New

P20

P30

P40

Stainless Steel Wear Resistance

Q

Fracture Resistance

M01 M10 M20 M30 M40

ACU2500

P

New

C

XCU2500

Cast Iron Wear Resistance

Q

Fracture Resistance

K01

ACU2500

XCU2500

P

ACP2000 Coated Carbide

ACM200

P

ACM300 P

C

ACP200 P

ACP300

Cermet

T2500A T250A T4500A

Carbide

A30N

ACK100

ACK300

P

P

C

ACK3000

P

ACP100

C

C

ACK2000

C

K30

ACU2500

XCK2000

ACM100 P

ACP3000

P

K20

XCU2500

New

C

New C

K10

Insert Selection

General Steel (Carbon Steel, Alloy Steel), Soft Steel

Work Material

C

ACK200

ACP300

C

ACK300

P

T2500A T250A T4500A A30N

G10E BN7000

Uncoated CBN Coated CBN

New

P

New

Exotic Alloy

Work Material Classification

Wear Resistance

Q

S01 P P

Coated Carbide

S10

S20

S30

Wear Resistance

S40

Q

H01

Fracture Resistance

H10

H20

ACU2500

BNS8125

Non-Ferrous Metal

Hardened Steel

Fracture Resistance

BNC8115

H30

Wear Resistance

Q

Fracture Resistance

N01

N10

N20

N30

P

DL1000

P

DL2000

ACM100 ACM200 P

P

C

ACM300

ACK300

H1

EH520

Carbide

H20 BN350

Uncoated CBN

BN7000 DA1000

PCD

: 1st Recommendation

: 2nd Recommendation

C : CVD Coating

P

: PVD Coating

▌◄

Blank: Uncoated

A3

Insert Selection

Steel

Turning Insert Selection Guide Main Chipbreakers

Negative Type

Positive Type NMU

NMU 6

NGU

NGU NGE 2

Depth of Cut (mm)

Depth of Cut (mm)

NGE

(Crater- and Wear-Resistant)

4

(Sharper Edge)

NSU

NSU NSE NFE

0

Feed Rate (mm/rev)

2

NSU

NGU NLB

NLB 1

FB

NLU

NLU

NFB

0

0,6

0,4

NMU

NSU

NFB

NSE 0,2

NGU

3

NME

NMU NME

0,2

0,4

Feed Rate (mm/rev)

NFE

Sub-Chipbreakers Negative Type

Chipbreakers for High‑Efficiency Machining 6

NME

Depth of Cut (mm)

Depth of Cut (mm)

6

Strong Edge Chipbreakers

4

2

NGE

NSE

NMX

4 NUX

2 NSX

NFE

0

0,2

0,4

0,6

0,8

0

Feed Rate (mm/rev)

Chipbreakers for Small Depths

0,4

Chipbreakers for Heavy Cutting 15

Depth of Cut (mm)

2 NLU

NFE NFB NFA

0

0,2

0,4

0,6

4

Depth of Cut (mm)

6

1

0,6

Wiper Inserts

3

Depth of Cut (mm)

0,2

Feed Rate (mm/rev)

NGU-W

2

NSE-W NLU-W

0

0,3

0,6

10

5

NHU NHP

NMP

0,9

0

Feed Rate (mm/rev)

Feed Rate (mm/rev)

NHF

NHW

0,4

0,8

1,2

1,6

Feed Rate (mm/rev)

Grades Fine Finishing to Finishing

Finishing to Rough Cutting (m/min)

400

T1000A

T1500Z

300

T1500A

200

Cutting Speed (vc)

Cutting Speed (vc)

(m/min)

New

T2500Z

Interrupted to Heavy Interrupted Cutting

AC8035P

100

400

AC8015P

300

AC8020P

AC8025P

200 100

New

AC6030M

AC8035P

AC1030U 0

Finishing

Continuous Cutting

A4

0

Roughing

General Cutting

Interrupted Cutting

Finishing

Continuous Cutting

▌◄

Roughing

General Cutting

Interrupted Cutting

Steel

Recommended Cermet Grades Uncoated Cermet

Coated Cermet

T1000A High-hardness cermet with outstanding wear resistance and toughness. Realises high dimensional accuracy for continuous steel machining or finishing of Sintered Alloy or cast iron. T1500A General-purpose cermet made from hard grains with different grain sizes, delivering functionality that provides an excellent balance of wear resistance and toughness. Also achieves good surface finish quality. T1500Z Employs Brilliant Coat PVD coating with excellent lubricity to provide better wear resistance and consistent surface finishes in low-speed cutting applications such as machining of small products or low carbon steel. T2500Z A new cermet substrate with excellent thermal conductivity is used to achieve outstanding thermal crack resistance. Also uses Brilliant Coat, which has excellent lubricity.

Insert Selection

T1000A / T1500A / T1500Z / T2500Z

Grades

New

Performance T1000A Flank Wear Width (mm)

Wear Resistance 0,20

Fracture Resistance Competitor’s Cermet (P10)

0,15

Conventional Grade

T1000A

0,10

Exhibits excellent wear resistance.

0,05 5

0

10 15 Cutting Time

20

Work Material: 34CrMo4 Insert: CNMG120408NSU Cutting Data: vc = 320 m/min, f = 0,20 mm/rev, ap = 1,5mm, dry

Provides excellent fracture resistance in addition to wear resistance. Work Material: 34CrMo4, Insert: CNMG120408NSU Cutting Data: vc = 230 m/min, f = 0,20 mm/rev, ap = 1,0 mm, wet

T1000A Competitor’s Cermet (P10) Conventional Grade

25

0

1.000

2.000 3.000 No. of Impacts

4.000

5.000

T1500A Flank Wear Width (mm)

Wear Resistance

Machined Surface Finish

0,20

Conventional Grade

0,15

Competitor’s Cermet (P20)

0,10

T1500A

0,05

1,5 times better wear resistance!

5

0

10

15 20 Cutting Time (min)

Beautiful glossy finished surfaces after facing.

Work Material: 34CrMo4 Insert: CNMG120408NSU Cutting Data: vc = 230 m/min, f = 0,20 mm/rev, ap = 1,0 mm, wet 25

T1500Z Flank Wear Width (mm)

Wear Resistance Competitor's Coated Cermet 0,15 (P20)

Conventional Grade

0,10 0,05

T1500Z 10

T1500A

Competitor’s Cermet (P20)

Machined Surface Finish

0,20

0

Work Material: C45 Insert: CNMG120408NLU Cutting Data: vc = 150 m/min, f = 0,12 mm/rev, ap = 1,0 mm, wet

20 30 40 Cutting Time (min)

Work Material: 34CrMo Insert: CNMG120408NSU Cutting Data: vc = 230 m/min, f = 0,20 mm/rev, ap = 1,0 mm, wet

Work Material: 21NiCrMo2 Insert: DNMG150408NSU Cutting Data: vc = 150 m/min, f = 0,20 mm/rev, ap = 1,0 mm, wet

Reduces cloudy finish on machined surfaces.

50

T1500Z

Competitor’s Cermet (P20)

T2500Z Flank Wear Width (mm)

Wear Resistance

Fracture Resistance

0,25

Competitor's 0,20 Coated Cermet (P30) 0,15

T2500Z

Convent. Grade

0,10

1,5 times

0,05

tool life

0

Work Material: 34CrMo Insert: CNMG120408NSU Cutting Data: vc = 260 m/min, f = 0,23 mm/rev, ap = 1,5 mm, wet

T2500Z Competitor’s Cermet (P30) Conventional Grade

10 20 30 Machining Time (min)

8.123 1.168 3.888

At least twice the fracture resistance

0 2.000 4.000 6.000 8.000 10.000 Number of times impact can be sustained before breakage occurs (each corner)

Recommended Cutting Conditions Work Material Soft Steel Alloy Steel Carbon Steel High Carbon Steel Carbon Steel

Work Material: 34CrMo Insert: DNMG120408NSU Cutting Data: vc = 260 m/min, f = 0,23 mm/rev, ap = 1,5 mm, wet

Cutting Process

Chipbreaker

Grades

Fine Finishing Finishing Fine Finishing Finishing Medium Fine Finishing Finishing Medium

NFA / NFL NLU NFA / NFL NSU / NSE NGU NFA / NFL NSU / NSE NGU

T1500Z T3000Z T1500A T1500A T1500Z T1000A T1500Z T1500Z

(Min. - Optimum - Max.)

Depth of Cut (mm) 0,2–0,5–1,0 0,3–1,0–1,8 0,2–0,5–1,0 0,5–1,0–2,0 0,8–2,2–4,0 0,2–0,5–1,0 0,5–1,0–2,0 0,8–2,2–4,0

▌◄

Feed Rate (mm/rev) 0,05–0,15–0,25 0,08–0,20–0,35 0,05–0,15–0,25 0,08–0,20–0,35 0,15–0,25–0,50 0,05–0,15–0,25 0,08–0,20–0,35 0,15–0,25–0,50

Cutting Speed (m/min) 150–280–400 150–280–400 100–200–300 100–200–300 100–200–300 50–150–250 50–150–250 50–150–250

A5

Steel

Recommended Carbide Grades

Insert Selection

New

AC8015P / AC8020P / AC8025P / AC8035P / AC1030U

Grades

Covers a wide range of machining applications from high-speed cutting to interrupted cutting and small lathe machining.

AC8015P

Development of crater damage is suppressed by controlling the orientation of the alumina crystal grains. Achieves long, stable tool life during high-speed and high feed cutting. Alumina coating with even higher strength balances outstanding stability and wear resistance in mill-scale work on forged material. Goldcolored coating makes used corners easily identifiable. The 1st recommendation grade for turning steel. Surface smoothing technology significantly suppresses adhesion of work material components. Achieves long, stable tool life with various cutting speeds and work materials.

AC8020P AC8025P AC8035P

Tensile stress removal of the coating layer greatly improves fracture resistance. Achieves long, stable tool life during heavy interrupted cutting.

AC1030U

Employs a new PVD coating and a dedicated tough carbide substrate. High-quality cutting edge grade suppresses adhesion and microchipping, realizing excellent machined surface quality.

Performance AC8015P

AC8020P

Alumina crystal grain orientation control technology suppresses crater damage due to chip abrasion.

Alumina coating with even higher strength suppresses chipping.

AC8015P

Conventional Tool 5 min

AC8020P

Conventional Tool 5 min

400 impacts

Minor wear

TiCN layer exposed 14 min

400 impacts

Minimal chipping

Minor damage

17 min

End of tool life

1600 impacts

TiCN layer exposed

1600 impacts

Tool life

Minor damage

20 min

Crater damage progression due to peeling of alumina layer. Work Material: 100Cr6 /(external contiuous) Insert: CNMG120408NGU Cutting Data: vc = 300 m/min, f = 0,3 mm/rev, ap = 1,5 mm, wet

Chipping End of tool life Suppresses crater damage due to chip abrasion

Twice the crater wear resistance

AC8025P AC8025P

Chipping

Normal wear 70 min

Conventional Tool

AC8035P Feed Rate (mm/rev)

70 min

2,5x chipping resistance or more

Special surface treatment reduces tensile stress in the coating layer, significantly suppressing breakages.

2 min

Adhesion

Balance of high wear resistance and stability

Feed Rate (mm/rev)

2 min

Minimal chipping

AC8035P

Surface smoothing treatment significantly suppresses adhesion and chipping. Conventional Tool

4000 impacts

Work Material: 34CrMo4/(incl. intermittent forge sections) Insert: CNMG120408NGU Cutting Data: vc = 250 m/min, f = 0,3 mm/rev, ap = 1,5 mm, wet

0,20 0,25 0,30 0

250 No. of Impacts

500

0,20 0,25 0,30 0

250 No. of Impacts

500

Minor damage only, able to continue 120 min

Unable to continue Work Material: 15CrMo5 (Face) Insert: CNMG120408NGU Cutting Data: vc = 100–300 m/min, f = 0,3 mm/rev, ap = 1,5 m, wet

A6

Unable to continue

Minor damage only, able to continue Suppresses adhesion with ultrasmooth surface

Work Material: 34CrMo4 (external interrupted) Insert: CNMG120408NGU Cutting Data: vc = 160 m/min, f = 0,2–0,3 mm/rev, ap = 2,0 mm, dry

Twice the adhesion fracture resistance

▌◄

All corners able to continue Suppresses crack growth and breakages by reducing tensile stress

Twice the fracture resistance

Steel 1st Recommendation

1st Recommended Grade General Purpose

NGU

AC8025P

Chipbreakers for High-efficiency Machining Finish – Small Depth

NFE

General Purpose Rough – Larger Cutting Depth

Main Chipbreakers

NSE

To improve tool life at small depths of cut

To improve finishing efficiency

Strong Cutting Edge Chipbreakers

NSU

NSX

NGE

NGU

NUX

NME

NMU

NMX

For High-speed Continuous Machining of Mild Steel High Speed

Insert Selection

Grades and Chip breaker Selection Guide

For Heavy Interrupted Cutting Emphasizing Stability

AC8015P NFE

Interrupted Cut

1,40 0,70

NSE

0,1 5°

NGU

To improve tool life

20°

1,5

To improve machining stability

17°

AC8035P

NUX

For High-efficiency Machining of High Carbon Steel and Forged Steel High Efficiency

To increase feed rate

AC8020P

NGE

To increase cutting speed

NGU

Recommended Cutting Conditions Work Material

Cutting Process

Fine Finishing Continuous General–Interrupted (SS400, C15, etc.) Heavy Interrupted Medium to High Fine Finishing Carbon Steel Continuous–General Alloy Steel, Hard Interrupted Steel (C45, 34CrMo4, etc.) Heavy Interrupted Soft Steel Low Carbon Steel

Chipbreaker

Grade

NFB, NFE NGU, NGE NGU, NGE NMU, NME NFB, NFE NGU, NGE NGU, NGE NMU, NME

T1500Z AC8015P AC8025P AC8035P T1500Z AC8020P AC8025P AC8035P

(Min. - Optimum - Max.)

Depth of Cut (mm) 0,2–0,6–1,0 1,0–2,5–4,0 1,0–2,5–4,0 1,5–4,0–6,0 0,2–0,6–1,0 1,0–2,5–4,0 1,0–2,5–4,0 1,5–4,0–6,0

▌◄

Feed Rate (mm/rev) 0,05–0,15–0,25 0,1–0,25–0,4 0,2–0,35–0,5 0,3–0,45–0,6 0,05–0,15–0,25 0,2–0,35–0,5 0,2–0,35–0,5 0,3–0,45–0,6

Cutting Speed (mm/min) 100–250–400 260–350–440 200–260–320 140–150–220 50–200–300 150–235–290 130–165–230 90–135–160

A7

Turning Insert Selection Guide Chipbreakers

Negative Type

Positive Type

6,0 –

Depth of Cut (mm)

NEM (NMU)

NEG

NEM

4,0

NEX

NMU

3,0

4,0 –

NGU NEX NGU NEG

( )

2,0 –

NEF

NSU (NEF)

l 0,2

0

l 0,4

Depth of Cut (mm)

Insert Selection

Stainless Steel

NMU

NSU

NSU

2,0

1,0

LU Type

LB NLB

NLU

NLU

NSU

l 0,6

NGU

NMU

NGU

0

NLB 0,2

0,4

Feed Rate (mm/rev)

Feed Rate (mm/rev)

Grades (m/min) 200

Cutting Speed (vc)

High Speed, High Efficiency Cutting

AC6020M

150

Wide Cutting Range

AC6030M

100 Small Product Machining

AC1030U

Heavy Interrupted Cutting

AC6040M

AC630M

50

AC530U

Finishing

Roughing

Continuous Cutting

General Cutting

Interrupted Cutting

Recommended Cutting Conditions Work Material

CrBased

Ferritic Materials Martensitic Materials Austenitic Materials

Two-Phase Cr/Ni- (Austenite / Based Ferrite) Materials

Precipitation Hardening

A8

X6CrAl 13, X8CrNiS 18 9, X29CrS 13, X6CrMoS 17, X12CrS 13 X12Cr 13, X20Cr 13, X30Cr 13, X6Cr 17, X19CrNi 17 2, X6CrNi 18 9 X5CrNi 18 10, X2CrNi 19 11, X2CrNiMo 18 10, X4CrNiMo 17 12 2, X2CrNiMo 17 12 2, X5CrNiMo 17 13, X6CrNiTi 18 10, X70CrMo 15 X5CrNi 17 7, X2CrNi 18 9, X6CrNi 25 20, X2CrNiMoN 17 12 2, X6CrNiNb 18 10 X5CrNiCuNb 16 4, X7CrNiAl 17 7, X4CrNuMo 27 5 2, X2CrNiMoN 22 5 3, X2CrNiMoCuN 25 6 3

(Min. - Optimum - Max.)

Cutting Range

Chipbreaker

Grade

Finishing Medium Roughing Finishing Medium Roughing Finishing Medium Roughing Finishing Medium Roughing Finishing Medium Roughing

NEF (NSU) NEG · NGU · NEX NEM NEF (NSU) NEG · NGU · NEX NEM NEF (NSU) NEG · NGU · NEX NEM NEF (NSU) NEG · NGU · NEX NEM NEF (NSU) NEG · NGU · NEX NEM

AC6020M AC6030M AC6040M AC6020M AC6030M AC6040M AC6020M AC6030M AC6040M AC6030M AC6030M AC6040M AC6030M AC6030M AC6040M

▌◄

Cutting Conditions Depth of Cut ap (mm) 0,5–1,5–2,0 1,0–2,5–4,0 1,5–3,5–6,0 0,5–1,5–2,0 1,0–2,5–4,0 1,5–3,5–6,0 0,5–1,5–2,0 1,0–2,5–4,0 1,5–3,5–6,0 0,5–1,5–2,0 1,0–2,5–4,0 1,5–3,5–6,0 0,5–1,5–2,0 1,0–2,5–4,0 1,5–3,5–6,0

Feed Rate f (mm/rev) 0,05–0,15–0,25 0,10–0,25–0,40 0,20–0,35–0,60 0,05–0,15–0,25 0,10–0,25–0,40 0,20–0,35–0,60 0,05–0,15–0,25 0,10–0,25–0,40 0,20–0,35–0,60 0,05–0,15–0,25 0,10–0,25–0,40 0,20–0,35–0,60 0,05–0,15–0,25 0,10–0,25–0,40 0,20–0,35–0,60

Cutting Speed vc (m/min) 170–230–300 140–170–250 140–170–200 120–180–240 100–150–200 80–130–180 120–180–240 100–150–200 80–130–180 100–145–180 80–120–160 70–100–140 90–115–140 70–90–110 50–80–120

Stainless Steel

Recommended Grades and Chipbreakers

AC6020M Employes "Absotech Platinum", a new CVD coating. The first recommended grade for continuous stainless steel machining that

achieves a good balance between wear resistance and fracture resistance by combining a hardened substrate with excellent wear resistance. AC6030M Employes "Absotech Platinum", a new CVD coating. The first recommended grade for general machining of stainless steel that drastically reduces the occurrence of abnormal damage, which is a problem in stainless steel machining. Achieves long and stable machining thanks to the improved coating strength and excellent adhesion.

Insert Selection

AC6020M / AC6030M / AC6040M / AC1030U

Grades

AC6040M Employes "Absotech Bronze", a new PVD coating and exclusive tough carbide substrate. The first recommended grade for

interrupted machining of stainless steel that drastically improves the reliability in unstable machining thanks to the excellent adhesion and peel-off resistance of the new PVD coating as well as the improved fracture resistance of the exclusive carbide substrate.

AC1030U Employes "Absotech Bronze", a new PVD coating with a special tough carbide substrate. Achieving excellent machined surface quality with a high-quality cutting edge that reduces adhesion and micro-chipping.

Performance AC6020M Continuous Cutting (Medium Speed) 0,40

Continuous Cutting (High Speed) 0,25

Conventional Grade

Comp. A (CVD, M20)

Flank Wear Width (mm)

Flank Wear Width (mm)

0,50

0,30

AC6020M

0,20 0,10 0

10 20 Cutting Time (min)

Comp.B (CVD, M20)

0,20 0,15

AC6020M

0,10 Conventional Grade

0,05

30

0

Work Material: X2CrNiMo17 13 2 Insert: CNMG 120408 NGU Cutting Conditions: vc = 150 m/min, f = 0,3 mm/rev, ap = 2,0 mm, wet

10 20 Cutting Time (min)

30

Work Material: X2CrNiMo17 13 2 Insert: CNMG 120408 NGU Cutting Conditions: vc = 200 m/min, f = 0,3 mm/rev, ap = 2,0 mm, wet

AC6030M Continuous Cutting

Flank Wear Width (mm)

0,30 0,25

Interrupted Cutting

Comp. C (CVD, M30)

AC6030M

Conventional Grade

0,20

Conventional Grade

0,15 0,10

AC6030M

Comp. D (CVD, M30)

0,05 0

10

20

30

40

50

0

Cutting Time (min) Work Material: X6CrMo17 12 2 Insert: CNMG 120408 NEX Cutting Conditions: vc = 200 m/min, f = 0,2 mm/rev, ap = 2,0 mm, wet

Flank Wear Width (mm)

0,25

2.000

2.500

Interrupted Cutting AC6040M

Conventional Grade

0,15 0,10

Conventional Grade

AC6040M

Comp. F (PVD, M40)

0,05 10

1.500

Work Material: X6CrMo17 12 2 Insert: CNMG 120408 NGU Cutting Conditions: vc = 100 m/min, f = 0,1 mm/rev, ap = 1,0 mm, wet

Comp. E (PVD, M40)

0,20

0

1.000

AC6040M

Continuous Cutting 0,30

500

No of Impacts until Breakage

20

30

Cutting Time (min)

40

0

50

1.000

2.000

3.000

4.000

5.000

6.000

No of Impacts until Breakage

Work Material: X6CrMo17 12 2 Insert: CNMG 120408 NGU Cutting Conditions: vc = 150 m/min, f = 0,2 mm/rev, ap = 2,0 mm, wet

Work Material: CNMG 120408 NGU Insert: CNMG 120408 NGU Cutting Conditions: vc = 230 m/min, f = 0,23 mm/rev, ap = 0,80 mm, dry

▌◄

A9

Cast Iron

Turning Insert Selection Guide L18-L23

BNC500 / BN7000 / BNC8115 / BNS8125

Negative Type

Positive Type

Depth of Cut

NGZ

2,0 NGU 0

0,2

0,4

0,6

NGZ

NUZ

No breaker

4,0

2,0

NMU NMU

NGU

Sharp Edge

0

Strong Edge

0,2

0,4

Roughing

0,6

No breaker NMU

Sharp Edge

Strong Edge

Feed Rate (mm/rev)

NUZ

Feed Rate (mm/rev)

Large

6,0

Finishing Medium Cutting

NUZ NGU

No breaker

NME

Depth of Cut

NME

NGZ 4,0

Large

NME

Finishing

No breaker

6,0 Depth of Cut

(mm) Medium Cutting Roughing

(mm)

Depth of Cut

Insert Selection

Chipbreakers

Grades Grey Cast Iron (GG)

Ductile Cast Iron (GGG)

(m/min) 2.500

(m/min)

High Speed, Continuous Cutting

2.000

BN7000

New

BNC8115

New

500

AC4010K

Cutting Speed (vc)

Cutting Speed (vc)

1.000

Continuous Cutting

BNS8125

Mill-Scaled Work, Interrupted Cutting

300 200

AC4015K

300

200

Continuous Cutting

AC4010K BNC500

AC4015K

100

AC8025P Finishing

Roughing

General Cutting

AC8025P Finishing

Interrupted Cutting

Roughing

Continuous Cutting

General Cutting

Recommended Cutting Conditions Work Materials

Cutting Process

Gray Cast Iron (GG‑25, etc.)

Interrupted

Ductile Cast Iron (GGG‑40.3, etc.)

High-strength Ductile Cast Iron (GGG‑70, etc.)

A10

Mill-Scaled Work, Interrupted Cutting

AC420K

AC420K

100

Continuous Cutting

High Speed, Continuous Cutting

500

Interrupted Cutting

(Min. - Optimum - Max.)

Cutting Conditions

Grades

Depth of Cut ap (mm/rev)

Feed Rate f (mm/rev)

Cutting Speed vc (m/min)

High Speed Cutting

BN7000

0,1–0,3–1,0

0,10–0,20–0,50

500–1.500–2.000

Continuous – General

AC4010K

0,5–2,0–6,0

0,10–0,25–0,40

200–400–700

AC4015K

0,5–2,0–6,0

0,10–0,30–0,50

180–300–450

Heavy Interrupted

AC420K

0,5–2,0–6,0

0,10–0,30–0,60

150–200–300

High Speed Cutting

BNC500

0,1–0,2–0,5

0,10–0,20–0,40

150–350–500

Continuous – General

AC4010K

0,5–2,0–6,0

0,10–0,25–0,40

180–300–450

Interrupted

AC4015K

0,5–2,0–6,0

0,10–0,30–0,50

160–250–400

Heavy Interrupted

AC420K

0,5–2,0–6,0

0,10–0,30–0,60

120–170–250

High Speed Cutting

BNC500

0,1–0,2–0,5

0,10–0,20–0,40

200–350–500

Continuous – General

AC4010K

0,5–2,0–6,0

0,10–0,25–0,40

160–250–400

Interrupted

AC4015K

0,5–2,0–6,0

0,10–0,30–0,50

140–200–350

Heavy Interrupted

AC420K

0,5–2,0–6,0

0,10–0,30–0,60

80–150–220

▌◄

Cast Iron

Recommended Grades and Chipbreakers Grades

Insert Selection

AC4010K / AC4015K / AC420K

AC4010K The 1st recommended grade for machining grey cast iron. Adopts an ultra-thick new CVD coating to realise ultra-high-speed machining at Vc = 700 m/min.

AC4015K The 1st recommendation grade for ductile cast iron. New high-adhesion, high-strength CVD coating realises both wear resistance and chipping resistance.

AC420K

Superior fracture resistance, providing excellent stability in interrupted unstable cutting and when cutting mill-scaled work.

Performance AC4010K / AC4015K Wear Resistance, Gray Cast Iron (GG) Competitor

0,3

■ ◆

■

Wear Resistance, Ductile Cast Iron (GGG) ■

0,4

◆

Conventional ●

◆

0,2

●

■

●

●

◆ ●

0,1 ◆ ■

Flank Wear Width (mm)

Flank Wear Width (mm)

0,4

AC4010K

●

0

2

NGZ AC4010K

4 6 Cutting Time (min)

8

Conventional

10

■

0,3

AC4010K

■ ●

● ■

● ■ ●

●

■

● ●

● ●

● ●

●

●

●

● ●

AC4015K

●

■ ●

0

Competitor

●

■

0,2 0,1

●

Competitor

5

10

15 20 Cutting Time (min)

12 min

12 min

NGZ AC4010K

NGZ AC4015K

25

30

12 min

Competitor

Work Material: GGG-70, Continuous, Insert: CNMG120408 Cutting Conditions: vc = 140 m/min, f = 0,3 mm/rev, ap = 1,5 mm, wet

Work Material: GG-25, Continuous, Insert: CNMG120408 Cutting Conditions: vc = 600 m/min, f = 0,4 mm/rev, ap = 2,0 mm, dry

AC4010K / AC4015K Chipping Resistance, Gray Cast Iron (GG) Minimal Chipping

Chipping Resistance, Ductile Cast Iron (GGG) 400

Minimal Chipping

300 200 100

10 min

0

10 min

NGZ AC4010K

NGZ AC4015K

Chipping on Flank Surface

Chipping on Rake Surface

6 min

AC4010K AC4015K Conventional Competitor NGZ NGZ

4 min

4 min

NGZ AC4010K

NGZ AC4015K

4 min

4 min

6 min

Conventional

Competitor

Conventional

Competitor

Work Material: GGG-40.3, Interrupted, Insert: CNMG120408 Cutting Conditions: vc = 450 m/min, f = 0,3 mm/rev, ap = 1,5 mm, wet

Work Material: GG-25, Interrupted, Insert: CNMG120408 Cutting Conditions: vc = 400 m/min, f = 0,3 mm/rev, ap = 2,0 mm, wet

AC420K Fracture Resistance GGG-40.3 Grooved (Heavy Interrupted Acceleration Test)

Edge Wear Comparison (After 150s)

AC420K Competitor‘s Product D (K15) Competitor‘s Product E (K20)

AC420K

Great improvements in fracture resistance 100

150 200 Tool Life sec.

Competitor‘s Product D (K15)

Competitor‘s Product E (K20)

Work Material: GGG-40.3, Toolholder: PCLNR2525-43 Insert: CNMG120408 Cutting Conditions: vc = 350 m/min, f = 0,25 mm/rev, ap = 1,5 mm, wet

300

▌◄

A11

Exotic Metal

Turning Insert Selection Guide

Insert Selection

Chipbreakers Negative Type

Positive Type NEM NEM

NEG

NGU

NEG

NMU

NEX (NUP)

2,0

NMU Depth of Cut (mm)

Depth of Cut (mm)

4,0

NUP NEX

NEF (NSU) 0,1

0,2

0,3

0,4

Feed Rate (mm/rev)

NSU

NSI NGU

NSI

NSU

2,0

R/LFX R/LFX R/LFY

NFC

NSU 0

4,0

0

0,1

0,2

0,3

R/LFY

0,4

Feed Rate (mm/rev)

NEF

NFC

Grades 300

Cutting Speed vc (m/min)

CBN

150

100

BN7000

Coated Carbide

AC5005S New

Coated Carbide

AC5015S/ Cemented Carbide

EH510

50

Coated Carbide

AC5025S/

Cemented Carbide

EH520

0

Finishing

Continuous Cutting

Roughing

General Cutting

Interrupted Cutting

Recommended Cutting Conditions Work Material

Heat-Resistant Alloy

Cutting Process

Chipbreakers

Finishing

NEF (NSU)

Light

NEX

Medium

NEG

Rough

NMU/NEM

Finishing

NEF (NSU)

Light

NEX

Medium

NEG NMU/NEM

Titanium Alloy Rough

A12

(Min. - Optimum - Max.)

Depth of Cut (mm)

Feed Rate (mm/rev)

Cutting Speed (m/min)

0,2–0,5–1,5

0,10–0,12–0,20

50–70–110

0,5–1,0–3,0

0,10–0,20–0,30

40–60–90

0,5–2,0–4,0

0,15–0,25–0,30

40–60–90

1,0–2,0–4,0

0,20–0,25–0,40

30–55–80

0,2–0,5–1,5

0,10–0,15–0,20

50–65–80

0,5–1,0–2,5

0,10–0,20–0,25

40–55–70

EH510 (AC5005S, AC5015S)

0,5–2,0–3,5

0,15–0,25–0,30

40–55–70

AC5025S

1,0–2,0–3,5

0,20–0,25–0,30

30–40–50

Grades AC5005S AC5015S AC5025S AC5005S AC5015S AC5025S AC5005S AC5015S AC5025S AC5015S AC5025S EH510 (AC5005S, AC5015S) AC5005S AC5015S

▌◄

Exotic Metal

Recommended Grades and Chipbreakers New

PVD grade with excellent wear and thermal resistance.

Carbides with excellent thermal, wear, and fracture resistance for use with exotic alloys. Lineup also includes new chipbreaker design.

AC5005S High-speed, high-efficiency grade with great high-

temperature strength, which realises excellent wear resistance in high-efficiency machining.

Insert Selection

AC5005S / AC5015S / AC5025S / EH510 / EH520

Grades

EH510 General purpose grade for titanium machining that fea-

tures excellent wear and thermal resistance. For applications from roughing to finishing.

AC5015S The 1st recommended grade for turning exotic alloys as it realises stable tool life with high-speed, high-efficiency machining.

EH520 Tough grade for titanium machining with excellent frac-

ture and thermal resistance. Perfect for interrupted cutting and mill-scaled work.

AC5025S High-toughness grade for realising stable tool life for interrupted cutting machining or mill-scaled work.

Performance AC5005S Wear Resistance (High-speed) 0,3

Wear Resistance (High-feed)

12 min

0,3

0,2

Flank Wear Width (mm)

Flank Wear Width (mm)

AC5005S 12 min Competitor 0,1

0

5

Wear Resistance 10

15

2x

20

AC5005S 0,2 Competitor 0,1

Wear Resistance

0

25

5

Cutting Time (min)

1,5x

10

15

20

Cutting Time (min) Work Material: Inconell 718 (44 HRC), Insert: CNMG120408 NEG Cutting Conditions: vc = 50 m/min, f = 0,25 mm/rev, ap = 1,2 mm, wet

Work Material: Inconel 718 (44 HRC) Insert: DNMG150408 NEF Cutting Conditions: vc = 100 m/min, f = 0,15 mm/rev, ap = 0,5 mm, wet

AC5015S 13 min

Wear Resistance

Fracture Resistance 25

AC5015S

Competitor

13 min

0,4

Cutting Time (min)

Flank Wear Width (mm)

0,5

0,3 0,2 0,1

0

5

10

15

Wear Resistance

2x

20

30

25

1,5x

20 15 10 5 0

35

AC5015S

Cutting Time (min)

Conventional

Competitor

Work Material: Hastelloy (22 HRC), Insert: CNMG120408 NEX Cutting Conditions: vc = 50 m/min, f = 0,1 mm/rev, ap = 1,5 mm, wet

Work Material: Inconel 718 (44 HRC) Insert: CNMG120408 NEX Cutting Conditions: vc = 40 m/min, f = 0,1 mm/rev, ap = 1,5 mm, wet

AC5025S

Flank Wear Width (mm)

0,4

Fracture Resistance

9 min

60

Competitor

AC5025S

0,3

9 min

0,2 0,1

0

Wear Resistance 5

10 15 Cutting Time (min)

2,5x 20

1,5x

50 Cutting Time (min)

Wear Resistance

40 30 20 10

25

0

AC5025S

Conventional

Competitor

Work Material: Hastelloy (22 HRC), Insert: CNMG120408 NEX Cutting Conditions: vc = 50 m/min, f = 0,1 mm/rev, ap = 1,5 mm, wet

Work Material: Inconel 718 (44 HRC) Insert: CNMG120408 NEX Cutting Conditions: vc = 40 m/min, f = 0,1 mm/rev, ap = 1,5 mm, wet

▌◄

A13

Hardened Steel

Turning Insert Selection Guide

Insert Selection

Chipbreakers NSV Type Chipbreaker: For chip control during carburized layer removal NLV Type / NFV Type Chipbreaker: For chip control during finishing of hardened steel 0,7 – 0,6 –

NSV

Depth of Cut (mm)

0,5 –

NSV

0,4 –

NLV

0,3 –

NLV

0,2 – 0,1 –

NFV

0

l 0,1

NFV l 0,2

l 0,3

Feed Rate (mm/rev)

Grades

300

Uncoated SUMIBORON

BNC100 High-Precision Machining

1st Recommendatioin

BNC2115 New BNC2125

New

200

BNC160 100

Finishing

BNC2010

BNC200 General Machining

BNC2020

Interrupted Cut.

BNC300

Cutting Speed vc (m(min)

Cutting Speed vc (m/min)

Coated SUMIBORON

AC503U

0

Finishing

Continuous Cutting

BN1000 200

100

Interrupted Cutting

General Machining

BN2000

0

Roughing

General Cutting

300

Continuous Cutting

General Turning

Interrupted Cutting

A14

Interrupted Cutting

BN350

Finishing

Continuous Cutting

Recommended Cutting Conditions Cutting Process

BNX20 BNX25

Roughing

General Cutting

Interrupted Cutting

(Min. - Optimum - Max.)

Grade

Depth of Cut (mm)

Feed Rate (mm/rev)

Cutting Speed (m/min)

BNC2115

0,03–0,20–0,35

0,03–0,10–0,20

110–180–300

BNC2010

0,03–0,20–0,35

0,03–0,10–0,20

50–140–180

BNC100

0,03–0,15–0,20

0,03–0,10–0,20

80–200–300

BN1000

0,03–0,15–0,20

0,03–0,10–0,15

120–180–300

AC503U

0,03–0,50–1,00

0,02–0,05–0,10

40–70–100

BNC2125

0,05–0,30–0,50

0,05–0,20–0,40

110–160–300

BNC2020

0,05–0,30–0,50

0,03–0,20–0,40

50–120–180

BNC160

0,03–0,20–0,35

0,03–0,10–0,20

80–160–270

BNC200

0,03–0,30–0,50

0,05–0,10–0,35

80–140–270

BN2000

0,03–0,20–0,30

0,03–0,10–0,20

30–100–200

BNX20

0,03–0,30–0,50

0,03–0,15–0,30

70–130–170

BNC300

0,03–0,20–0,30

0,03–0,10–0,20

50–100–150

BN350

0,03–0,20–0,30

0,03–0,10–0,20

50–100–150

BNX25

0,03–0,20–0,50

0,03–0,15–0,30

120–160–220

▌◄

Hardened Steel

Recommended CBN Grades and Chipbreakers New

New

Insert Selection

BNC2115 / BNC2125 / BN1000 / BN2000

Grades BNC2115

High-precision grade realizing long tool life with excellent surface roughness and stable machining. Maintains excellent surface roughness thanks to a high notch-wear resistant coating and tough CBN substrate.

BNC2125

1st recommendation grade, balancing excellent wear resistance and fracture resistance in hardened steel machining. Along with a tough CBN substrate, the coating combines wear resistance and toughness to achieve long, stable tool life even in high-efficiency and interrupted machining.

BN1000

For high speed machining. BN1000 provides the highest wear resistance of all uncoated SUMIBORON grades. Features improved fracture resistance while still placing a priority on wear resistance.

BN2000

General purpose grade suitable for typical hardened steel machining applications. Provides a high degree of fracture and wear resistance.

Performance BNC2115

BNC2125

Continuous Cutting of Hardened Steel

Interrupted Cutting of Hardened Steel

Surface Finish Rz (µm)

5,0

Stable Tool Life

4,0

Competitor's Coated CBN

BNC2125

3,0 BNC2115 2,0 Conventional coated CBN

Conventional coated CBN 1,0

0

2,0

4,0 6,0 Cutting Distance (km)

Work Material: Insert: Cutting Conditions:

8,0

10,0

0

200

Work Material: Insert: Cutting Conditions:

SCM415H, 58-62HRC DNGA 150408 NC4 vc = 200 m/min, f = 0,1 mm/rev, ap = 0,15mm, wet

400 600 800 1000 1200 No. of Passes until Tool Breakage

1400

SUJ2, 58-62HRC DNGA 150408 NC4 S01225 vc = 150 m/min, f = 0,15 mm/rev, ap = 0,5 mm, 63 m/times, dry

BN1000 / BN2000 Flank Wear Width (mm)

Wear Resistance (Continuous Cutting) Competitor 1

Chipping Resistance (Interrupted Cutting)

Breakage

(Comparison based on conventional BN2000 as 100%.)

BN2000

BN2000 Conventional Grade 1

Competitor 1

Cutting Distance (km) Work Material: 15CrMo5, Round Bar (58-62HRC) Cutting Conditions: vc = 100 m/min, f = 0,1 mm/rev, ap = 0,2 mm, dry Flank Wear Width (mm)

Approx. 1,4x tool life!

BN1000

Competitor 2

Approx. 1,4x tool life!

Conventional Grade 2

BN1000

Competitor 2

Tool Life Ratio (%)

Cutting Distance (km)

Work Material: 15CrMo5, 8V Grooved Material (58-62HRC) Insert: CNGA120408 NU-2 Cutting Conditions: vc = 150 m/min, f = 0,1 mm/rev, ap = 0,2 mm, dry

Work Material: 100Cr6, Round Bar (58-62HRC) Cutting Conditions: vc = 150 m/min, f = 0,1 mm/rev, ap = 0,2 mm, dry

▌◄

A15

Insert Selection

Non-Ferrous Metal

Turning Insert Selection Guide

Chipbreakers Negative Type

Positive Type

NAG NGD

NAX

NAW

Depth of Cut (mm)

NAW Depth of Cut (mm)

Depth of Cut (mm)

NAX

R/LAY

NAG R/LAY

Feed Rate (mm/rev)

Feed Rate (mm/rev)

NLD

Feed Rate (mm/rev)

Grades

Cutting Speed (m/min)

2.000

1.500

SUMIDIA

DA1000 1.000

Carbide Grade

500

H1

0

Finishing

Continuous Cutting

Roughing

General Cutting

Interrupted Cutting

Recommended Cutting Conditions Cutting Process Continuous Cutting General Turning Interrupted Cutting

A16

Category

Grades

SUMIDIA

Carbide

(Min. - Optimum - Max.)

Cutting Conditions Depth of Cut (mm)

Feed Rate (mm/rev)

Cutting Speed (m/min)

DA1000

0,1–0,5–3,0

0,05–0,10–0,20

–2000

H1

0,3–1,0–5,0

0,1–0,20–0,5

–1000

▌◄

Non-Ferrous Metal

Recommended PCD and Carbide Grades

Insert Selection

DA1000

Grades

● Ultra-high-density sintered, ultra-fine diamond particles ● Significantly improved surface roughness on machined surfaces ● World’s best wear resistance and strength ● Suitable for use with all aluminium and non-ferrous alloys

DA1000 Wear Resistance Comparison of Surface Roughness of Nose Radius Cutting Edge

Cutting Speed (m/min)

DA1000

Conventional Grade

Excellent Surface

Bad Surface

Fine Edge

Rough Edge

Insert: TPGW 160308 Cutting Conditions: vc = 1000 m/min, f = 0,15 mm/rev, ap = 0,2 mm, Wet

Lifetime (min)

Wear Resistance in Turning Applications

Wear Resistance in Milling Applications

Flank Wear Width (min)

Flank Wear Width (min)

Competitor‘s PCD Conventional Grade

Conventional Grade

DA1000

DA1000

Cutting Distance (km)

Number of Passes

Insert: TPGN160304 Cutting Conditions: vc = 800 m/min, f = 0,12 mm/rev, ap = 0,5 mm, wet

Insert: SNEW1204 ADFR-NF Cutting Conditions: vc = 2000 m/min, f = 0,15 mm/rev, ap = 3,0 mm, wet

Application Examples H1 + NAG Type Breakers

DA1000

Excellent adhesion resistance. Longer tool life.

Stable surface roughness with no edge breakage (3,2S). Tool life improved to 3x that of conventional models. 500 -

250

0

-

2,0x tool life 2x

tool life

250 -

H1 AG

3,000 2.000 -

2,500

2,000

1.000 （個）1,000

0

3.000 -

加工数

No. of Workpieces

500

Output (pcs) / Cutting edge

Copper Alloy Bush

Output (pcs) / Cutting edge

ADC12 Aluminium Wheel

Competitor's H1 Competitor's Product (NAG)

0

寿命3倍

800

0DA1000

DA1000

(NF)

Insert: VCGT160408 NAG (H1) Cutting Conditions: vc = 2000 m/min, f = 0,25 mm/rev, ap = 2,0 mm, wet

3,0x tool life

Competitor's 他社品 Product

Insert: TPGN160308 NF (DA1000) Cutting Conditions: vc = 300 m/min, f = 0,07 mm/rev, ap = 0,08 mm, wet

▌◄

A17

Small Product Machining

Turning Insert Selection Guide

Medium Cut

S

N

H

Hardenend Steel Non-Ferrous Metal

Finish-Light Cut

K

Heat Resistant Steel

High Precision

M

Cast Iron

Category

P

Stainless Steel

Work Material

Application Range

General Steel

Insert Selection

Grades

ACZ150 AC5015S

Coated Carbide (PVD)

AC5025S AC530U AC1030U T1000A

Cermet/Coated Cermet

T1500A/T1500Z H1

Carbide

EH510 BN1000/BN2000

CBN (SUMIBORON)

BN7000

SUMIDIA

DA1000

Preferred Choice

Suitable

Chipbreakers G-Class Chipbreaker (Groove Design)

NSU NFK

2

N-LUW NFP NLU

0

0,2

4

2

L/R-SD L/R-FX

L/R-FYS 0

0,4

G-Class Chipbreaker (3D Design)

Feed Rate (mm/rev)

Depth of Cut (mm)

4

Depth of Cut (mm)

Depth of Cut (mm)

M-Class Finishing to Light Cut

L/R-W L/R-FY 0,2

4 NSI

2

NSC NFC

0

0,4

Feed Rate (mm/rev)

0,2

0,4

Feed Rate (mm/rev)

Recommended Cutting Conditions Work Material

Free Cutting Steel

Carbon Steel

Heat Resistant Steel

Stainless Steel

Aluminium

Brass

Grade

vc (m/min) f (mm/rev) vc (m/min) f (mm/rev) vc (m/min) f (mm/rev) vc (m/min) f (mm/rev) vc (m/min) f (mm/rev) vc (m/min) f (mm/rev) vc (m/min) f (mm/rev)

ACZ150

50–200 0,02–0,10 50–150 0,01–0,08 50–150 0,01–0,05

AC5015S

50–200 0,02–0,15 50–200 0,02–0,10 50–200

0,02–0,10 30–100 0,02–0,10

AC5 25S

50–200 0,02–0,15 50–200 0,02–0,10 50–200

0,02–0,10 30–100 0,02–0,10

70–300 0,05–0,20

AC530U

50–200 0,02–0,15 50–200 0,02–0,10 50–200

0,02–0,10

70–300 0,05–0,20

AC1030U

50–200 0,02–0,15 50–200 0,02–0,10 50–150

0,02–0,10

70–300 0,05–0,20

T1000A

50–200 0,02–0,15 50–200 0,02–0,10 50–150

0,02–0,10

70–300 0,05–0,20 70–300 0,05–0,20

T1500A

50–200 0,02–0,15 50–200 0,02–0,10 50–150

0,02–0,10

70–300 0,05–0,20 70–300 0,05–0,20

T1500Z

50–200 0,02–0,15 50–200 0,02–0,10 50–150

0,02–0,10

70–300 0,05–0,20 70–300 0,05–0,20

120–300 0,03–0,15

BN2000 BN7000

70–300 0,05–0,20

70–300 0,05–0,20 70–300 0,05–0,20

BN1000

50–200 0,03–0,20 50–200 0,05–0,20

DA1000

A18

Hardened Steel

70–300 0,02–0,10 70–300 0,02–0,10

▌◄

Small Product Machining

Turning Insert Selection Guide

Insert Selection

Application Range 250

AC520U

AC1030U

Cutting Speed (m/min)

200

150

AC1030U

Employs a new PVD coating, with a special tough carbide substate. Achieving excellent machined surface quality with a high-quality cutting edge that reduces adhesion and micro-chipping.

AC530U

100

AC6040M 50

ACZ150 High-precision Turning

Finishing

Precision Machining

Finishing

Cutting Conditions

AC1030U Performance Wear Resistance

Roughness

0,045

Material: Insert: Cutting Data:

X5CrNiS18-10, 1.4301 DCGT11T302RFY (AC1030U) vc = 100 m/min, f = 0,05 mm/rev, ap = 0,1 mm, wet (Oil)

AC1030U

0,030 0,025

Competitor‘s

2,0 Rz (mm)

Vb Wear (mm)

0,035

Conventional Grade

1,5

AC1030U

1,0 0,5

0,020 0,015

2,5

Competitor‘s Conventional Grade

0,040

0

50

100

150

0

Cutting Distance (No. of Passes)

50

100

150

Cutting Distance (No. of Passes)

Application Examples C45, Stator Shaft

STKM12C-EC, Pipe

1500pcs,

Insert Cutting Data:

200

Conventional Grade

Rz 0,3 1000pcs,

No. of Workpieces

AC1030U

Insert Cutting Data:

X5CrNiS18-10, 1.4301, Valve Body

Insert: Cutting Data:

70

AC1030U Conventional Grade

VCGT110302RFX (AC1030U) vc = 195 m/min, f = 0,12 mm/rev, ap = 0,175-0,25 mm, wet

X6Cr17, Sensor Housing 2.000

Competitor‘s No. of Workpieces

Less adhesion

100

0

Rz>0,45

CCGT060201LFX (AC1030U) vc = 196 m/min, f = 0,04 mm/rev, ap = 0,4 mm, wet

AC1030U

140

Adhesion + chipping

1.600

1.000

800

0 AC1030U

VCGT110301RFY (AC1030U) vc = 31,5 m/min, f = 0,025 mm/rev, ap = 0,2 mm, wet

Insert: Cutting Data:

▌◄

Conventional Grade

DCGT11T304M NFC (AC1030U) vc = 50 m/min, f = 0,06 mm/rev, ap = 0,2 mm, wet

A19

New Grades for Milling ACU2500 / XCU2500 / XCK2000 Insert Selection

New

New

Features of ACU2500

Features of XCU2500 / XCK2000

- Utilizing ABSOTECH, a new coating with excellent wear and chipping resistance. - Adopts a carbide substrate with excellent fracture resistance and wear resistance, realising stable long tool life with various work material grades. Our 1st recommended grade for milling.

- Uses the revolutionary ABSOTECH X coating, combining the wear resistance of conventional CVD coatings and fracture resistance equivalent to that of PVD coatings. - Superb long tool life in machining of steel, cast iron, and stainless steel.

PVD

CVD New Super Multi-Layered Structure

Coating Layer

5nm

Cross Section of Cutting Edge Coating Carbide substrate

Pure cubic crystal AlTiN with high Al content: With proprietary structural control technology, differently composed layers of AlTiN are stacked at the nanometre level. With a high-Al composition containing over 80% Al on average, it also maintains a cubic crystalline Al0.5Ti0.5N structure to achieve excellent thermal resistance and Al0.9Ti0.1N high hardness. Vastly improved wear resistance.

Higher hardness and twice the conventional wear resistance due to a fine crystal structure AlTiCrBNbased nano-layered coating.

High Adhesion Strength

Special Surface Treatment:

Coating adhesion significantly increased. Twice or more the conventional chipping resistance.

10nm

Applicable Grades: ACU2500, ACP3000, ACK3000

Proprietary surface treatment introduces high compression stress to the coating, suppressing the development of cracks. Greatly improved fracture and thermal crack resistance.

Applicable Grades: XCU2500, XCK2000

Application Range

400

300

Stainless Steel

XCU2500

250

ACP300

Cutting Speed vc (m/min)

Cutting Speed vc (m/min)

Steel

ACU2500

200

100

200

150

Medium Cutting

Roughing

High-speed/Light

XCK2000 XCU2500

200

ACK200

ACU2500

High-speed/Light

Medium Cutting

80

60

ACU2500 ACM300

40

ACM200

ACK300

A20

Roughing

100

300

100

Medium Cutting

Exotic Alloy

Cutting Speed vc (m/min)

Cutting Speed vc (m/min)

400

ACM300 ACM200

Cast Iron

500

ACU2500

100

ACP100 ACP200 High-speed/Light

XCU2500

Roughing

High-speed/Light

▌◄

Medium Cutting

Roughing

B1–B14 Grades

B

Grades

Coated Grades

Coated and Uncoated Uncoated Carbide CBN Grades PCD Grades

Chart

▌◄

Coating Series............................................................. B2 CVD / PVD Series ....................................................... B3–4 Cermet.......................................................................... B5 “Igetalloy”.................................................................... B6 “SUMIBORON”............................................................. B7–8 “SUMIDIA”.................................................................... B9 “SUMIDIA” Binderless................................................ B10 Grades Comparison Chart ........................................ B11–14

B1

Coated Carbide : Revolutionary coating technology that realises superb tool life.

CVD Grades

Pure cubic crystal AlTiN with high Al content:

Realises extremely long tool life for general machining through high-efficiency machining, using revolutionary technology combining wear resistance and fracture resistance.

With proprietary structural control technology, differently composed layers of AlTiN are stacked at the nanometre level. With a high-Al composition containing over 80% Al on average, it also maintains a cubic crystalline structure to achieve excellent thermal resistance and high hardness. Vastly improved wear resistance.

Al0.5Ti0.5N Al0.9Ti0.1N

Special Surface Treatment:

[ABSOTECH X] For CVD Milling

Proprietary surface treatment introduces high compression stress to the coating, suppressing the development of cracks. Greatly improved fracture and thermal crack resistance.

Applicable Grades For Milling: XCU2500, XCK2000

10nm

: New coating technology that realises absolute stability.

PVD

CVD Special Surface Treatment: Chipping resistance and adhesion resistance are significantly improved by special surface treatment applied to suit the application. High Strength Alumina Layer: Significantly improves the coating strength by controlling crystal growth direction.

10nm

High Hardness Micro-Grain TiCN Layer: Significantly improves the coating hardness by using a fine and uniform crystal structure.

Cross section of cutting-edge coating

High Adhesion Technology: Significantly improves adhesion strength through a smooth interface between the coating and carbide substrate.

l Significantly improves chipping resistance by improving coating adhesion strength. Stable machining is realised even under high load conditions.

l Next-level high strength and high hardness coating is achieved. Achieves long, stable tool life even in high-efficiency machining. Applicable Grades

For Milling:

Applicable Grades

Steel Stainless Steel Cast Iron

AC8015P, AC8020P, AC8025P, AC8035P AC6020M, AC6030M AC4010K, AC4015K ACP2000, ACK2000

For Turning: For Milling:

PVD

Brilliant Coat

l PVD coating with excellent wear resistance and lubricity. l Suppresses reactions with work material and realises beautiful machined surfaces.

PVD

Using our proprietary PVD process tech nology, we have developed a hydrogen-free DLC coating that is extremely hard and smooth. Comparison of Cutting Edge Adhesion After Cutting ADC12 Work Material: STKM13A Cutting Conditions: vc: 100 m/min f: 0,15 mm/rev ap: 1,0 mm, wet

AURORA Coat Uncoated l Second only to diamond in terms of hardness, this smooth coating has a low coefficient of friction and provides excellent adhesion resistance to deliver better-quality machined surfaces. l Can be used for high-speed, high-efficiency cutting of aluminium alloys, copper alloys, resins, and more.

Conventional Coating

Applicable Grades T1500Z, T2500Z

Applicable Grades

B2

AC6040M AC5005S, AC5015S, AC5025S AC1030U ACU2500, ACP3000, ACK3000

Adhesion of Aluminium

Work Material: STKM13A Insert: CNMG120408NLU Cutting Conditions: vc: 100 m/min f: 0,15 mm/rev ap: 1,0 mm, wet

For steel turning

Stainless Steel Exotic Alloy Small Lathes

AURORA Coat (DLC : Diamond Like Carbon)

Brilliant Coat provides excellent lubricity for higher quality machining.

Brilliant Coat

High Adhesion Technology: Significantly improves adhesion strength through advanced control technology at the interface of the coating and carbide substrate.

l Optimised coating composition according to application. Achieves stable machining regardless of the work material.

l Suppresses abnormal damage such as chipping and adhesion. Stable machining is achieved in various situations.

For Turning:

The Proprietary Super Multi-layered Coating Structure: Advanced nanotechnology enables nanometre level thickness (1 nanometre is one billion of a meter) Hardness, thermal resistance and toughness are significantly improved by alternately layering one thousand layers of super thin films.

▌◄

For Milling For Endmilling For Drilling

DL1000, DL2000 DL1000, DL1200 DL1300, DL1500

Coated Carbide

CVD Coating Series Characteristic Values For Turning (CVD) Class

Hardness (HRA)

Grade

TRS (GPa)

Coating Type

Coating Thickness (μm)

Characteristics

Old Grades

2,3

Absotech

14

AC8020P

90,5

2,2

Absotech

18

Our 1st recommended grade for mill-scale work on forged material. Alumina coating with even higher strength balances outstanding stability and wear resistance in mill-scale work.

AC820P

AC8025P

90,1

2,3

Absotech

12

A P20 grade that drastically reduces the occurrence of abnormal damage and achieves long and stable tool life by employing a special carbide substrate and the new Absotech Platinum coating.

AC820P

AC8035P

89,4

2,6

Absotech

9

For interrupted machining of steel. Coating layer tensile stress removal technology greatly improves fracture resistance and achieves long, stable tool life during heavy interrupted cutting.

AC830P

AC6020M

90,1

2,3

Absotech

5

An M20 grade that maintains wear resistance in stainless steel machining while drastically reducing the occurrence of abnormal damage by employing a special carbide substrate and the new Absotech Platinum coating.

AC610M

AC6030M

89,5

2,7

Absotech

5

The first recommended grade for general machining of stainless steel that drastically reduces the occurrence of abnormal damage in stainless steel machining and achieves long and stable tool life by employing a new coating: Absotech Platinum.

AC630M

AC630M

89,5

2,7

Super FF Coat

5

A general purpose grade featuring improved wear and fracture resistance during stainless steel cutting. Utilises a special tough carbide substrate with a thin Super FF Coat.

AC4010K

91,1

2,5

Absotech

20

1st recommended grade for turning grey cast iron. For high-speed cast iron milling. New thick coating realizes stable long tool life even with ultra-high-speed machining of grey cast iron at vc = 700 m/min.

AC405K

AC4015K

91,1

2,5

Absotech

16

1st recommended grade for turning ductile cast iron. New high-adhesion, high-strength coating realises high wear resistance and chipping resistance for stable long tool life over a wide range of cutting conditions.

AC415K

AC420K

91,1

2,5

Super FF Coat

12

A new, extremely versatile grade that can be used for rough, interrupted cutting of ductile and grey cast iron. Employs special, ultra-hard carbide substrate and Super FF Coat to provide stability and long tool life.

AC700G

Characteristics

Old Grades

AC8015P New

AC810P

Grades

91,0

For high-speed and high-efficiency machining of steel. Crystal orientation control technology is used to drastically suppress the advancement of crater wear, achieving long, stable tool life during high-speed and high-feed cutting.

AC304

For Milling (CVD) Class

Grade

Hardness (HRA)

TRS (GPa)

Coating Type

Coating Thickness (μm)

ACP100

89,3

3,1

Super FF Coat

6

A grade that employs a tough carbide substrate and thin-layer Super FF Coat to provide superior thermal crack and wear resistance in high-speed milling of steel.

AC230

ACP2000

89,5

3,2

Absotech

10

For high-speed machining of steel. Stable long tool life with high-speed machining is realized by adopting a tough carbide substrate and a new coating with excellent thermal crack resistance.

ACP100

XCU2500

89,5

3,2

AbsotechX

6

General purpose grade for a wide variety of materials such as steel, cast iron and stainless steel. New coating combining wear and fracture resistance realises long tool life in mediumspeed to high-speed machining.

ACM200

89,8

3,4

Super FF Coat

6

A grade ideal for hardened steel machining that provides excellent wear and heat resistance by employing a newly-developed ultra-hard carbide and Super FF Coat.

ACK100

92,0

2,4

Super FF Coat

6

A grade that employs a high-strength carbide substrate and Super FF Coat to provide excellent wear resistance in high-speed milling.

ACK200

91,7

2,5

Super FF Coat

6

A grade that employs a tough carbide substrate and thin-layer Super FF Coat to provide superior thermal crack and wear resistance for high-speed milling.

AC211

ACK2000

91,7

3,1

Absotech

10

For high-speed cast iron milling. Stable long tool life with high-speed machining is realized by adopting a tough carbide substrate and a new coating with excellent thermal resistance.

ACK100 ACK200

91,7

2,5

AbsotechX

6

For high-speed cast iron milling. Along with a high-hardness carbide substrate, the new coating combining wear and fracture resistance realises superb long tool life in medium-speed to high-speed machining.

–

New

New

XCK2000

▌◄

AC230

—

B3

Coated Carbide

PVD Coating Series

Characteristic Values For Turning (PVD) Class

Hardness TRS (HRA) (GPa)

Grade

T1500Z

Grades

Coating Thickness (μm)

Characteristics

Old Grades

92,0

2,2

Brilliant Coat*

3

For finishing of steel. Adopts Brilliant Coat for excellent lubricity and higher machined surface quality.

T2000Z

91,8

2,4

Brilliant Coat*

3

For finishing of steel. The use of Brilliant Coat with excellent lubricity and a tough cermet substrate realises excellent machined surface quality and superb stability.

T3000Z

AC530U

91,4

3,3

Super ZX Coat

3

AC6040M

91,6

3,8

Absotech

3

AC530U

91,4

3,3

Super ZX Coat

3

AC5005S

93,1

2,8

Absotech

5

AC5015S

92,7

3,2

Absotech

5

AC5025S

91,8

3,6

Absotech

5

AC503U

93,2

1,7

Super ZX Coat

3

For hardenend steel. Utilizing the super multi-layered PVD coating of nanometre thick TiAlN and AlCrN layers, coupled with an ultra-hard substrate for excellent wear resistance.

—

ACZ150

91,4

3,3

ZX Coat

1

For small tools, and high-precision finishing to general finishing applications. TiN ultra-thin coating and fine-grained, super tough substrate combine to give good edge sharpness and superior cut finish.

—

AC1030U

91,6

3,8

Absotech

2

For precision machining that supports a wide range of work materials. Employs the new "Absotech Bronze" coating with excellent adhesion and peel-off resistance to deliver excellent machined surface quality with improvements in cutting edge quality and superb stability.

—

TRS (GPa)

Main Coating Coating Thickness Components (μm)

Characteristics

Old Grades

(Cermet)

T2500Z

New

(Cermet)

New

Small Product Machining

Coating Type

For interrupted and general steel cutting. Utilizing the super multi-layered PVD coating of nanometre thick TiAlN and AlCrN layers, coupled with a fine-grained super tough substrate for excellent fracture resistance. The first recommended grade for interrupted machining of stainless steel that drastically improves the reliability in unstable machining thanks to the excellent adhesion and peeloff resistance of the new Absotech Bronze PVD coating, as well as the improved fracture resistance of the exclusive ultra-hard carbide substrate. Heavy interrupted machining and stainless steel machining. Utilizing the super multi-layered PVD coating of nanometre thick TiAlN and AlCrN layers, coupled with a fine-grained super tough substrate for excellent fracture resistance.

AC530U

Grade for high-speed and high-efficiency machining of exotic alloys. The use of a dedicated carbide substrate with great high-temperature strength realises excellent wear resistance in high-speed, high-efficiency machining.

—

The first recommended grade for turning exotic alloy. Adopts a carbide substrate with excellent thermal resistance and a new coating with excellent wear resistance and chipping resistance, realizing stable long tool life over a wide range of cutting conditions. For partially interrupted to interrupted machining of exotic alloy. Adopts a carbide substrate with excellent fracture resistance and a new coating with excellent wear resistance and chipping resistance, realizing stable long tool life with unstable cutting conditions.

ACZ310

ACZ310

AC510U AC520U

For Milling (PVD) Class

Grade

Hardness (HRA)

General purpose grade supporting steel, stainless steel and cast iron machining. Adopts a carbide substrate with excellent fracture resistance and wear resistance, plus a new coating with wear and chipping resistance, realizing stable long tool life with various work material grades. For general machining of general and die steel. Employs PVD coating consisting of multiple nanometre-thin layers. A general grade that achieves a good balance between fracture resistance and wear resistance when combined with an exclusive tough substrate.

ACU2500

91,6

3,8

Absotech

3

ACP200

89,5

3,2

Super ZX Coat

3

ACP300

89,3

3,1

Super ZX Coat

3

For interrupted machining and stainless steel machining. Employs PVD coating consisting of multiple nanometre-thin layers.Provides excellent fracture resistance when combined with an ultra-tough substrate.

ACZ350

ACP3000

89,5

3,2

Absotech

3

1st recommended grade for milling steel. Carbide substrate with excellent thermal crack resistance, plus a new coating with excellent wear and chipping resistance, realizes stable long tool life over a wide range of cutting conditions.

ACP200 ACP300

ACM100

91,4

3,3

Super ZX Coat

3

A grade that provides excellent wear resistance by employing an ultra-hard finegrained carbide and New Super ZX Coating.

ACZ310

ACM300

89,8

3,4

Super ZX Coat

3

The first recommended grade for stainless steel machining that achieves a good balance between wear resistance and fracture resistance by employing a newlydeveloped ultra-hard carbide and New Super ZX Coating.

—

ACK300

91,4

3,3

Super ZX Coat

3

General-purpose grade with an excellent balance of wear and fracture resistance.

ACZ310

ACK3000

91,7

3,1

Absotech

3

1st recommended grade for milling cast iron. Adopts a high thermal conductivity carbide substrate and a new coating with excellent wear and chipping resistance, realizing stable long tool life over a wide range of cast iron machining operations.

ACK300

DL1000

92,9

2,1

AURORA Coat (DLC Coat)

0,5

For milling non-ferrous metal, utilizing DLC coat with a low coefficient of friction and excellent adhesion resistance.

—

DL2000

91,6

3,8

AURORA Coat (DLC Coat)

0,5

For milling non-ferrous metal, utilizing DLC coat with a low coefficient of friction and excellent adhesion resistance.

—

— ACZ330

*There may be minor differences in the colour tone/lustre of Brilliant Coat grades due to the interference of light. Such differences have no effect on performance.

B4

▌◄

TiC / TaC (Titanium Carbide)

Cermet

Various grades and expanded lineup of catalogue items meet a wide range of finishing needs. Lineup includes wear-resistant T1000A, general purpose T1500A, general purpose coated cermet T1500Z and tough T2500A. Significantly expanded lineup of catalogue items for a wide variety of finishing applications. Grades

Characteristics Uncoated Cermet T1000A High Speed Finishing Grade

Coated Cermet T1500Z New General Purpose Grade

General purpose coated cermet grade that employs new Brillant Coat* PVD coating with excellent lubricity.

High speed finishing grade with excellent wear resistance.

Improved wear and fracture resistance. Solid solution hard phase reduces reaction with steel. Perfect for high-speed continuous finishing of steel, cast iron and powdered metal.

Excellent wear resistance provides long tool life. Reduces adhesion of work material for beautiful finished surfaces.

Uncoated Cermet T1500A

Coated Cermet T2500Z

A general purpose grade that provides both wear and fracture resistance with higher-quality surface finish.

Tough grade with excellent fracture resistance and thermal crack resistance.

Mixing hard phases of different functionality, grain size and composition improves balance of wear and fracture resistance. Improved cutting edge treatment technology provides beautiful finished machined surfaces.

Fine, uniform grain structure greatly improves toughness Improves thermal crack resistance due to the high thermal conductivity and realises long stable tool life. Uses Brilliant Coat, with excellent lubricity to realise excellent machined surface quality.

Characteristic Values For Turning Class

Grade

Hardness (HRA)

TRS (GPa)

Coating Type

Coating Thickness (μm)

T1000A

93,3

1,8

—

—

Uncoated cermet grade with excellent wear resistance that provides good cost efficiency. Demonstrates excellent wear resistance in continuous finishing applications, and stable finishing of cast iron and sintered alloy as well as steel.

T110A

T1500A

92,0

2,2

—

—

A general purpose grade that employs a substrate with improved balance of fracture and wear resistance to deliver superior finished surfaces in a wide variety of cutting conditions.

T1200A

T2500A

91,8

2,4

—

—

For interrupted machining of steel. Fine, uniform grain structure greatly improves toughness, realizing long tool life and excellent surface finish even with interrupted cutting.

T1500Z

92,0

2,2

PVD Brilliant Coat*

3

Brilliant Coat's* new PVD coating gives excellent lubricity for higher quality machining. General-purpose coated cermet grade that can maintain high-quality machined surfaces and also gives excellent wear resistance.

T2000Z

T2500Z

91,8

2,4

PVD Brilliant Coat*

3

For finishing of steel. The use of Brilliant Coat with excellent lubricity and a tough cermet substrate realises excellent machined surface quality and superb stability.

T3000Z

T1000A

93,3

1,8

—

—

Exclusive uncoated cermet grade with excellent cost efficiency suitable for cast iron finishing, which requires high hardness.

T110A

Grade

Hardness (HRA)

TRS (GPa)

T1500A

92,0

2,2

—

T250A

91,4

2,1

—

New

Characteristics

Old Grades

—

For Milling Class

Coating Type

Coating Thickness (μm)

Characteristics

Old Grades

—

A general-purpose grade that employs a substrate with an improved balance between fracture and wear resistance to deliver superior finished surfaces in a wide variety of cutting conditions.

T1200A

—

Tough cermet grade with enhanced crack advancement resistance.

—

T2500A

91,8

2,2

—

—

T4500A

91,0

2,3

—

—

For finishing of steel and stainless steel. Fine, uniform grain structure greatly improves toughness, realizing long tool life and excellent surface finishing. For finishing of steel and stainless steel. Tough grade with excellent fracture resistance and reduced thermal cracking.

T250A —

*There may be minor differences in the colour tone/lustre of Brilliant Coat grades due to the interference of light. Such differences have no effect on performance.

▌◄

B5

WC (Tungsten Carbide)

„Igetalloy“

Igetalloy carbides have a solid history and a big variety of grades to suit many different applications. They are widely used and appreciated for their superior performance.

Grades

The Igetalloy line-up consists of carbide cutting tools that are available in a variety of different structures and compositions, each differing in terms of WC grain size and containing varying amounts of CO binder and TiC, TaC, and other double carbide components. The wide selection enables excellent wear resistance and toughness with a variety of work materials and cutting conditions.

l For Steel

l For Stainless Steel

A30N

l For Cast Iron

EH510

H10E

Characteristic Values Application

B6

Thermal Conductivity Compressive Strength Linear-Thermal Expansion Coefficient (X 10-6/°C) (W/m·°C) (GPa)

Grade

Hardness (HRA)

TRS (GPa)

Young's Modulus (GPa)

ST10P

92,1

1,9

470

25

4,9

6,2

ST20E

91,8

1,9

550

42

4,8

5,2

A30

91,3

2,1

520

—

—

5,2

A30N

91,2

2,2

520

—

—

—

ST40E

90,4

2,6

—

75

—

—

EH510

92,6

2,6

—

—

—

—

EH520

91,7

3,0

—

—

—

—

A30

91,3

2,1

520

—

—

5,2

A30N

91,0

2,4

—

—

—

—

BL130

94,3

2,9

—

—

—

—

H2

93,2

1,8

600

105

6,1

4,4

H1

92,9

2,1

650

109

6,1

4,7

EH510

92,6

2,6

—

—

—

—

H10E

92,3

2,0

—

67

—

—

EH520

91,7

3,0

—

—

—

—

G10E

91,1

2,2

620

105

5,7

—

H1

92,9

2,1

650

109

6,1

4,7

H20

91,6

3,8

—

—

—

—

EH510

92,6

2,6

—

—

—

—

EH520

91,7

3,0

—

—

—

—

▌◄

CBN (Cubic Boron Nitride)

SUMIBORON

High hardness and heat resistance for cutting high hardness steel and hard cast iron. Long tool life with high-speed finishing of grey cast iron.

Grades

In 1977, Sumitomo Electric Hardmetal successfully developed a revolutionary CBN sintered tool - SUMIBORON. The main component in SUMIBORON is Cubic Boron Nitride with a special ceramic binder sintered under super high pressure and temperature. As compared to other conventional tool materials, CBN has higher hardness and excellent heat resistance. With these distinct characteristics, SUMIBORON can perform machining of hardened steel, high hardness cast iron and exotic metals where previously only grinding was done. Furthermore, excellent efficiency and longer tool life can also be achieved from high speed machining of cast irons.

Characteristics Classifications

Structure

CBN Content Hardness (GPa) High

Purely CBN particles, firmly bonded

27

Low

Application

Characteristics

NCB100

Containing no binder, the nano-to sub-micron Cast Iron, Titanium CBN particles have a directly bonded structure. Alloy, Pure Titanium, The high hardness and thermal conductivity Co-Cr-Alloy, Cemented make it highly efficient with a long tool life when Carbide, Cermet machining exotic alloys such as titanium alloys and Co-Cr alloys.

BN7000 BN7500 BN7115 BNC8125 BNS8125 BNS800

Carbide, Chilled cast High carbon content. Structure consists of iron, Ni-Hard cast strongly fused CBN grains. iron,Heat-resistant alloy, Suited to cutting cast iron, heat-resistant alloy, Cast iron ultra-hard alloy, and other hard materials. Sintered ferrous alloy

BN1000, BN2000, BN350 BNX10, BNX20, BNX25 BN500, New New BNC2115, BNC2125, BN2010, BN2020 BNC300, BNC100, BNC160 BNC200, BNC500

Alloy steel, Case hardened steel, Carbon tool steels, Bearing steel, Die steel, Ductile cast iron

54

Mainly CBN grains fused together

Mainly CBN grains held together with a binder

Grades

CBN grains are fused together strongly with a special ceramic binder. Strong CBN binding force gives superior wear resistance and toughness when cutting hardened steel and cast iron.

Grade Range Map Class

Application

High-speed Cutting

Finishing – Light Cutting

Classification

–

H01

Rough – Heavy Cutting

Medium Cutting

H10

BNC2115

H20

H30

New

BNC2125

New

BNC2010

Coated SUMIBORON

BNC2020 BNC100

BNC300

BNC160 BNC200

BN1000

Sintered Components

Uncoated SUMIBORON Classification

BN2000 BNX10 –

Uncoated SUMIBORON Classification

01

BN7115

BNX20

BN350

20

30

K20

K30

10

New

BN7000 –

Coated SUMIBORON

K01

K10

BNC500*

BNC8115

New

NCB100 BN500 Uncoated SUMIBORON

BN7000 BNS8125

New

BNS800 Classification

–

S01

S10

S20

S30

NCB100 Uncoated SUMIBORON

BN7000 BNS8125

* Dedicated for Ductile Cast Iron.

▌◄

New

B7

CBN (Cubic Boron Nitride)

SUMIBORON Characteristic Values Class

Binder

Carbon Grain Size Hardness Main Coating Coating Thickness TRS (GPa) (μm) Content (%) HV (GPa) Components (µm)

TiN

60–65

3

31–33

1,3–1,4

TiAlSiN super multilayered coating

3

Maintains excellent surface roughness thanks to coating with high notch wear resistance and tough CBN substrate

BNC2125

TiN

65–70

4

33–35

1,5–1,6

TiAlSiN super multilayered coating

3

Along with a tough CBN substrate, the coating combines wear resistance and toughness to achieve even more stable machining.

BNC2010

TiCN

50–55

2

30–32

1,1–1,2

TiCN multilayered

2

Improves the wear resistance of coating and substrate and stably achieves excellent surface roughness.

BNC2020

TiN

70–75

5

34–36

1,4–1,5

TiAlN multilayered

2

Provides long tool life in general and high-efficincy cutting thanks to tough substrate coated with a highly wear-resistant and highly adhesive layer.

BNC100

TiN

40–45

1

29–32

1,0–1,1

TiAlN

3

Highly wear resistant coating makes this grade suited for high speed finishing.

BNC160

TiN

60–65

3

31–33

1,2–1,3

TiAlN/TiCN

3

Stable, high precision finishing of hardened steel.

BNC200

TiN

65–70

4

33–35

1,4–1,5

TiAlN/TiCN

3

Tough substrate with high wear resistant coating provide longer tool life.

BNC300

TiN

60–65

1

33–35

1,5–1,6

TiAlN

1

Suited for finishing when there is a combination of continuous and interrupted cutting.

BNX10

TiCN

40–45

3

27–31

0,9–1,0 ̶

̶

Optimum wear resistance. Suited to continuous, high-speed cutting.

BN1000

TiCN

40–45

1

27–31

0,9–1,0 ̶

̶

Ultimate wear and fracture resistance. Suited to highspeed cutting.

BNX20

TiN

55–60

3

31–33

1,0–1,1 ̶

̶

Crater resistant grade, suitable for high efficiency cutting under high temperature conditions.

BNX25

TiN

65–70

4

29–31

1,0–1,1 ̶

BN2000

TiN

50–55

2

31–34

1,1–1,2 ̶

BN350

TiN

60–65

1

33–35

1,5–1,6

BN7115

Co Compound

90–95

1

41–44

2,2–2,3 ̶

̶

Grade balancing ultimate cutting edge sharpness with fracture resistance, suitable for finishing of sintered alloy.

BN7500

Co Compound

90–95

1

41–44

2,0–2,1 ̶

̶

Maintains optimum cutting edge sharpness. Suited for finishing of sintered alloy.

BN7000

Co Compound

90–95

2

41–44

1,8–1,9

BNC8115 Al Alloy

85–90

8

BNS8125 Al Alloy

85–90

BN7000

Co Compound

BNS800

Grade New

Grades

BNC2115 New

Sintered Components

New

̶

A general purpose grade for hardened steel that provides a high degree of fracture and wear resistance.

̶

High cutting edge strength. suited to heavy interrupted cutting.

̶

̶

Improved wear and fracture resistance in rough cutting of sintered components.

39–42 0,95–1,15

TiAlN

2

Grade with 100% solid CBN structure, using PVD coating with excellent wear resistance to enable roughing operations.

8

39–42 0,95–1,15

–

–

Grade with 100% solid CBN structure that exhibits excellent wear and fracture resistance.

90–95

2

41–44

1,8–1,9 ̶

̶

Improved wear and fracture resistance in rough cutting of cast iron and exotic alloy.

Al Alloy

85–90

8

39–42

0,9–1,1 ̶

̶

100% solid CBN structure with good thermal impact resistance.

BNC500

TiC

60–65

4

32–34

1,1–1,2

TiAlN

3

Substrate with excellent wear resistance and coating makes this grade suited for hard-to-cut cast iron.

NCB100

–

100

–0,5

51–54

1,8–1,9

–

–

Achieves high-efficiency, improved machining accuracy and long tool life in machining of exotic alloys such as titanium alloy and Co-Cr alloys.

New

New

B8

Excellent fracture resistance during high speed cutting. Suited to high speed interrupted cutting of hardened steel.

̶

̶

Characteristics

▌◄

PCD (Polycrystalline Diamond)

SUMIDIA

Excellent wear resistance, longer tool life, and high-speed, high-efficiency, high-precision cutting of non-ferrous metals and non-metals.

SUMIDIA Binderless uses nano-polycrystalline diamond for the cutting edge, demonstrating excellent wear resistance and fracture resistance. In particular, it achieves extended tool life and machining accuracy superior to conventional polycrystalline diamond when machining hard brittle materials such as cemented carbides.

Grades

SUMIDIA is a polycrystalline diamond material made from sintered diamond powder that was first created using our proprietary technology in 1978. SUMIDIA's superior wear resistance achieves longer tool life, high speed, high efficiency and high precision in non-metal cutting and non-ferrous metal applications including aluminium, copper, magnesium and zinc alloys.

Features Diamond particles on the order of sub-microns to several dozen microns, sintered at high density. Structure

SUMIDIA Binderless

SUMIDIA

NPD10

DA1000

0,1μm

DA150

5μm

Diamond particles

DA90

5μm

5μm

Black areas in image are diamond particles.

Grade Range Map Class

Series

Finishing – Light Cutting 01

Classification

Brittle Materials

SUMIDIA Binderless

Medium Cutting

Rough – Heavy Cutting

20

30

N20

N30

10

NPD10 DA90

SUMIDIA N01

Classification

N02

DA1000 SUMIDIA

DA150 DA90

Characteristic Values Carbon Content Grain Size Hardness HV TRS (GPa) (%) (μm) (GPa)

Class

Grade

Binder

Brittle Materials

NPD10

Co

100

<=0,05

120–130

≈ 3,15

100% diamond that directly binds nano-order diamond particles with high strength. Demonstrates optimum wear and fracture resistance as well as the best edge sharpness.

DA1000

Co

90–95

–0,5

110–120

≈ 2,60

High density sintered material made of ultra-fine diamond particles that demonstrates optimum wear and fracture resistance, and edge sharpness.

DA150

Co

85–90

5

100–120

≈ 1,95

Sintered material made of fine diamond particles that provides a good balance of workability and wear resistance.

DA90

Co

90–95

50

50–65

≈ 1,10

Coarse sintered diamond particles, with high diamond content for excellent wear resistance.

▌◄

Characteristics

B9

PCD (Polycrystalline Diamond)

SUMIDIA Binderless

Grades

SUMIDIA Binderless Series uses nano-polycrystalline diamond for the cutting edge and demonstrates excellent wear and fracture resistance compared to conventional sintered diamond tools. In particular, SUMIDIA Binderless Series allows for improvements in tool life and machining precision that go far beyond conventional diamond tools in the machining of hard brittle materials, such as carbide. Excellent for High Precision Machining of Carbide Nano-polycrystalline diamond with excellent wear resistance achieves high precision machining of carbide.

Maintains Superior Dimensional Tolerances Over Many Hours Greatly reduces the number of tool replacemets compared to conventional diamond tools and increases work efficiency while reducing total costs.

Suitable for Hard Brittle Material Machining

Hard brittle materials (such as ceramics) that could only be ground before can now be cut.

Characteristics Comparison of Structure Nano-Polycrystalline Diamond SEM Structure

Hardness

Conventional PCD SEM Structure

Nano-Polycrystalline Diamond

No anisotropy and ultra-hard

Single-crystal Diamond

Hardness depends on face orientation

Conventional PCD Load 4,9N 0

Diamond Particles (30–50 nm)

50

Diamond Particles (1–10 μm)

100

150

Knoop Hardness (GPa)

Application (Carbide Machining) Hardness < 88HRA

Hardness ≥ 88HRA 0,20

Depth of Cut ap (mm)

Depth of C ut ap (mm)

0,20 0,15 0,10 0,05

0

0,05

0,10

0,15

0,15 0,10 0,05

0,15

0

Feed Rate f (mm/rev)

Work Material

B10

0,10

0,15

0,15

Feed Rate f (mm/rev)

Recommended Cutting Conditions (Carbide Machining) Classification

0,05

Coolant: Dry

Min. - Optimum - Max.

Cutting Conditions

Hardness (HRA)

SEH Grade

Cutting Speed vc (m/min)

Feed Rate f (mm/rev)

Depth of Cut ap (mm/rev)

VM VC

70 60 50

83–87

G7 G6

5–20–30

0,03–0,10–0,20

0,03–0,10–0,20

VM VC

40

≥ 88

G5 G2

5–15–30

0,03–0,05–0,07

0,03–0,10–0,20

▌◄

Grade Comparison Chart Coated Carbide (CVD) Class

Grade

GC4325 KCP30 GC4335 KCP30B TP3500 GC4235

WPP30S IC8080 WPP30 IC9350

TT7100 TT8135

AC8035P AC6030M AC630M

T9135 MC6035 T9235 T6130

CA530 CA5535

GC4335 KCP40 TP3501 GX30 GM8035 GC4235 KCP40B TP3500 GC30

IC9350

TT7100

M10 S10

AC6020M

MC7015 T9115 US905 US7020 T9215

CA6515

HS9105

GC2015 GC1515 KCM15 S05F

TM1501

IC9250 IC520M

TT9215 TT3005

M20 S20

AC6020M AC6030M AC630M

MC7025 T6120 US7020 T9125 T9215

CA6525

HG8025 GC2025 GC1515 KCM25

TP2501 TM2000 TM2501

IC9025 IC9325 IC4050

TT5100 TT9225

M30

AC6030M AC630M AC8035P

MC7025 T6130 US735

CA6535

GM8035 GC2035 KCM35 GX30 GC235 GM25

TP3500 TM3501 TM4000

IC9350 IC4050 IC635

TT9235

M40

AC6040M AC630M

US735

GC235 GC2035

TM4000

AC8020P AC8015P

P20

AC8020P AC8025P

P30

AC8035P AC6030M AC630M

P40

K05

AC4010K

K10

AC4010K AC4015K

K20

AC4015K AC420K AC425K AC8025P

P10

XCU2500 ACP2000 ACP100

P30 M10 M20 M30 K10 K20

MC5005 UC5105 UC5115 MC5005 MC5015 MC5020 UC5105 UC5115

New

CA510 CA515 CA5515

HG8010

Taegu Tec

CA025P CA525 GM25 CA530

P10

HG8010

ISCAR

MC6035 T9125 UE6035 T9135 T6130

AC8015P

CA510 CA5505

WPP05S IC8005 WPP05 IC8150 WPP01 IC9015 IC8150 WPP10S IC8080 WPP10 IC9015 IC9150 IC8150 WPP20S IC8250 WPP20 IC9015 IC9150

CA025P GM25 HG8025 CA525 GM8020

P05

UE6105 T9105 MC6115 T9205 New MC6115 T9105 MC6015 T9115 UE6110 T9205 T9215 New T9115 MC6025 T9125 UE6020 T9215 T9225

KCP05 TP0501 KCP05B TP0500

GC4305 GC4205 GC4415 GC4305 GC4215 GC4315 GC4425 GC4325 GC4225

P20

Milling

Sumitomo Electric Mitsubishi Tungaloy Kyocera MOLDINO Sandvik Kennametal SECO Tools WALTER

KCP10 TP1501 KCP10B TP1500 KCP25 TP2501 KCP25B TP2500

TT8105 TT8115

CP7

TT5100 TT8125

CP7

TT7800

T5105

CA310 CA4505 CA4010

HX3505

GC3205 KCK05 GC3210

TK0501 TK1001

WAK10 IC5005 WKK10S

TT7005 TT7505

CP1

T515 T5105 T5115

CA315 CA4505 CA4515 CA4115

HX3305 HX3515 GC3210 KCK15 HG8010

TK1000 TK1001

WAK10 IC5100 WAK20 IC9150 WKK10S IC4100 WKK20S

TT7015

CP1

MC5015 T515 UC5115 T5125 UE6110 T9125

CA320 CA4515 CA4120 CA4115

HX3315 GC3225 KCK15 GM8020 KCK20

K2001

WAK20 IC9150 WAK30 IC5100 WKK20S IC4100

TT7015

FH7020 T3130 F7030 MV1020 T3030

MP1501 GC4220 KCPM20 MP1500 GC4330 MP2501 MP2500

XCU2500 F7030 ACP2000, ACP100 XCU2500 F7030 ACP2000, ACP100 XCU2500 New ACM100 XCU2500 F7030 T3130 ACM200 XCU2500 F7030 ACM200 New XCK2000 ACK2000 ACK200 New XCK2000 MV1020 XCU2500 MC5020 T1115 F5010 ACK2000 F5020 ACK200

GC4330 KCPM20 MP2501 GC4340 KCPK30 MP2500 GC4340 KCPK30 KCMP30

New

NTK

GX2160 GC2040 AX2040

CA6535

Grades

Turning

Application

WKP25 IC4100 WKP25S IC5400 WPP35G IC9015 IC8080 WKP35S IC9080 WKP25 IC8080 WKP25S IC9080 IC9250 IC4050

MS2500 WKP35S

TT7080 TT7515 TT9300 TT7400 TT7800 TT8525

TT7800

KC994M

IC5820

TT7800

KCK15

IC5100

TT7515

GC3330 IC5100 GC3220 KC915M DT7150 CA420M GX2120 GC3225 KC930M MK1500 WAK15 WKP25S IC4010 GC3020 KC935M IC4050 GC3040 IC4100

TT6800 TT7080

Coated Carbide (PVD)

Turning

Application

Class

Grade

Sumitomo Electric Mitsubishi Tungaloy Kyocera MOLDINO Sandvik Kennametal SECO Tools WALTER AH710 AH110 MS6015 AH120 AH725

PR915 PR1005 PR930 PR1215 PR1225 PR1705

ISCAR

Taegu Tec

NTK

P10

ACZ150 AC1030U AC5005S AC5015S AC5025S

P20

AC1030U AC5025S AC530U

VP15TF AH120 VP20RT AH725 AH3135

PR1225 PR1425

IP2000

GC15 GC1125 KCU25

IC807 IC808 IC810

TT9080

P30

AC1030U AC530U

AH120 VP15TF AH725 VP20RT SH730 AH730

TM1 TM4 VM1 QM3 DM4

PR1425 PR1525 PR1535

IP3000 CY250

GC1125

IC328 IC928

TT8020 TT9030

QM3

P40

AC1030U

PR660

IP3000

GC4335 GC4235

IC830

TT8020

NewVP15TF

GC1525

▌◄

KCU10 KC5510

TS2000

WSM10

TM1 VM1 DT4 DM4

IC507 IC807 IC907

B11

Grade Comparison Chart Coated Carbide (PVD) Class

Grade

ISCAR

Taegu Tec

IC804 WSM01 IC807 WSM10 IC808 WSM10S IC907 IC908

TT5080 TT3010 TT8010

TM1 VM1 DT4 DM4 ZM3 ST4

IC330 IC806 WSM20 IC808 WSM20S IC830 IC908 IC928

TT9080 TT9020 TT3020

DT4 DM4 ZM3 QM3 TM4 ST4

IC328 WSM30 IC330 WSM30S IC830 IC840 IC882

TT8020 TT8080 TT9080

QM3 TM4 DT4 DM4

M10 S10

AC5005S AC5015S AC5025S ACZ150

M20 S20

AC1030U AC5015S AC5025S

MP9015 MP9025 AH630 VP15TF AH120 VP20RT AH725 VP20MF AH8015 UP20M MS9025

M30

AC5025S AC6040M AC530U AC1030U

MP7035 AH630 VP15TF AH645 VP20MF MS9025 AH725

PR1125 PR1525 PR1535

M40

AC6040M AC530U AC1030U

MP7035 VP15TF AH645 MS6015

PR1125 PR1535

GX30

IC830 IC928

TT8020 TT8080

K10

ACZ150 AC1030U AC5015S

VP10RT AH110 AH120

PR905

HX3305 HG3305 HG3315 GC15 HX3515 HG8010 TH315

IC810

TT6080

K20

ACZ150 AC1030U AC5015S AC5025S

VP10RT VP20RT AH120 VP15TF

PR905

K30

AC1030U AC530U

VP15TF AH110 VP20RT AH120 AH725

P10

ACU2500 ACP200

AH110 VP15TF AH120 MP6120 AH710 AH725

P20

ACP3000 ACU2500 ACP200 ACP300

VP15TF VP20RT MP6120 MP6130 UP20M

P30

ACP3000 ACU2500 ACP200 ACP300

P40

ACP3000 ACU2500 ACP300

M10 S10

ACM100 ACU2500 ACK300 ACP300

New

MP9005 MP9015 VP15TF VP05RT VP10RT

AH110 AH710 AH725 AH905 AH8005

AH9030 AH120 AH725 AH3035 AH3225 AH3035 VP15TF AH3135 VP30RT AH3225 MP6130 AH120 UP20M AH130 AH140 AH725

H5D6 GC1105 GC1115

KCS10 KCS10B TH1000 KC5510 TS2000 KCU10

IP100S HS9115

GC15 KC5525 GC1115 KCU25 GC1125 KC5025

TS2500

GC1125

GC1010

IC807 IC903

TT2510 TT7080

DT4 DM4

PR1525 PR1225 PR1230 PR830

JP4120 CY150 CY1230 JS4045

KC522M MP3000 IC808 GC1010 KC525M F30M WSM20 IC810 GC1025 KCSM30 F32M WSM20S IC908 SP6519 F40M IC910

TT7080 TT9030 TT9080

TM4 DT4 DM4

TT8080 TT8020

DM4 TM4 ZM3

PR1525 PR1230 PR830

PR1025 PR1225

PR1210 PR1225 PR1525 PR830

KC505M KC510M F25M KC515M

JS4045 KC725M JS4060 KC735M WSM35 IC328 CY25 GC1030 KC525M F40M WSM35S IC330 CY150 GC1130 KC530M T60M IC830 CY250 GC2030 KCPM40 MP3000 WSP45 WSP45S IC928 CY250V KCSM30 PTH30E SP6519 JS4060 KC725M IC830 WSP45 JM4160 KC735M IC845 WSP45S PTH40H KCPM40 IC928

CY9020 JP4120 PN08M PN15M PN208 PN215

GC1010 KC515M GC1025 SP4019 GC1030 SP6519 GC1130

IC808 IC908

JP4120 CY150 JS1025

KC522M KC525M SP4019 SP6519 X700

IC328 F25M IC330 F30M WSM35 IC808 T32M MP3000 WSM35S IC830 IC840 MS2050 IC908 MM4500 IC928

ACM300

M40

ACM300

K05

ACK3000

MP8010 AH110 AH710

K10

ACK3000 ACU2500 ACK3000 ACU2500 ACK300

MP8010 AH110 AH120

PR1210

MP8010 AH120 VP15TF AH330

PR1210 PR1510

GC1020 KC524M GC1025 KCK20

AH725 AH120 VP15TF AH330 VP20RT GH110 GH130 GH330

JP4120 PTH13S CY100H CY9020

PR1510 PR1210

JS4045 CY150 CY250

GC1025 KC520M MK2050 GC1030 KC522M GC1130 KC524M

K30

ACK3000 ACU2500 ACK300

DM4 QM3

PR1225

M30

GH330

TT6080

PN215 PN15M JP4105 JP4115 JP4120 CY9020

ACM300 ACU2500 ACP300

AH110

NTK

IC830 IC908 IC910 IC928

VP30RT AH140 AH110 AH120 MP9120 AH330 VP15TF AH725 AH8005 AH8015 MP7030 AH120 MP7130 AH130 MP9120 AH330 MP9130 AH725 UP20M AH3225 VP15TF AH8015 VP20RT MP7030 AH130 MP7130 AH140 MP7140 AH330 MP9130 AH725 VP15TF AH3135 MP7140 MP9140 AH140 VP30RT

IP050S IP100S JP9105 JP9115

M20

K20

B12

Sumitomo Electric Mitsubishi Tungaloy Kyocera Mitsubishi- Sandvik Kennametal SECO Tools WALTER Hitachi PR005S PR015S PR915 PR1025 PR1215 PR1225 PR1305 PR1310 PR015S PR915 PR930 PR1025 PR1125 PR1215 PR1225 PR1325

Milling

Turning

Grades

Application

PR1525 PR1535 PR830 PR1535

S30T

TT8020 TT8080 TT8525B DT4 DM4 ZM3

TT9080 TT9030

DT4 DM4 ZM3

TT8020 TT8080 TT9080

DT4 DM4 ZM3

KC522M F30M WSM35 IC328 JM4160 GC2030 KC525M F32M WSM35S IC330 PTH30E GC1040 KC725M F40M IC830 JS1025 S40T KCPM40 MP2050 WSP45 IC840 WSP45S KCSM30 MS2050 IC882 KC725M IC328 JM4160 WSP45 KCPM40 PTH40H WSP45S IC330 KCSM40 IC882

TT8020 TT8080

IC810 IC910

TT7080 TT7515

TH303 TH308 GC1010 SP4019 MH1000 ATH80D ATH10E GC1010 KC514M MH1000 TH315 GC1020 SP4019

▌◄

KC514M SP6519

IC808 MK2050 MK3000 WKK25S IC810 IC830 IC908

IC830 IC810 IC910 IC928

TT6080 TT7515

TT6080

DM4

Grade Comparison Chart Cermet Application

Sumitomo Electric

Milling

P10

T1500Z* T1000A T1500A

P20

T1500Z* T2500Z* T3000Z* T1500A T2500A

P30

T2500Z* T3000Z* T2500A

Mitsubishi Tungaloy

Kyocera

MOLDINO

Sandvik

Kennametal

GT720* GT9530* GT9535* J9530* NS520

TN30 TN6020 TN610 TN620 PV710* PV720* CCX*

CZ25* CH550

CT5015

KT125 HTX KT1120

AP25N* AT9530* NX2525 NS9530 NX3035 GT9530* MP3025* J9530*

TN90 TN620 TN6020 PV720* CCX*

CZ25* CH550

GC1525*

KT6215 KT315* KT175 KT5020*

CT5015

KT125 HTX

AP25N* NX2525 VP25N*

New

New

SECO Tools

WALTER

CM CMP C15M TP1020

ISCAR

Taegu Tec

IC20N IC30N IC520N

PV3030 PV3010 CT3000

IC20N IC30N IC520N IC530N

CT7000

Grades

Turning

Class

MX2525 NS9530 TN620 MP3025* GT9530* PV720* VP45N AT9530* PV730*

K10

T1000A

AP25N* VP25N* NX2525

P30

T2500A T250A T4500A

NX2525 MX3030 NX4545 VP45N*

GT720* GT9530* NS9530 J9530* NS520

TN610 PV7005* PV7010* CH550 CCX*

NS540 NS740

TN60 TN90 TN100M TN620M

MZ1000* MZ2000* MZ3000* CT530 CH7030 CH7035

PV3030 CT3000

KT530M* KTPK20* C15M

IC30N

Sandvik

ISCAR

* denotes coated cermet

Uncoated Carbide Class

Grade

Sumitomo Electric

P10

ST10P

P20

ST20E

Mitsubishi Tungaloy

Kyocera MOLDINO

NTK

TH10

WS10

S1P

UTi20T

KS20

EX35

SMA

UTi20T

KS15F UX30

EX35 EX40

SM30 S6

P30

A30N

P40

ST40E

TX40

EX45

M10

EH510

TH10

EX35 WA10B

M20

EH520

UTi20T

KS20

EX35

M30

A30 A30N

UTi20T

UX30

K01

H2 H1

HTi05T

KS05F

K10

H1 EH510

HTi10

TH10

KW10 GW15

WH10

KM1

H13A

K20

G10E, H10E EH520

UTi20T

KS15F KS20

GW25

WH20

KM3

H13A

K30

G10E, H10E

UTi20T

EH510 EH520

RT9005 RT9010 MT9015 TF15

S10 S20

Fine-grained Carbide

A1

PW30

KM1

IC70 IC50M IC54 IC28 IC54 IC28

K125M

H10A

KU10 K313 890 K68 KYSM10

H13A

K313 K68

HX 883

H10F SM30 WH01 WH05

WH30 TH10 KS05F KS15F KS20

Kennametal SECO Tools

SW05 SW10 SW25 KW10 GW15

UM

▌◄

Taegu Tec

UF10 P30

IC07 IC08 IC20 IC07 IC08 IC20

UF10

IC28 KU10 K68 K313 K115M KU10 K313 K68 K115M K110M KY3500 KMF KY3500 KYHS10

890

IC20 IS8

890 883 HX

IC20 IS8

KY3500

883

IS8

WH10

H10A H10F H13A

KU10 K313 K68 HX KMF H25 K110M K1025 KYHS10

IC20 IC07 IC08 IC28

NM25

N6F H10F

883

IC08

K10

K10

B13

Grade Comparision Chart CBN

Grades

Class

Grade

Sumitomo Electric

Mitsubishi

Tungaloy

Kyocera

K01

NCB100 BNC500* BN7000 BN500

MB710 MB5015

BX930 BX870 BX910

KBN475 B30 KBN60M B16

K10

BN7000 BN500

MB710 MB730 MB5015 MB4020

BX470 BX480 BX950

KBN60M B23 KBN900 B16

K20

BN700 BN7000 BNS800

MB730 MB4020 MB4120 MBS140

BX470 BX480 BXC90 BX90S

KBN900

K30

BNC8115 BNS8125

S01

NCB100 BN7000

H01

BNC2010 BNC2115 BN1000 BN2000

H10

BNC2010 BNC2020 BNC2115 BNC2125 BN2000

H20

BNC2020 BNC2125 BNX20

H30

BNC300 BN350 BNX25

Grade

New

NTK

Chukyo

HB55 HB56 HB569 HB580 HB57 HB56 HB569 HB580 HB57

Sandvik

Kennametal SECO Tools

CB7525 CB7925

KB1340

IB50 IB85 CBN200 CBN300 IB55 CBN300P IB90 CBN400C

CB7925

MBA4120 BX90S MBS140 BXC90 BC5030

HB57

KB5630

MB730 MB4020 MB4120

BX940 BX950 BX470 BX480

HB55 HB580 HB52

KB5630 KB1340

BC8105 BC8110 MBC010 MB810 MB8110

BXA10 BXM10 BX310

KBN05M B5K KBN25M B52 KBN510

HB55 HB550 HB580 HB590

BXA10 BXM10 BX330 BX530

KBN05M KBN25M KBN525

B5K B6K B52 B36

BXA20 BXM20 BX360

MB835 MB8130 BC8130

Sumitomo Electric

N01

New

ISCAR

CBN500 IB85 IB05S IB10S CH0550 CBN10 CBN100 CBN60K

IB05H IB50 IB10HC

CB7105

KB5610

CB7015 CB7115 CB20

KBH20 KB5610 KB5625

KBN30M B36 KBN35M B40 KBN900 B6K

HB55 HB59 HB550 HB580 HB52 HB57 HB59 HB590 HB580

CB7025 CB7125 CB50

KBH20 KB5625 KB5630

CBN10 CBN150 IB10H CBN100 IB55 CBN060K IB25HA CBN160C IB20H CH2540 IB20HC CBN150 CBN160C IB25H IB25HC

BXM20 BXA20 BXC50 BX380

KBN30M KBN35M B40 KBN900

HB57 HB580

CB7525 CB7135

KB5630

CH3515

Mitsubishi

Tungaloy

Kyocera

NTK

Chukyo

Sandvik

Kennametal SECO Tools

DA90 DA1000

MD205

DX180 DX160

KPD001

PD1

CD05 CD10

KD1400

N10

DA150 DA1000

MD205 MD220

DX140

KPD001 KPD010 KPD230

PD2

HD100 HD30 HD60

CD1810

KD1400 KD1425

PCD05 PCD10

N20

DA1000 DA2200

MD220 MD230

DX120 DX110

KPD230

PD2

HD100 HD30 HD50

KD1400 KD1425

PCD05 PCD20

N30

DA1000 DA2200

MD2030 MD230

DX110

HD30 HD50 HD700 HC100

KD1400

PCD05 PCD30 PCD30M

BC8110 BC8120 MBC020 MB8025 MB8110 MB825 BC8120 New BC8020 MBC020 MB8025 MB8120

New New

IB90

PCD Class

B14

▌◄

ISCAR

ID5

ID5

C

Indexable Inserts for Turning Negative / Positive Inserts C1–C96

Inserts

ISO Inserts Identi ication Table .............................................. C2–3 New C4–5 General-purpose Chipbreaker for M-class Positive Inserts NGU..................................................................................... Chipbreaker for Low Carbon and General Steel Turning NFE / NFB .......................................................................... C6 Chipbreaker for Hardened Steel Turning NGH.................................................................................... C7 Chipbreaker for Exotic Alloys and Stainless Steel Turning NEG / NEF ......................................................................... C8–9 Chipbreaker for Stainless Steel Turning NEM.................................................................................... C10 Positive M Class Chipbreaker NFB / NLB.......................................................................... C11 Chipbreaker for Steel Turning (M) NSI ............................................................................... C12 Comparison Chart Chipbreaker....................................................................... C13 Selection Chipbreaker Application Table ....................................... C14–19

Negative Inserts C / 80° Diamond Type (With Hole)................................... C20–28 D / 55° Diamond Type (With Hole)................................... C29–36 S / Square Type (With Hole)............................................. C37–44 S / Square Type (Without Hole)....................................... C45 T / Triangle Type................................................................ C46–54 T-REX Insert...................................................................... C52 V / 35° Diamond Type (With Hole)................................... C55–57 W / Polygon Type (With Hole).......................................... C58–62

Stock marking chart

l : Euro stock item l : Japan stock item p :

To be replaced by new item

Positive Inserts C / 80° Diamond Type (With Hole)................................... C63–69 D / 55° Diamond Type (With Hole)................................... C70–73 R / Round Type (With Hole).............................................. C74 S / Square Type (With Hole)............................................. C75–78 S / Square Type (Without Hole)....................................... C79 T / Triangle Type (With Hole)........................................... C80–87 T / Triangle Type (Without Hole)...................................... C86-89 V / 35° Diamond Type (With Hole)................................... C90-93 W / Polygon Type (With Hole).......................................... C94–95

– : We cannot produce Note: Stocking policy may change without prior notice, please consult our sales representative for actual stock situation.

▌◄

C1

Inserts Identification Table

C

N

M G

Inserts

Insert Shape Chart 1 Relief Angle Chart 2

Chart 1: Insert Shape Symbol

Insert Shape

C D E F V R S T W A B K H O P L M

Angle

Chart 3: Tolerance (mm)

Symbol Relief Angle

Symbol

80°

A

3°

75°

B

5°

50°

C

7°

D

15°

55° Diamond

35° Round

—

Square

90°

E

20°

Triangle

60°

Trigon

80°

F

25°

85°

G

30°

82°

N

0°

P*

11°

Parallelogram

55° Hexagonal

120°

Octogonal

135°

Pentagonal

108°

Rectangular

90°

Rhombic

86°

Hole Chip Symbol Hole Style Breaker

N R F W T Q U

Nil No One — Face Hole Both Faces With Hole

Straight hole with top end countersink (40°–60°) Straight

Nil One Face

hole Nil With withendtop Hole counterBoth sink (40°–60°) Faces

Shape

Insert Type Chart 4

Chart 2: Relief Angle

O

Others

A F C H E G J* K* L* M* N* U*

Nose Height Inscribed Circle Thickness ± 0,005

± 0,025

± 0,025

± 0,005

± 0,013

± 0,025

± 0,013

± 0,025

± 0,025

± 0,013

± 0,013

± 0,025

± 0,025

± 0,025

± 0,025

± 0,025

± 0,025

± 0,13

± 0,005

±0,05 – ±0,15

± 0,025

± 0,013

±0,05 – ±0,15

± 0,025

± 0,025

±0,05 – ±0,15

± 0,025

±0,08 – ±0,2 ±0,05 – ±0,15

± 0,13

±0,08 – ±0,2 ±0,05 – ±0,15

± 0,025

±0,13 – ±0,38 ±0,08 – ±0,25

± 0,13

* Inserts with a 10° relief angle are sometimes considered as ”P” The height ”m” on sharp corner.

Chart 4: Insert Hole or Breaker

Tolerance of Nose Height (M-Class)

Hole Chip Symbol Hole Style Breaker

A M G B H C J X

C2

Tolerance Chart 3

Shape

Nil With Straight One Hole Hole Face Both Faces With Hole

Straight hole with top end countersink (70°–90°)

Inscribed Triangle Circle

6,35 9,525 12,70 15,875 19,05 25,40 31,75

± 0,08 ± 0,08 ± 0,13 ± 0,15 ± 0,15 ± 0,18 —

Square

± 0,08 ± 0,08 ± 0,13 ± 0,15 ± 0,15 ± 0,18 ± 0,20

80° 55° 35° Diamond Diamond Diamond

± 0,08 ± 0,08 ± 0,13 ± 0,15 ± 0,15 ± 0,18

± 0,11 ± 0,11 ± 0,15 ± 0,18 ± 0,18

Round

— ± 0,16

—

Tolerance of Inscribed Circle (M-Class)

Nil

Inscribed Triangle Circle

One Face

6,35 9,525 12,70 15,875 19,05 25,40 31,75

Straight

hole Nil With withendtop Hole counterBoth sink (70°–90°) Faces

Special

▌◄

± 0,05 ± 0,05 ± 0,08 ± 0,10 ± 0,10 ± 0,13 —

Square

± 0,05 ± 0,05 ± 0,08 ± 0,10 ± 0,10 ± 0,13 ± 0,15

80° 55° 35° Diamond Diamond Diamond

± 0,05 ± 0,05 ± 0,08 ± 0,10 ± 0,10 ± 0,13 —

± 0,05 ± 0,05 ± 0,08 ± 0,10 ± 0,10 — —

— ± 0,05 — — — — —

Round

— ± 0,05 ± 0,08 ± 0,10 ± 0,10 ± 0,10 ± 0,12

Inserts Identification Table

12 04 08 N - GE Insert Size Chart 5

Corner Radius Chart 7

Chip Breaker Chart 9

Feed Direction Chart 8

Chart 5: Cutting Edge Length (mm)

Chart 6: Thickness

Cutting Edge Inscribed Circle Cutting Inscribed Cutting Inscribed Shape Symbol Shape Symbol Shape Symbol Edge Circle Edge Circle Neg. Pos. Neg. Pos.

C

Symbol

Chart 7: Nose Radius

Thickness (mm)

Symbol

*

00

Nose Radius (mm)

03

3,55

3,50

07

7,7

6,35

03

3,8

5,56

X1

04

4,97

4,30

09

9,7

7,94

04

4,3

6,35

01

1,59

003

Sharp Point 0,03

06

6,4

6,35

11

11,6

9,525

05

5,4

7,94

02

2,38

008

0,08

08

8,0

7,94

15

15,5

12,70

06

6,5

9,525

T2

2,78

01

0,1

09

9,7

9,525

19

19,4 15,875

08

8,7

12,70

03

3,18

015

0,15

12 12,9

12,70

10 10,9

15,875

T3

3,97

018

0,18

16 16,1

15,875

19 19,3

19,05

25

25,4

06 S

(ISO Cat, No,)

Inserts

Thickness Chart 6

Picture of insert shown as example

25,8

6,35

D

V

6,35

W

08

8,3

4,76

11

4,3

6,35

04

4,76

02

0,2

09

9,7

5,56

16

6,5

9,525

05

5,56

0,35

0,35

11

11,1

6,35

08

8,0

8,0

06

6,35

04

0,4

16

16,6

9,525

10

10,0

10,0

07

7,94

0,8

22

22,1

12,7

12

12,0

12,0

08

09

9,52

6,9

3,97

12 12,70 12,70

10

1,0

06

12

1,2

16

1,6

20

2,0

24

2,4

32

3,2

R

S7

7,14

7,14

08

8,2

4,76

07

7,94

7,94

09

9,6

5,56

16

09 9,525 9,525

T

16,0

16,0

11

11,0

6,35

19 19,05 19,05

13

13,7

7,94

20

20,0

20,0

15 15,875 15,875

16

16,5

9,525

24

24,0

24,0

19 19,05 19,05

22

22,0

12,70

25

25,0

25,0

25 25,40 25,40

27

27,5 15,875

25 25,40 25,40

31 31,75 31,75

33

33,0 19,05

32

Chart 9: Chip Breaker

Symbol

Direction

Symbol

R

Right-hand

F

L

Left-hand

S

N

Neutral

L G U

Process

32,0

General

Round Insert (Metric) Round Insert 00 (Imperial) An ”M” after the nose radius indicates a negative tolerance

M0

32,0

Example: CCG T09T302 M NSI AC520U

Standard Handed

Bumpy Type

Fine Finishing FA, FL, FE, FB, FC to Finishing FK, FP Light Cut

CCET03X1 Insert thickness: 1,40 CCET04X1 Insert thickness: 1,80

15 15,875 15,875

12 12,70 12,70

Chart 8: Feed Direction

(*):

FT, FX, FZ FY, FW

SE, SEW, SI, SC, SF, SP, SU, SX LU, LUW, LB GE, GU, GUW UG, UP US, UX

SD SDW ST GZ UZ

UM MM HM

M

Rough

MP, MU, MX, ME

MC

H

Heavy

HG, HP, HF

HU HW

▌◄

Other Specials Wide Chipbreaker

W

For Countersink

C

For Round insert

RD, RP, RX, RH

For Exotic Alloy

EF, EG, EX, EM

For Aluminium

AW, AG, AX, AY, LD, GD,

For Hardened Steel For Carburized Layer Removal For Stainless Steel

FV, LV, GH SV EF, EG, EM

C3

Chipbreaker

New

NGU Type

For positive Inserts General Features Superb versatility handles processes from roughing to finishing. Stable machining is realised across a range of conditioins through excellent cutting edge sharpness and strength. Item range covers a wide variety of applications.

NGU-Chipbreaker for Positive Inserts

Excellent chip control performance –

Wide chip pocket for various cutting conditions

Less Vibration –

Improved chip control in a wide application field

Suppresses chip jamming at high feed rates for ideal chip control

–

Wide restraining face enables consistent chip control for light to medium cutting.

–

Discharges chips well under high feed conditions and suppresses build-up

Smooth chip breaking –

C4

Achieves stable machining with both versatility and low resistance

▌◄

New

For positive Inserts

Chipbreaker

NGU-Type

Improved Fracture Resistance

The two step rake angle geometry ensures outstanding sharpness and hardness. Corner A-A Cross Section

Edge B-B Cross Section

(mm)

(mm)

1,6

0,2

25°

0,15

$

5°

3°

%

8°

15°

$

CCMT 09T3_ _ Type

%

CCMT 09T3_ _ Type

Application Range Enhanced application range over conventional products.

Depth of Cut (mm)

NMU

NGU

NSU

NLU

Feed Rate (mm/rev)

Application Examples 24CrMo5, Automotive Parts

15CrMo5, Fastening Parts

Improves chip entanglement for improved machining efficiency.

Strong cutting edge design realizes 1,5 times the tool life.

ap = 2,0 (1 pass)

ap = 2,0 (1 pass)

Chattering occurs Not applicable ap = 1,0 (2 passes)

ap = 1,0 (2 passes)

NGU NGU

Competitor B

Conventional

Insert: CPMT 090308 NGU (AC8025P) Cutting Conditions: vc = 200 m/min, f = 0,2 mm/rev, ap = 2,0 mm, wet, internal taper boring

Insert: CCMT 09T308 NGU (AC8025P) Cutting Conditions: vc = 190 m/min, f = 0,25 mm/rev, ap = 1,0 mm, wet, internal boring

▌◄

C5

Chipbreaker

Negative M Class Chipbreakers for Low Carbon and General Steel Turning

NFE Type / NFB Type

General Features The high performance NFE type, which ensures stable chip control in a wide range of feed rate, has been added to the chipbreaker series for low carbon steel and general steel turning. Extensive product lines are available to meet various machining requirements. A positive insert execution of chipbreaker NFB is also available.

Application Range

1,6 Depth of Cut (mm)

Inserts

P

2,0

NLU

NFB

NFE

1,2 0,8

NFL

0,4

0,1

0,2

0,3

0,4

0,5

Feed Rate (mm/rev)

NFE Chipbreaker for Finishing Supports general purpose machining to high speed machining.

Work Material: Insert: Cutting Conditions:

The arc-shaped main breaker ensures stable chip control in a wide feed rate range.

Pipe steel (H240LA, 1.0480) CNMG 120408 NFE (AC8025P) vc=200 m/min, f=0,4 mm/rev, ap=0,2 mm, dry

Excellent chip control under low depth of cut and high feed rate condition

The two step chipbreakers enable stable chip control at a low feed rate of f = 0,1 mm/rev. The sub-breaker controls cutting chips in profiling.

Performance

Cross-section of chipbreaker

1,40 0,70 20°

NFE Type (AC8025P)

Conventional

Application Examples Work Material: Facing Insert: Cutting Conditions:

Work Material: C53E,1.1210, Ø20-100 Exter. Turning+Facing Ins.: DNMG 150412 NFE (AC8025P) Cutting Conditions: vc=180 m/min, f=0,25 mm/rev (radius), 0,45 mm/rev (straight section), ap = 0,3 mm, wet

Deep-draw steel (SPHC440) CNMG 120408 NFE (AC8025P) vc = 200 m/min, f = 0,15 mm/rev, ap = 0,2–0,5 mm, wet

Stable chip control even at a variable feed rate in shallow cutting.

Stable chip curling and breaking in facing of gummy steel.

NFE Type (AC8025P)

Competitor

NFE Type (AC8025P)

Conventional

NFB Chipbreaker for Low Feed Finishing Application Example

Supports low feed machining.

Work Material: Internal Turning Insert: Cutting Conditions:

Smooth chipbreaker geometry with a high rake reduces cutting resistance. The variable rake angle in nose radius makes effective strain on chips and improves the breaking performance.

Small chip curling and control

Cross-section of chipbreaker

0,80 27°

C6

Pipe steel (STKM13C) DNMG 150404 NFB (T3000Z) vc = 352 m/min, f = 0,03–0,2 mm/rev, ap = 0,7 mm, wet

NFB Type (T3000Z)

▌◄

Competitor

Chipbreaker

NGH Type

For Hardened Steel Turning

General Features Enables medium roughing of hardened steel in combination with coating and grade AC503U. Reduces heat generation and enables deep cutting (ap = 1–3 mm) of hardened steel by using a wide neutral ground chipbreaker (rake angle: 4°) and sharp edge. Discharges chips smoothly.

Inserts

Negative Insert for Rough Cutting NGH Type Chipbreaker Performance

NGH Type Chipbreaker Low Cutting Force Without Chipbreaker Insert

Back Force Feed Force Principal Force 0

200

400

600

800

1000

Cutting Resistance (N)

Application Examples Work Material: Insert: Cutting Conditions:

NGH Type Chipbreaker

Only minor wear occured after 40 min cutting

X155CrVMo12-1 (61HRC) TNGG 160404 NGH (AC503U) vc = 50 m/min, f = 0,05 mm/rev, ap = 3,0 mm, dry

Stable chip forming

Without Chipbreaker

Major wear occured after 20 min cutting

Recommended Cutting Conditions Application Range

Cutting Speed vc (m/min)

Feed Rate f (mm/rev)

Depth of Cut ap (mm)

Recommended Chipbreaker

Finishing

40–100

0,02–0,10

<1

Without chipbreaker

Medium Roughing

20–60

0,02–0,05

1–3

NGH Type

Work Material:

Hardened steel (50–62 HRC), X155CrVMo12-1, X40CrVMo5-1, S6-5-2, High-speed powder and high speed steel

▌◄

C7

Chipbreaker

NEG Type / NEF Type

For Exotic Alloys and Stainless Steel Turning

General Features

Application Range

NEG/NEF type chipbreaker for exotic alloy machining can be used for Titanium alloys, heat-resistant alloys and a variety of other exotic alloys. They deliver excellent wear resistance and superior chip management. These chipbreakers can solve quality problems caused by the unstable tool life and poor chip control provided by conventional chipbreakers for exotic alloys.

Depth of Cut (mm)

4,0

NEG

2,0

NEF

NSU

0

Inserts

NMU

NEX

Feed Rate 0,4 (mm/rev)

0,2

NEG Chipbreaker for Roughing Provides excellent wear resistance and chip control from general-purpose machining to roughing applications. Reduces damage to insert and eliminates trouble from chips specific to exotic alloys. Also demonstrates very high versatility. Crater wear advancement is prevented by the round bumps, whilst maintaining excellent control.

Cross Section of Chipbreaker

The cutting edge maintains the strength slowing the progress of crater wear.

Excellent chip management and wear prevention is delivered by the special rake face design.

1,75

0,09

30°

Cutting Performance – NEG Type Heat Resistant Alloy

Work Material: Inconel 718

Chipbreaker type: NEG (AC510U)

Conventional tool (S10)

Insert: CNMG120412

Suppresses the chipping of peripheral cutting edge and notch wear. Excellent chip management.

Titanium Alloy

Cutting Data: vc = 40 m/min ap = 2,5 mm f = 0,2 mm/rev wet Tc = 7 min

Work Material: Ti-6Al-4V

Chipbreaker type: NEG (AC510U)

Notch wear / poor chip control

Conventional tool (S10)

Insert: CNMG120412 Cutting Data: vc = 65 m/min ap = 2,5 mm f = 0,2 mm/rev wet Tc = 8 min

Suppresses crater wear and flank wear. Excellent chip management.

Crater wear / flank wear / poor chip control

Application Example – NEG Type Inconel 718, machine component

Pure Titanium (Ti grade 3), machine component 3 pcs

3 pcs

3 times

2 pcs

1 pcs 3x tool life and improved chip management

Insert: Cutting Data:

C8

1,5 times

NEG Competitor (AC520U)

1,5x tool life and improved chip management

CNMG120408 NEG (AC520U) vc = 50 m/min, ap = 1,5 mm, f = 0,3 mm/rev, wet

Insert: Cutting Data:

▌◄

Competitor NEG (EH510)

CNMG120408 NEG (EH510) vc=80–100 m/min, ap=1,0 mm, f=0,25 mm/rev, wet

Chipbreaker

NEG Type / NEF Type

For Exotic Alloys and Stainless Steel Turning

400 200 100

Cutting Speed (m/min)

Cutting Speed (m/min)

Material Application Range BN7000

AC510U / EH510

50

AC520U / EH520

10 Finishing

200

AC6020M

150

AC6030M

100

AC6040M AC630M

50

Roughing

AC530U

Finishing

Roughing

Inserts

NEF Chipbreaker for Finishing The NEF chipbreaker reduces chip curl diameter in finishing applications. Provides extremely good chip management not fluctuated by the material in use. Main chipbreaker that enables good chip control even at low depths of cut.

Cross Section of Chipbreaker 1,2 20°

Sharp edge with 20° rake angle reduces wear.

The grooves on the rake face reduce heat and assist chip flow away from the workpiece.

Cutting Performance – NEF Type Heat Resistant Alloy

Work Material: Inconel 718

Chipbreaker type: NEF (AC510U)

Conventional tool (S10)

Competitor‘s product (S10)

Insert: CNMG120408

Improvements in chip control and chip removal management based on small curled chips.

Titanium Alloy

Cutting Data: vc = 55 m/min ap = 0,3 mm f = 0,15 mm/rev wet Tc = 8 min

Work Material: Ti-6Al-4V

Chipbreaker type: NEF (AC510U)

There is a problem in the length and the diameter of chips.

Conventional tool (S10)

Competitor‘s product (S10)

Insert: CNMG120408

Improvements in chip control and chip removal management based on small curled chips.

Cutting Data: vc = 80 m/min ap = 0,5 mm f = 0,2 mm/rev wet Tc = 25 min

There is a problem in the length and the diameter of chips.

Application Example – NEF Type Inconel 718, shaft component

Great improvement in chip management. Keeps workpieces free of damage. It is possible to omit final polishing process.

Insert: Cutting Data:

NEF (AC510U)

Duplex stainless steel cover

Improvements in chip management. Suppress damage to finished surface with no entanglement of chips.

Conventional tool

CNMG120408 NEF (AC510U) vc= 45 m/min, ap= 0,25 mm, f = 0,1 mm/rev, wet

Insert: Cutting Data:

▌◄

NEF (AC510U)

Conventional tool

CNMG120408 NEF (AC510U) vc= 55 m/min, ap = 0,3 mm, f = 0,125 mm/rev, wet

C9

Chipbreaker

NEM Type

Chipbreaker for Stainless Steel Turning NEG

6,0

NMU

NEF

NSU

2,0

0

Inserts

NEM

NEX NUP NGU

4,0

Cutting Speed (m/min)

Depth of Cut (mm)

Application Range

0,2

0,4

0,6

Feed Rate (mm/rev)

200

AC6020M

150

AC6030M

100

AC6040M

AC630M

50

AC530U

Finishing

Roughing 6.0

EGType EX Type UP Type The NEM chipbreaker achieves excellent fracture and crater resistance and ensures extremely stable machining. GU Type 4.0

NEM Chipbreaker for Rough Cutting

2.0

Large radius rake face design that reduces crater wear while maintaining the cutting edge strength.

Reduces boundary damage by eliminating changing points from the cutting edge.

Reduction of Damage Cutting Edge

Reduction of Crater Wear

Boundary Wear Comparison

Cross Section

Crater Wear Comparison

Conventional Geometry

NEM Type The NEM chipbreaker has no changing points on the cutting edge, so boundary damage is reduced.

The NEM chipbreaker smoothly evacuates chips thanks to its large radius rake face design, so crater wear is reduced.

Application Example 350

Output (pcs)

300

Conventional Geometry

Ø700

200 150 100 50 0

NEM

(AC6030M)

Reduces breakage out of the cutting edge and ensures stable machining. Work Material: Insert: Cutting Conditions:

C10

2,0 times

250

NEM Conventional (AC6030M) Geometry

Reduces crater wear and provides long tool life.

X5CrMo17 12 2 SNMG190616NEM (AC6030M) vc = 70 m/min, f = 0,5 mm/rev, ap = 3,0–8,0 mm, wet

Work Material: Insert: Cutting Conditions:

▌◄

M

EFType SUType

Bright colors for easy identification of 0.2 0 used cutting edge.

Reduction of Boundary Damage

EMT

X5CrNiS18 10 SNMG120408NEM (AC6030M) vc =100 m/min, f = 0,32 mm/rev, ap = 2,0–2,5 mm, wet

0.4

Chipbreaker

Positive M Class Chipbreakers for Low Carbon and General Steel Turning

NFB Type / NLB Type

Application Range Depth of Cut (mm)

3,0 NSU

2,0

NLB

1,0

NFB 0

0,2

0,3

Feed Rate (mm/rev)

NLB Chipbreaker for Light Cutting

The NFB type for finishing and the NLB type for light cutting have been added to the chipbreaker series for low carbon and general steel machining in addition to the already present NLU type for finishing and NSU type for light cutting. The NFB and NLB type chipbreakers improve chip control in finishing of low carbon and general steel.

Ridge reduces edge breakage

Inserts

NFB Chipbreaker for Finishing

NLU 0,1

Strengthened edge reduces unexpected breakage

High rake breaker wall impoves chip breaking performance Special breaker ridge shape achieves stable chip control

Variable rake angle in nose radius increases chip strain and improves chip breaking performance

0,8

0,5

15°

20° Cross Section of Chipbreaker

Performance

Cross Section of Chipbreaker

Performance

Chip Control

Chip Control 

Achieves stable chip control at small cutting depth and low feed.

Achieves stable chip control in light cutting.

50 mm

NFB Type Chipbreaker (T1500A) Work Material: Insert: Cutting Conditions:

50 mm

Competitor’s Product

NLB Type Chipbreaker (T1500A) Work Material: Insert: Cutting Conditions:

Pipe (H240LA), Ø 30 Boring TPMT 110304 NFB (T1500A) vc = 100 m/min, f = 0,12 mm/rev, ap = 0,1 mm, wet

Competitor’s Product

Pipe (H240LA), Ø 30 Boring TPMT 110304 NLB (T1500A) vc = 200 m/min, f = 0,15 mm/rev, ap = 0,5 mm, wet

Chip Control 

Comparison of Surface Roughness of Finished Surfaces

NLB Type Chipbreaker (T1500A) 100 mm

100 µm

NFB Type Chipbreaker (T1500A) Work Material: Insert: Cutting Conditions:

Doubles the tool life by improving chip control and reducing blemishes on machined surfaces.

100 µm

Competitor’s Product

Pipe (H240LA), Ø 100 Boring TPMT 110304 NFB (T1500A) vc = 200 m/min, f = 0,07 mm/rev, ap = 0,1 mm, wet

Work Material: Insert: Cutting Conditions:

▌◄

Competitor’s Product 100 mm

Hub (C45) VBMT 160408 NLB (T1500A) vc = 240 m/min, f =0 ,25–0,28 mm/rev, ap = 0,6 mm, wet

C11

Chipbreaker for Steel Turning

(M)NSI Type

Nose radius with minus tolerance (M) Example: DCGT 11T304

Application Range

Cutting Performance

M NSI

15 cm

3

2

Depth of Cut (mm)

Depth of Cut (mm)

Inserts

3,0

NSI

1 NFC

1,0

0,5

0,1 0,1

0

0,1

0,15

0,2

0,3

Feed Rate (mm/rev)

0,2

Work Material: X5CrNiMo17122 Insert: DCGT11T304M NSI, Cutting Conditions: vc = 100m/min

Feed Rate (mm/rev)

Application Examples Inconel 718, machine component external turning

X5CrNi1810, Shaft component external turning & facing

150 pcs

Output

100 pcs

NSI (AC510U)

NSI Competitor‘s (AC510U) Product

1,5 x higher tool life. Improved chip management.

Improved chip management. Suppressing cutting edge adhesion to ensure a stable, long tool life.

Insert: Cutting Conditions:

Insert: Cutting Conditions:

DCGT11T302M NSI (AC510U) vc = 35 m/min, f = 0,08 mm/rev, ap = 0,8 mm, wet

DCGT11T304M NSI (AC520U) vc = 100 m/min, f = 0,08 mm/rev, ap = 0,5 mm, wet

– Sharp designed cutting edge with low-cutting force – Better chip control in wide range DOC for bar feeder machine – Combination of high rake edge design and G-class precision offers superior cutting performance – Suitable for medical parts and high precision machining

C12

Conventional Tool

▌◄

Chipbreaker Comparison Negative Type Class

Application

Sumitomo Electric

Mitsubishi

Tungaloy

Kyocera

AX

Finishing

EF EG, EX MU FV, GH LV SV

BF BM

HRF HMM,SA SQ SG,SX HP* HF* HH*,HL* HM* HD*

Sumitomo Electric

Mitsubishi

Tungaloy

Roughing Finishing Light Cut Carburized Layer Removal

Sandvik

Kennametal SECO Tools

WALTER

ISCAR

TF GP QF FF FF1 SF NS,ZF XP,XF,VF WM FF2 FP5 NM XQ,CQ,PP TF1 LC FN NF3 TS,TSF HQ UL,WV XF,MF CT MF2 NF AFW, FW WP,WF WL,WP W-FF2 SW ASW, SW WQ WF,WMX FW W-MF2 NF WF LP AS,ZM CJ,XS ZW1,WR PF,KF LF, 33 MP3,NS6 F3P, TF MA,MV TM,TQ HS,PS ZP XM,QM P,MG M3 MU5 GN MH,MP DM,AM CS,GS,PQ,PT Z5 MP5,NM4,NM6 RF, LF PM,SM,KM MN, MP1 MW WE WM MW, RW W-M3 NM WG GH, RP TH, S HT,GT,PH G PR,XMR,KR RP M5,MR7 NM7,NM9,RP5 M3P,NR HAS,MT CH RN MR6 HL,HZ,HX THS,TRS PX,Standard QR RM,MR R4,R5,M6 NR6,NRF NM HH,HXD,HR 65 HR,SR RH R7,MR7 NR8 TNM HV HCS TUS MR RR9 NRR R3P LM,SH SS MQ,GU ZF1 MF FP,FS,LF MF2 NF4,FM5 F3M GM,MS SF,SA MS, MU ZP 23 MS MF1,M1 MM5 TF,VL MM SM MM, SMR MP MF3,M3 NM4,MS3 M3M,PP ES,1M,2M S UP MF4, MF5 NR4, RM5 GH,RM,HM SH TK MR, MRR M5,MR3 HU5 MR,R3M LK,MA,MK, CM,CF Standard KF UN M5 NM5 GN GH,RK,GK Standard,CH,33 ZS,GC,KG,KH KM,KR MR7 RK5, RK7

Finishing Medium Cut

NTK

FH,FP FS,FY SA,SY SH

P LS,FJ MJ,MS GJ,RS

AH

Inserts

FA Fine Finishing FL, FB LU, FE Finishing SU LUW Wiper Edge SEW Finishing to Light Cut SE, SX GU （UG） Medium Cut GE, UX GUW Wiper Edge MU, ME Roughing MX, MP HG HP Heavy Cut HU, HW HF SU, EF Finishing EX, EG Light to Medium Cut GU HM Roughing EM, MU UZ Light Cut GZ （UX） Medium Cut

MS SF, SGF SM, SMC SMR

NFT F3S M1 NMT,NMS VL MR3,MR4 NRT,HU5

* CBN/PCD tool breaker

Positive Type Class

Application

Kyocera

NTK

Sandvik

Kennametal SECO Tools

WALTER

ISCAR

FC FJ,AM 01, JRP,JTS CF,GF,VF AM3,AZ7,FG UM GT-F1 FM4 Finishing FB, LU (FP, FK) FP,FM,FV,SQ PSF,PF,23 GP,XP,MQ,PP ZR PF,UF,MF,KF 11,UF,MF,KF,XF FF1 PF4 PF LUW SW WP WF FW W-F1 PF WF Wiper Edge SDW WK,WM MW W-F2 WG SI SMG JS,CM,PSS CK,SKS YL,1L Finishing to Light Cut LB LP,LM,SV,MQ PSS,PS,24 XQ AM2 LF SC GQ,SK,standard AF1,CL MP MF2 Light to Medium Cut SU, GU SV,MQ PS,TSF,TM HQ,XQ,GK AZ8,AM2,AM5 PM,UM,XM F1 MP4,MM4,FK6 SM,14 MU MV,MM,MK PM PR,UR,NMC MF F2,M3,M5 RP4,RM4 19 Medium Cut FC FM,FV PSF,PF,SS,JSS AZ7 MF,XF 11,UF FF1 FM4 PF Finishing SI SMG YL,1L,CL UF LF,FP Finishing to Light Cut LB LM MQ F1 SV HQ AM5 MM MP MF2 MM4,PS5 SM Light to Medium Cut SU,GU MU NM,MV PM UM,MR,XR,UR MF F2,M3,M5 PM5,RM4 Medium Cut FC CF KF,XF 11,UF FK6 Finishing MK AF1,FM KM,UM,XR FP,LF,MF,MP M5 MK4,RK4 Light to Medium Cut MU AG,AW,AY AZ AL,PP AH,AP AL HP AL PM2 AS,AF Finishing LD, GD Finishing to Light Cut FC,SI FS PSS PP,MQ WF,MF MF2,R2,R3 Finishing LS,MS PS,PM HQ,GK UM,PM FV4,MV4 Light to Medium Cut SU,GU FV HP* Finishing LV BF* Light Cut

▌◄

C13

Chipbreaker Application

Bumpy Breaker

C D R

Break Master (CBN/PCD)

S

T

Better chipcontrol under low feed conditions with sharp edge shape.

Breaker Code

Profile breaker perfect for fine finishing

Fine Finishing

Inserts

α=

0°

C

D

S

T

V W

27°

CNMG1204○○NFB

R

S

T

C D R α=

T

V W

CNMG1204○○NFA

0°

D R R C D C

V W

S SS

TT

N-GU P M K N S H

V W W V

D D

C C α=

0°

C C C

D D D

R R

S S

T T

CNMG1204○○NFL

R R R

S S S

T TT

C D R D R R C D C

V W V W

α=

T TT

S SS

T TT

0°

S

T

V W

α=

Stock Items

C

D

R

S

T

V W

C

D

R

S

T

V W

C

D

R

S

T

V W

C

D

R

S

T

V W

V W V20° W W V

Characteristics Cross Section Cross Section Cat. No.

CNMG1204○○NGU

0°

CNMG1204○○NFE

C D R D R R C D C

V W VV W W

S SS

R

Relief angle

Good chipcontrol from low to high feed rate

1,40 0,70

D

C

PMK N S H PMK N S H N-FE N-FL C D R S T V W C D R R SS TT V C D V W W Optimal breaker for chip management on iron sheeting

Work Material

Versatile breaker featuring excellent wear resistance

Appearance

0,80

R

For Chamfering

V W

PMK N S H N-FB P M K N S H N-FA C D R S T V W

D

Handed Breaker

Finishing to Medium Cutting

Negative Type

C

Standard Breaker

V W V W W V

S MTK NV S WH C D R SP MTK NV S WH C D R P C D R S T V W C D R R SS TT V C D V W W N-SU P M K N S H N-SE P M K N S H N-EF P M K N S H D R R S S TT VV W C D W N-SP N-LU C

Finishing

Effective chip management for fluctuating cut depths and copying

C C C

D D D

R R R

S S S

T TT

α=

0°

R R R

S S S

TT T

D D D

C C C

C D R D R R C D C

S S S

T TT

V W V W W V

α=

S SS

T TT

CNMG1204○○NSP

V W VV W W

CNMG1204○○NLU

VV W V W W

0°

C D R D R R C D C

V W V W W V

Finishing breaker reduces tool wear on rake face. Effective even for high efficiency machining.

Effective in highspeed fine finishing

Shows excellent cutting performance in finishing to light cutting

C

D

α=

0°

C

D

R

S

T

R

S

T

V W

C

D

CNMG1204○○NSU

α=

0°

V W

C

D

R

S

R

S

C C

T

D

R S V W

CNMG1204○○NSE

T

D

Chipbreaker for exotic alloy finishing with excellent chip management

T α=

V W 0°

R S T V W V W C D R S

CNMG1204○○NEF

T

V W

PMK N S H PMK N S H PMK N S H PMK N S H S MTK NV S WH L/R-FX C D R P CT DV RW S T V W D R S T V W NSE-W C C D R S T V W C D R S C T D V R WS L/R-FT NLU-W C D R R SS TT V C D V W W C D R S T V W L/R-FY C D R S T V W C D R S T V W D R R S S TT VV W C D W C High performance finishing breaker with wiper edge

D C C D C WiperD α=

0°

C C C

D D D

New high feed finishing breaker with wiper edge

C D R D R R C WiperD C

R R R

S S S

TT T

CNMG1204○○NLUW

α=

R R R

S S S

TT T

C D R D R R C D C

VV W V W W VV W V W W

S SS

T TT

S SS

T TT

0°

Parallel breaker with superior sharp edge

V W V W W V

C C

D D

CNMG1204○○NSEW

α=

0°

C C

D D

V W V W W V

R R

S S

T T

R R

S S

T T

Wide type breaker with sharp edge

Arc-shaped ground type finishing breaker

C D R S C T D V R WS CT DV RW S C D R S T V W C D R S

V W V W

α=

TNGG1604○○L/RFX

0°

TNGG1604○○L/RFY

α=

0°

V W V W

TNGG1103○○L/RFT

C D R S C T D V R WS CT DV RW S C D R S T V W C D R S

V W V W

T T T T

V W V W

D R P S MTK NV S WH C D R P S T V W C D R S T V W C D R S C T D V R WS CT DV RW S T V W C C D R R S T V W C D R S T V W C D R S T V W C D C D C N-SJ 型 SJD RR SS TT VV WW L/R-ST STR 型SS MTTK NVV S WWH C D GX UM 型 D

C

R

S

C

D

R

Standard breaker with excellent cutting edge strength

C C C

D D D

R S T 1,2V W R S R 0,18 S TT VV W W

α=

0°

R R R

D D D

C C C

S S S

T TT

SNMG1204○○NSJ

V W VV W W

C D R D R R C D C α= C

C 0°D R D R R C D C

V1.65W V W W V

C C

D D

R R

S S

T T

V 1.5 W V 15° W

C D R S C T D V R0.15 WS CT2.0 DV RW S D R S C D R S T V W C 14°

T T

V W V W

TTNGG1603○○L/RST V W V W W TT V

C C

D D

R R

S S

T T

V W V W

C D R S C T D V R WS CT DV RW S C D R S T V W C D R S

T T

V W V W

S T S S 0.15TT S S S

PMK N S H C D R S C D R S C D R SP MTK NV S WH C D R S C T D V R WS CT DV RW S T V W T V W N-UP P MTK NV SWH N-SX N-EX C D R R S C D D R R S S TT VV W C D V W W C D R S T V W C D R S T V W C D R S T V W W C S TT V Standard breaker designed especially for use with exotic alloys

C C C C

D D D D

α=

0°

R R R R

S S S S

TTT T

Double positive edge for optimal stainless steel cutting

C D R R C D D R R C D C

W VVV W V W W

S S S S

TT TT

VV W W V W W V

Perform copying and Perform copying raiseraise steps steps and

C D R S C T D V R WS CT DV RW S C D R S T V W C D R S

T T

V W V W

C D R S C T D V R WS CT DV RW S C D R S T V W C D R S

T T

V W V W

W C D R S C T D mm) C D RR SS TT (Insert C up V W V R WS CT DV RW S D R R S S TTT VVV W C D VVV Chipbreaker W W W IC W CC DD Range R S T VV W C D toR ØS12,7 T V W C D R S V W W C D R S Application

T T

V W V W

CC DD RR SS C D R S

TT T

VV W W V W

C DDDD型 RRRR SSSS TTTT VVVV WWWW CCC DDDFPRRR 型SSS TTT VVV WWW CCC DDD RRR SSS TTT VVV WWW CC DD RR SSC TTD VVR WWS CCT DDV RRW SS TT VV WW

2.95

CNMG1204○○NEX

0.15

10°

α=

2.15

C C C C

D D D D

R R R R

S S S S

W TTT14°VVV W T V W W

C C C C

D D D D

R R R R

S S S S

TTT T

CNMG1204○○NUP

0°

C D R

S

T

D D D

S S S

TT T

C C C

R R R

15°

V W

10° VV W W C D R S V W CC DD RR SS

SS 型

N-FB

C C

0

UJ 型

D D D

1 N-FA/N-FL D R S 1.15 TN-FEV W C C D R S T V 5°W C

D D D

R S S R RN-LU S

T T

0,3

0,1

R (mm/rev) S T CFeedD Rate C D R S T

0,5

R RN-SXS S R S

N-SU

0

R R R

S S S

TT T

6

TT T

VV 2.00 W W V W

2

0,5

0

V W V W

C C

VV W W V W

RD 型

VV W W V W

V W V W

VV W W V W

VV W W V W

CC DD RR SS 4C D R S

D Rate R (mm/rev) S T V W C Feed C D R S T V W

TT T

Wiper R Insert S T CC D C DD RR SS TT

VV W W V W

N-SE

TT T

0,3

0,1

Depth of Cut (mm)

1

Depth of Cut (mm)

2

3

V W C C V W 2C

D D D

C C C

CNMG1204○○NSX

0°

1.40

Fine to to LightS Cutting D R R Finishing S TT VV W C C Standard W Finishing D S D R R S TT VV W C C D W C D R S T V W C D R S T V W 3

α=

TT T

N-GUW

N-SEW

R S CC DD N-LUW C D RR SS

0,6

0,3

High Precision Machining D R SInserts) C (Ground T V W C D R S T V W

Depth of Cut (mm)

C C C C

Depth of Cut (mm)

.90

Light to Medium

1.35

S

Arc-shaped ground type breaker for light cutting

0,9

3

N-FY

0

0,1

S S

T T

V W V W

C D R C D R

S S

T T

V W V W

V W10.5C D R V W25° C D R

S S

T T

V W V W

AW 型

C D R S C2 D R S 1

C D R C D R

T T

V W V W

N-SU

S T C D R N-FX C D R S T 0,3

0,5

D Rate R S(mm/rev) CC Feed T V W W C DD RR SS TT VV W

C DFeedRRateS(mm/rev) T V W C D R S T V W

C D R C D R

S S

T T

V W V W

CC DD RR SS C D R S

C D R S C D R S

C D R C D R

S S

T T

V W V W

Indicated chipbreaker application ranges and shapes are representative values only. Actual values may change according to the actual catalogue number. For details, refer to stock pages (from Chapter B onward).

C14

C C

D D

R R

S S

T T

D D

R R

S S

T T

V W V W

▌◄

TT T

VV W W V W

T T

V W V W

Bumpy Breaker

Standard Breaker

Handed Breaker

C型

For Chamfering

Break Master (CBN/PCD)

MM 型

2.95

0.15

FP 型

2.15

0.15

1.40

Medium to 14° Rough Cutting

Negative Type 10°

Chipbreaker Application

C D R

S

T

V W

10°

C D R SP MT K N C D R SP MT K VN SWH V SWH N-UG P M K N S H N-GU N-GE P M K N S H N-UX Features low cutting resistance and excellent wear resistance

D D

S S

T T

V W V W

C

C

0°

D

R

R

CNMG1204○○NGU

S

α=

S

T

0°

V W CNMG1204○○NGE

0.90

1.15

General-purpose chipbreaker for exotic alloys with good chip control and wear resi15° stance

D D D

C D R C D R

S S

T T

V W V W

C

D

R

S

T

V W

R R R

S S S

T T T

V W V W V W

α=

0°

C D R

α=

0°

R R R

CNMG1204○○NEG

S S S

10.5 25°

General-purpose ground type medium cutting breaker

C D R S T V W C D R S T V W C D R S T V W

C

D

R

S

T

V W

α=

C

D

R

S

T

V W

SNMG1204○○L/RUM

N-EM

N-MU AX

N-ME AY

N-UZ

N-GZ

L/R-HM

GH

RH

FB

GD

N-MX

LB

15°

LD

S S

T T

V W V W

C C

D D

R R

S S

T T

V W V W

C D R C D R

S S

T V W T MV W

C

D

C C

D D

R R

S S

T T

V W V W

C C

L/R-HM D R

D

R

S S

T T

V W V W

C D R C D R

S S

T T

V W V W

C

D

C

D

R

S

T

V W

C

D

R

S

T

V W

C

D

S

T

V W

Feed Rate (mm/rev)

Feed Rate (mm/rev)

R

Feed Rate (mm/rev)

Depth of Cut (mm)

R R

Depth of Cut (mm)

D D

Depth of Cut (mm)

C C

No breaker

R

S

T KV W

R

S

T

Feed Rate (mm/rev)

Exotic Alloys S

Depth of Cut (mm)

C 0°D C D C D

AW 型

CNMG1204○○NUG

2.00

5°

Finishing breaker with wiper edge for high efficiency medium finishing

C D R S T V W C D R S T V W C WiperD R S T V W

CNMG1204○○NUX

S

CNMG1204○○NGUW C 0° D R S T V W α=C 0° D R S T V W C D R S T V W T V W C D R S T V W T V W D R S C T V W C D R S T V W C D R S T V W C D R S T V W T V W C D R S T V W D R S D R S D R S C C C C D R S T V W T V W T V W T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R SP MT K N V SWH PMK N S H PMK N S H PMK N S H S T excellent S Tdouble-sidedV breakerWwith S forTrough cutting S Tcutting C D R Achieves C D R Economical, C D R Chipbreaker C D R Strong V fracture W V that supports W V edge W 型 型 S crater S cutting C D R and T resistance V W T with reduced V rake W C D R Slow cuttingTresistanceVfor high feedWcutting C D R high-feed for interrupted cutting face wear C D R S T V W C D R S T V W C D R S T V W C D R S T V W 2.50 C D R S T V 2.50W C D R S T V W C D R S T30° V W C D R S T V 15° C D R S T V W W C D R S T V W C D R S T V W C D R S T V W D R S D R S D R S C C C C T V W T V W T V W T CNMG1204○○NMX V W α= 0° α= 0° α= 0° α= 0°D R S CNMG1204○○NEM CNMG1204○○NMU CNMG1204○○NME C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R SP MT K N V SWH C D R SP MT K N V SWH C D R SP MT K N V SWH C D R S T V W C D R S T V withW Extremely reliable standard breaker with low C D R SStandard C D R S C D R SWide, M claTss, handed breaker C D R S T V W T performance V W T strongVcuttingW V W breaker with edge stable cutting C D R S T V W C D R Scutting resiTstance for mediVum to rough Wcutting. C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W R S T V W C D 型 C D R 型S T V W C D R S型T V W C D R S 型 T V W D R S D R S TNMG1604○○ C C T V W T V L/RHM W D R S C T V W α= 0° α= 0° 0° CNMG1204○○NUZ CNMG1204○○NGZ α= TNMG1604○○L/RHM D R S D R S D R S C D R S T3.50 C C C V W T V W T 0.50 V W T V 0.80W 0.30 C D R 3°S T V W C D R S T V W 15° C D R S T V W C D R S T V W C D R S -15°T V W C D R S T V W 20° C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W R S T V W C D 型 C D R 型S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S 0.8T V W C D R S T V W C D R S T0.4 V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V 20° C D R S T V W25° C D R S T V W W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W R S T V W D R S T V W C D ポッキーチップ C 全周ブレーカ C D R S T V W C D R S T V W 勝手つきブレーカ C D R S Application T V W R S T(Insert D Ø R 12,7 S Tmm) C D R S T V Chipbreaker C D R S T V W C DRange C to W V W IC up V W 面取用 R S T V W （CBN/PCD） C D ブレイクマスター C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W Medium Cutting Stainless Steel Cast Iron D RCutting S T V W CRough

α=

Depth of Cut (mm)

D

T V W T V W C D R S T V W R S T V W D R 型S T V W R S 型T V W S T型 V W C D 型 C SS C D UJ C D RRD FW PMK N S H PMK N S H PMK N S H C D R S T V W NGU-W C D R S T V W C D R S T V W L/R-UM N-EG C D R S T V W C D R S T V W C D R S T V W C D R S T V W

α=

C C C

Medium to Rough

R R

Popular and versatile breaker

Extremely reliable and versatile breaker with strong cutting edge

Inserts

Medium

C C

A versatile breaker with excellent rake surface wear in high efficiency cutting

V W

Feed Rate (mm/rev)

Indicated chipbreaker may change R S ranges D R values S Tonly.VActualWvalues C C D application D Raccording S Tto theVactualWcatalogue number. For details, refer to stock pages (from Chapter B onward). T Vand shapes W areC representative

C

D

R

S

T

V W

C

D

R

S

T

V W

▌◄

C15

C C

D D

R R

S S

T T

V W V W

C C

D D

R R

S S

T T

V W V W

C C

D D

C C C

D D D

R R R

S S S

T T T

V W V W V W

C C

D D

R R

S S

T T

V W V W

C C

D R SSUMIBORON T V W D R S T V W Break Master

C D R S T V W C D R S T V W D R S Type CNegative T V W

C C

D D

R S T V W C D R Rough S T V Cutting C D W

Chipbreaker Application D

C

R

S

T

R R

S S

T T

V W V W

Bumpy Breaker

R R

S S

T T

Standard Breaker

Handed Breaker For Chamfering

V W V W

V W

Rough to Heavy

Inserts

C D R SP MT K N V SWH C D R SP MT K N V SWH V SWH C D R SP MT K N C D R S T V W N-MP C D R S T V W N-HP C D R S T V W N-HG D D D

R R R

α=C 0°D

R R R

C C C

D D

C C

Excellent chip management for heavy cutting

S S S

T T T

S S S

T CNMM1606○○NHG V W T V W T V W

V W V W V W

C C α=

C C

D D 0°

D D

R R

S S

T T

R R

S S

T T

V W V W CNMM1606○○NMP

V W V W

C C α=

C C

D D

R R

S S

T T

0°

R R

S S

T T

D D

V W V W CNMM1606○○NHP

V W V W

PMK N S H C D R SP MT K N PMK N S H V SWH C D R S T V W C D R S T V W N-HF C D R S T V W N-HW N-HU C D R S T V W C D R S T V W C D R S T V W Two step breaker with excellent chip evacuation for heavy cutting

Strong edges and excellent chip management for heavy cutting

C C C α=

C C C

0°

D D D

R R R

S S S

T T T

D D D

R R R

S S S

T T T

V W V W V W SNMM2507○○NHU

V W V W V W

D R S Type CNegative T V W C D R S T V W C D R S T V W

Finishing

Strongest cutting edge for heavy cutting

Single-sided breaker with low cutting resistance for rough cutting

C C α=

D D

R R

S S

T T

R R

S S

T T

0°

C C

D D

C C

D D

C

V W V W

C C

SNMM3109○○NHW

α=

V W V W

D

R

C C C

D D D

R R R

α=

0°

For cutting hardened steel with force and S lowTcutting excellent chip V controlW 3,5 3°S T V W

S S

T T

V W V W

C C

D D

R R

S S

T T

R R

S S

T T

D D

V W V W

V W V W

SNMM1906○○NHF

0°

For Hardened Steel R S C D R R

S

T T

V W V W

C

D

R

S S

T T

V W V W

D

R

S

T

V W

C C

D D

R R

S S

T T

V W V W

C C

D D

R R

S S

T T

V W V W

C C

D D

R R

S S

T T

V W V W

PMK N S H C D R S T V W N-GH C D R S T V W C D R S T V W

C

Strong edge chipbreaker for heavy cutting with excellent chip evacuation even in high-feed cutting

CNGG1204○○NGH

C C C

D D D

R R R

S S S

T T T

V W V W V W

C C

D D

R R

S S

T T

V W V W

C C

D D

R R

S S

T T

V W V W

C C C

D D D

R R R

S S S

T T T

V W V W V W

C C

D D

R R

S S

T T

V W V W

C C

D D

R R

S S

T T

V W V W

C C C

D D D

R R R

S S S

T T T

V W V W V W

C C

D D

R R

S S

T T

V W V W

C C

D D

R R

S S

T T

V W V W

C C C

D D D

R R R

S S S

T T T

V W V W V W

C C

D D

R R

S S

T T

V W V W

C C

D D

R R

S S

T T

V W V W

C C C

D D D

R R R

S S S

T T T

V W V W V W

C C

D D

R R

S S

T T

V W V W

C C

D D

R R

S S

T T

V W V W

C C C

D D D

R R R

S S S

T T T

V W V W V W

C C

D D

R R

S S

T T

V W V W

C C

D D

R R

S S

T T

V W V W

C C C

D D D

R R R

S S S

T T T

V W V W V W

C

D

R

S

T

V W

C

D

R

S

T

V W

C C

D D

R R

S S

T T

V W V W

C

D

R

S

T

V W

C

D

R

S

T

V W

C

D

R

S

T

V W

Chipbreaker Application Range Rough to Heavy

Rough to Heavy

Feed Rate (mm/rev)

Rough to Heavy (IC Ø31 mm)

Depth of Cut (mm)

(IC Ø25,4 mm)

Depth of Cut (mm)

Depth of Cut (mm)

(IC Ø15,875 to 19,05 mm)

Feed Rate (mm/rev)

Feed Rate (mm/rev)

Indicated chipbreaker application ranges and shapes are representative values only. Actual values may change according to the actual catalogue number. For details, refer to stock pages (from Chapter B onward).

C16

▌◄

AY 型

型

1.35

1.2

1.50

1.65

15° C D R0.15S T V W C D R S T V W 2.5 2.50 C D R S T V W C D R S T V W C D R S T V W C D R S T 15° V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W 30° R S T V Standard C D Breaker W Handed Breaker Breaker Bumpy C D R S T V W C D R S T V W D R S T V W C D R S D R S C C T V W T V W Break R S(CBN/PCD) C D Master T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W D R S Type R S T toVRough D R S T V W C D R S T V W C D R S T V W C Positive T V W C D Medium W C Cutting 型 C D R S T V W C D R S T V W 2.50 C D R S T V W C D R S T V W PMK N S H C D R P PMK N S H S MTK NV S WH C D R SP MTK NV S WH S MTK NV S WH C D R P 15° S T good S performance S TbreakerVwith sharp S management C D R Snishing chipTbreaker for softV steel proviWding 型 C D R Chip C D R High V chipW C D R Finishing T VfinishingW C D R Provides W T Vsignificantly W 型 型 S lent chipTcontrol andVsurface finisW C D R Fiexcel improved in fine finishing h quality breaker with wiper edge edge and good chip control S Tin fineVfinishing C D R control W 0.30 2.15 C D R S T V W C D R2.95S T V W C0.15D R S T V W C D0.15R S T V W C D R S T V W 15° C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W -15° C D R S T V W Wiper 10° 14° C D R S T V W CCMT09T3○○NLUW α= TPMT1604○○NFK CCMT09T3○○NFP α= 11° α= 7° 11° C 5°D 7°R 11° S T CCMT09T3○○NFB V W α=C 5°D 7°R 11° S T CCMT09T3○○NLU V W α= 7° 11° C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W PMK N S H H P M K N S H New S MTK NV S W S MTK NV S WH C D R P C D R P S recommendation T V W S T for small S T V breaker C D R General-purpose V W C D R 1st W C D R Breaker Light-cutting breaker with sharp S T V breaker S andTgood chipVcontrolW C D R with S sharp S T boring C D R edge W C D R S T V W T edgeV W C D R diameter V bars W C D R General-purpose C D R S T V W C D R 0,2S T1,6 V W C D R S T V W C D R S T V W 5˚ C D R S T V W C D R S T V W C D R S T V W 型 C D R S T V W C D R S T V W C D R S T V W C D R S T V 15˚ W C D R S T V W D R S C T CCMT09T3○○NLB V W 0.4 TPMT1103○○NSU CPMH0903○○NSU α= 5° 7° 11° α= 5° 7° 11° α=C 5°D 7° R 11° S T CCMT09T3○○NUG V W α= 11° C D R S T V W C D R S T V W 型 型 R S T V W D R S T V W C D 型 C D R S T V W C D R S T V W C 型 25° C D R S 1.5 C D R S T V W C D R S T V W T V W C D R S T V W C D R S T V W 0.90 2.00 1.15 PMK N S H C D R0.1 S T 5° V W PMK N S H 5° S reliable S lifetime C D R Very C D R Long T breaker V W T breaker V W with 15° S T resistance C D R low T V W C D R S T V W C D R S T V W V W C D R S sharp C D R S T V W C D R S T V W S T edge C D R S cutting T V W C D R with V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W α= C 7°D 11°R S T TPMT1604○○NMU V W α=C 11°D R S T TPMT1604○○NSF V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W ーカ 勝手つきブレーカ C D R S T V W C D R S T V W C D R S T V W G Class with Ground Chipbreaker Positive Type C D R S T V W ） 面取用 CC DD RR SS TT VV W W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R SP MTK NV SWH 型 PMK N S H H PMK N S H C D R PS M TK NV S W 型 R Breaker S T for fine C D 型 V cutting W dimple breaker Parallel breaker with Wide breaker with D R S S C C D R Wide T V W T V W sharp S sharp T edge V W S2.5 TedgeV W C D R with S edge S sharp C D R with T V W C D R sharp 2.50 T edge V W C D R2.50 C D R S T 15°0,5 V W 0,90 1,5 0.05 30° C D R S T V W C D R S T V W 15° 15° C D R S T V W C D R S T V W C D R S T V W 15° C D R S T V (20°) W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W TPMT1102○○L/RFW α= TPGT1103○○L/RFX α= TPGT1103○○L/RFY α= C 5°D 7°R 11° S CCGT04X1○○L/RFYS α= 5° 11° 0° T V W 5° 7° 11° 5° 7° 11° C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W PMK N S H PMK N S H PMK N S H C D R S T V W S type S ground C D R Wide S T parallel T finishing V W C D R Stepped T V withW V W C D R Parallel high C D R S T V W D R S T type D R S C C V W T V W performance wiper edge S T V W C D R ground S TtypeV W C D R breaker C D R S T V W C D R S T V W C D R S T V W D R S T V W C D R S T V W 型 C D R S T V W C 型 C D R S T V W C WiperD R S T V W C D R S T V W C D R S T V W 3.5 TPGT1103○○L/RNSD α= 7° 11° R S TPGX1103○○L/RSDW C 11°D 0.30 α= C 5°D 11°R 0° S TTPGR1103○○L/RW T 15° V W V W α= 3° C D R S T V W R S T V W C D R S T V W C D R S T V W C D -15° C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W 型 型 C D R S T V W C D R S T V W C D R S T V W C D 0.8R S T V W C D R0.4 S T V W C D R S T V W C D R S T V W C D R S T V W 20° 25° C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W Chipbreaker Application Range C D R S T V W C D R S T V W R SwithTGround D R S C V W C D R S T V W V W C DG Class M Class Finishing to Light M Class Light toT Medium S T V W C D RCutting Cutting Chipbreaker ポッキーチップ D R S T V 全周ブレーカ C V W W C D R S T勝手つきブレーカ D R S T V W C D R S T V W D R S C C T V W 4 4 4 N-SF （CBN/PCD） 面取用 C D R S T V W ブレイクマスター N-SU S T V W C DN-USR S T VN-MU W C D R L/R-SD N-FK 2 L/R-FX 2 R S TL/R-SDW C 2D R S T V W C D V W C D R S T V W L/RN-LB D N-LU R S TN-LUWV W C N-FB FYS N-GU C 0D R S T V W C D0 R SL/R-FYT V W 0 C D R S 0,2T V W0,4 C D R S 0,2 T V W 0,4 C D R S T V W 0,2 0,4 Feed Rate (mm/rev) Feed Rate (mm/rev) R Rate S (mm/rev) C D Feed T V W Indicated chipbreaker application ranges and shapesCare representative may change R Saccording C D D R S values T Vto theWactual catalogue number. For details, refer to stock pages (from Chapter B onward). T only. V Actual W values C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D R S T V W C D▌ R S T V W C D R S T V W ◄ 0.15

0.18

CNLU-W

N-FP

N-LB

N-SU

N-US

N-UG

SS

UJ

N-MU

FW N-SF

L/R-FW

EM L/R-FX

AXL/R-FY

AY L/R-FYS

L/R-W

L/R-SD

L/R-SDW

GD

N-FK

RD

RH

LD

Depth of Cut (mm)

GH

Depth of Cut (mm)

Light to Medium Finish to Light

MM N-LU

Inserts

N-FB

Depth of Cut (mm)

Finish to Light

Chipbreaker Application

L/R-W

C17

A

C D R S T V W C D R S T V W C D R S T V W

C D R S T V W C D R S T V W C D R S T V W

C

D

C D R S T V W C D R S T V W C D R S T V W

C D R S T V W C D R S T V W C D R S T V W

C C

D R D R

S T V W SSUMIBORON T V W Break Master

C D R S T V W C D R S T V W D R S Type C Positive T V W

C D R S T V W C D R S T V W C D R S GT Class V W

C C

D R D R

S S

T T

V W V W

C

D

S

T

V W

Chipbreaker Application D

Finish to Light

C

R

S

T

V W

Peripheral grinding 3D breaker with good chip control and sharp edge

C D R S T V W C D R S T V W C D R S T V W α=C 7° D 11° R

C C

Round

S

T

V W

R

T

V W

D D

R R

Sharper-edge breaker for a wide range of cutting applications from finishing to light cutting

Two step breaker for light cutting

D R D R

S S

T T

S T CCGT09T3○○NFC α=C 7°D R V W α=C 7°D 11°R S T CCGT09T3○○NSI S T V W C D R S T VV WW S T V W C D R S T V W C D R

S S

T TCGT1103○○NSC V W T V W

S S

T T

C D R S T V W C D R S T V W C D R S T V W

C C

D R D R

C C D R S T V W S T Inserts C D R V W Round C C D R S T V W

Standard Breaker

Bumpy Breaker

V W V W

Handed Breaker

* Remarks:

N-FC, N-SI and N-SC have minus tolerance indicated by ”M” after the nose radius. Example: DCGT 11T302 M NSI AC520U

V W V W

K N S H C D R S T V W S MTK NV S WH C D R SP M C D R P C D R S T V W N-RP C D R S TT VV WW N-RX C D R S T V W C D R S T V W C D R S T V W Round, bumpy type insert with excellent chip management

C D R S T V W C D R S T V W C D R S T V W α=

RCMX1606MON-RX

7°

Standard breaker for copying

C C

D R D R

S S

T T

V W V W

C C

D R D R

S S

T T

V W V W

C D R C DForR AlS- Alloy Machining C D R S TT VV WW C D R C D R S T V W

S S

T T

V W V W

C D R S T V W C D R S T V W C D R S T V W

C D R S T V W C D R S T V W C D R S T V W D R S Type C Positive T V W C D R S T V W C D R S T V W

Finishing

R

S

C D R SP MTK N C D R PS M TK NV S W V SWH H PMK N S H C D R S T V W C D R S T V W N-SI* C D R S T V W N-SC* N-FC*

C D R S T V W D R S Type C Positive T V W C D R S T V W

Inserts

D

C

R

α=

7°

RCMX1606MON-RP

C D R S T V W C D R S T V W C D R S T V W

PMK N S H PMK N S H PMK N S H C D R S T V W C D R S T V W R/L-AY C D R S T V W N-AG C D R S T V W N-AW C D R S T V W

C

D

R

Al breaker for mirror

Sfinish Tand anti-adhesion V W

C D R S T V W C D R S T V W C D R S T V W

α=

CCGT09T3○○NAG

7°

D

α=

R

Finishing Al breaker

Swith sharp T edge V W 25° C D R S T V W C D R S T V W C D R S T V W C

VCGT1604○○NAW

7°

D

C C

D R D R

S S

T 15°V W T V W

C C

D R D R

S S

T T

V W V W

α=

5°

R

Al breaker for excellent machined S T surface V quality W

C

7°

11°

2,5

CCGT09T3○○_AY

C D R S T V W C D R S T V W C D R S T V W

C D R S T V W C D R S T V W C D R S T V W

C D R S T V W C D R S T V W

C

D

R

S

T

V W

C C

D R D R

S S

T T

V W V W

C D R S T V W C D R S T V W

C

D

R

S

T

V W

C C

D R D R

S S

T T

V W V W

C D R S T V W C D R S T V W

C

D

R

S

T

V W

C C

D R D R

S S

T T

V W V W

C C

D R D R

S S

T T

V W V W

C

D

R

S

T

V W

C

D

R

S

T

V W

C

D

R

S

T

V W

C

D

R

S

T

V W

C

D

R

S

T

V W

Chipbreaker Application Range

Depth of Cut (mm)

Depth of Cut (mm)

Feed Rate (mm/rev)

For Aluminium Alloy Machining Depth of Cut (mm)

Round Insers (IC up to Ø 12,7 mm)

G Class Chipbreakers

Feed Rate (mm/rev)

N

R/L AY

Feed Rate (mm/rev)

Indicated chipbreaker application ranges and shapes are representative values only. Actual values may change according to the actual catalogue number. For details, refer to stock pages (from Chapter B onward).

C18

▌◄

C C C

D D D

R R R

S S S

T T T

C D R S T R S T C D Breaker D R S T CBumpy

V W V W V W

C C

D D

R R

S S

V V V

C

D

R

S T V W C D S Handed T V Breaker W

W

W Standard D R CBreaker W

T T

V W V W

D 型 R 型S CBN C D 型R S T Insert C AY V W EM T V W SUMIBORON AX 2.50

Finish to Light 3.50

ポッキーチップ

R R

S S

V W V W

C

D

R

C

D

R

S 2.50 T V W

C

D

R

T T

S S S

T T T

V W V W V W

C C

α=C 0°D 7° R

S S S

T T T

V W V W V W

α= C 0°D 7°R

Break Master

C C

D D

R R

D D

R R

Break Master

C

D

R

Chipbreaker Application V W

V W

T

V W

C

AX 型 D

R

S

T

S

2.5 T2.50 V W

C

D

R

S

T 2.50 V W

15°

Significantly improved chip control during hardened steel finishing

T T

V W V W

C

D

R

S

T

V W

S S

T T

V W V W

C

D

R

S

T

V W

C

RH LB型型 D

R

S

T

V W

D

R

S

Significantly improved chip management with carburized layer removal

V 15° W V W V W

C C

D D

R 3°S R S

0.50 3.50

T T

V W V 20° W

C

T T T

V W V W V W

C C

D D

R R

S S

T T

V W V W

C

D

R

S

T

V W

D R S Insert CSUMIDIA T V W C D R S T V W C D R S T V W

C C

D D

R R

S S

T V W PCD

C

D

R

S

T

V W

C

D

R

α=

C C C

0°

D D D

R R R

S S S

T

2.5 15°

FB 型

0.30 0.80

T T T

C D R S C D R -15°S D R S CBreak Master

AY 型

30°

S S

C D R SP MT K N V SWH C D R S T V W C D R S T V W GH N-SV RH R S T V W D 型 R 型S T V W C D 型 C FB 0.30

T

S

0.05

R R R

C C C

D D D

30°

Significantly improved chip control during hardened steel finishing

S

-15°

T

V W 15° 15°

LB 型 0.50

0.80 20°

Inserts

3°

D D

PMK N S H C D R SP MT K N V SWH C D R S T V W N-FV C D R S T V W N-LV

Carburized Layer Removal

型

Finish to Light

0.05

C C

R

V W

PMK N S H PMK N S H PMK N S H C D R S T V W N-GD C D R S T V W L/R-DM C D R S T V W N-LD C D R S T V W

D

R

Ideal for finishing of Al by utilizing a special cutting edge shape

S

T

C D R C D R D R CBreak Master

α=

7°

S S S

T V W T V W TNF-CCMT0602○○NLD V W

C C C

D D D

R R R

S S S

T T T

V W V W V W

C C C

D D D

R R R

S S S

T T T

C

D

R

S

T

C

11°

V W

Ideal for finishing to general machining of Al by utilizing a special cutting edge shape

S

T

V W

T T

V W V W

Perfect for highspeed finishing of aluminium alloy

C D R D R CBreak Master

α=

7°

S S

α=

7°

C C

D D

R R

S S

T T

V W V W

C

D

R

S

T

V W

V W V W V W

C C

D D

R R

S S

T T

V W V W

C

D

R

S

T

V W

V W

C

D

R

S

T

V W

C

D

R

S

T

V W

11°

C

C D R S T V W 全周ブレーカ 勝手つきブレーカ ポッキーチップ

D

R

S

T

V W

Break Master

NF-CCMT0602○○NGD

NU-CCMT09T3○○L/R-DM

11°

全周ブレーカ

勝手つきブレーカ

ブレイクマスター（CBN/PCD） R S T V W （CBN/PCD） C D R S T V面取用 C D ブレイクマスター C D R S T V 面取用 W W C D R S T

V W

C C

D D

R R

S S

T T

V W V W

C

D

R

S

T

V W

C

D

R

S

T

V W

C C

D D

R R

S S

T T

V W V W

C

D

R

S

T

V W

C

D

R

S

T

V W

C

D

R

S

T

V W

C

D

R

S

T

V W

C

D

R

S

T

V W

C

D

R

S

T

V W

C

D

R

S

T

V W

C

D

R

S

T

V W

C

D

R

S

T

V W

C

D

R

S

T

V W

C

D

R

S

T

V W

C

D

R

S

T

V W

Chipbreaker Application Range SUMIDIA (For Aluminium

H

H

N

Feed Rate (mm/rev)

Feed Rate (mm/rev)

Alloy Machining)

Depth of Cut (mm)

Depth of Cut (mm)

SUMIBORON (Carburized Layer Removal) (IC up to Ø 12,7 mm)

Depth of Cut (mm)

SUMIBORON (Heavy Steel Machining) (IC up to Ø 12,7 mm)

Feed Rate (mm/rev)

Indicated chipbreaker application ranges and shapes are representative values only. Actual values may change according to the actual catalogue number. For details, refer to stock pages (from Chapter B onward).

▌◄

C19

15°

C DIAMOND TYPE

Negative Inserts

INSERTS FOR TURNING

80° Diamond Type With Insert Hole 0° Relief

RE

0903.. 0904.. 1204..

Dimensions (mm)

L

9,7 9,7 12,9

IC

9,525 9,525 12,7

S

3,18 3,18 4,76

Carbide

Depth of cut (mm)

Fine Finishing

NFB Feed rate (mm/rev)

Depth of cut (mm)

Fine Finishing

Shape

Cermet

Coated

P

M-Class, Double Sided Bumpy Chipbreaker

Neg. Inserts

a E8

S

L

CNMG llllll n-nn Application

a D12, D18 D41

M

P M

K

H

S

P M

Carbide

Uncoated Uncoated

Coated

P

K

S

ISO Cat. No.

RE

CNMG 090304 NFB CNMG 090308 NFB CNMG 090404 NFB CNMG 090408 NFB

0,4 0,8 0,4 0,8

m m m m

CNMG 120402 NFB CNMG 120404 NFB CNMG 120408 NFB

0,2 0,4 0,8

m m m

CNMG 120402 NFA CNMG 120404 NFA CNMG 120408 NFA

0,2 0,4 0,8

CNMG 090308 NFL

0,8

m

CNMG 120404 NFL CNMG 120408 NFL

0,4 0,8

m m

CNMG 090304 NFE CNMG 090308 NFE CNMG 090404 NFE CNMG 090408 NFE

0,4 m m m m 0,8 m m m m 0,4 m m m m 0,8 m m m m

mm mm mm mm

mmm mmm mmm mmm

CNMG 120402 NFE CNMG 120404 NFE CNMG 120408 NFE CNMG 120412 NFE

0,2 m m m m 0,4 m m m m 0,8 m m m m 1,2 m m m m

mm mm mm mm

mmmmm mmmmm mmmmm mmmmm

CNMG 090304 NLU CNMG 090308 NLU

0,4 m m m 0,8 m m m

m m

CNMG 120402 NLU CNMG 120404 NLU CNMG 120408 NLU CNMG 120412 NLU

0,2 0,4 l l l m 0,8 l l l m 1,2 l l l m

m m m m

m m m

mmmmm lmlmm lmlmm lml m

CNMG 120404 NLU-W CNMG 120408 NLU-W CNMG 120412 NLU-W

0,4 l l l 0,8 l l l 1,2 l l l

lm lm

m

lll lll

CNMG 090404 NEF CNMG 090408 NEF

0,4 0,8

mmm mmm

CNMG 120404 NEF CNMG 120408 NEF CNMG 120412 NEF

0,4 m l l m l l l l 0,8 m l l m l l l l 1,2 m l l m m l m

mmm mmm mmm mmm

m

m m m m

mmmmm mmmmm mmmmm

lll l lmlll lmlll

NFA

Depth of cut (mm)

Fine Finishing

Feed rate (mm/rev)

NFL

m

mmm mmm

lml l lllll

Depth of cut (mm)

Fine Finishing

Feed rate (mm/rev)

NFE

Depth of cut (mm)

”Standard”

NLU Feed rate (mm/rev)

Depth of cut (mm)

Finishing

Feed rate (mm/rev)

”Wiper” W type

NLU-W

m

mmm mmm

m

ll l

mm

m m m m

m m

m m

Depth of cut (mm)

Finishing

Feed rate (mm/rev)

NEF Feed rate (mm/rev)

C20

l = Euro stock

l = Stock item in Japan

▌◄

N

AC8015P AC8020P AC8025P AC8035P AC6020M AC6030M AC6040M AC630M AC4010K AC4015K AC420K AC503U AC5005S AC5015S AC5025S AC1030U AC530U T1500Z T2500Z T3000Z T1000A T1500A G10E EH510 EH520 H1

80°

P Steel M Stainless Steel K Cast Iron N Non-Ferrous Metals S Super Alloy H Hardened Steel

D1

3,81 3,81 5,16

D1

IC

CN_ _

mmm mmm

lll lll lll

ll ll

C DIAMOND TYPE

Negative Inserts

INSERTS FOR TURNING

80° Diamond Type With Insert Hole 0° Relief

RE D1

IC

0903.. 0904.. 09T3.. 1204.. 1606..

Dimensions (mm)

L

9,7 9,7 9,7 12,9 16,1

IC

9,525 9,525 9,525 12,7 15,875

S

3,18 3,18 3,97 4,46 6,35

Finishing

Depth of cut (mm)

NSU

Finishing

Depth of cut (mm)

”Standard” ”Wiper” W type

NSE-W

Depth of cut (mm)

Feed rate (mm/rev)

NSX

Cermet

Coated

P

ISO Cat. No.

RE

M

P M

K

H

S

P M

Carbide

Uncoated Uncoated

Coated

P

K

S

N

CNMG 090304 NSU CNMG 090308 NSU

0,4 m l l 0,8 l m m

CNMG 09T304 NSU CNMG 09T308 NSU

0,4 m m m 0,8 m m m

CNMG 090404 NSU CNMG 090408 NSU CNMG 090412 NSU

0,4 m m m 0,8 m m m 1,2 m m m m

CNMG 120402 NSU CNMG 120404 NSU CNMG 120408 NSU CNMG 120412 NSU

0,2 lll 0,4 l l l l l l l l 0,8 l l l l l l l l 1,2 l l l m l l l l

CNMG 120404 NSE CNMG 120408 NSE CNMG 120412 NSE

0,4 l l l m 0,8 l l l m 1,2 l l l l

CNMG 090404 NSE-W CNMG 090408 NSE-W

0,4 m m m m 0,8 m m m m

CNMG 120404 NSE-W CNMG 120408 NSE-W CNMG 120412 NSE-W

l l

l l

m m m mlll mlll mlll

lll

Neg. Inserts

Shape

Feed rate (mm/rev)

Finishing

a E8

Carbide

M-Class Double Sided Bumpy Chipbreaker

NSE

a D12, D18 D41

S

L

CNMG llllll n-nn Application

P Steel M Stainless Steel K Cast Iron N Non-Ferrous Metals S Super Alloy H Hardened Steel

D1

3,81 3,81 3,81 5,16 6,35

AC8015P AC8020P AC8025P AC8035P AC6020M AC6030M AC6040M AC630M AC4010K AC4015K AC420K AC503U AC5005S AC5015S AC5025S AC1030U AC530U T1500Z T2500Z T3000Z T1000A T1500A G10E EH510 EH520 H1

80°

CN_ _

mm mm mm

mmmmm lmlll lmlll lmlll

mm mm

mm mm

0,4 l m m 0,8 l l l 1,2 m l l

mm mm

m m

CNMG 120404 NSX CNMG 120408 NSX CNMG 120412 NSX

0,4 m m m m 0,8 l l l l 1,2 l m m m

mmm mm

m m

CNMG 090304 NGU CNMG 090308 NGU CNMG 090404 NGU CNMG 090408 NGU CNMG 090412 NGU

0,4 m l l m 0,8 m l l m 0,4 m 0,8 m 1,2 m m m m

CNMG 120404 NGU CNMG 120408 NGU CNMG 120412 NGU CNMG 120416 NGU

0,4 l l l l l l l l m m 0,8 l l l l l l l l m m 1,2 l l l l l l l l m m 1,6 m l l l mm

CNMG 160608 NGU CNMG 160612 NGU CNMG 160616 NGU

0,8 l l l m l m m l m m 1,2 l l l l l m m l m m 1,6 l l l m m m l m m

CNMG 120408 NGU-W CNMG 120412 NGU-W

0,8 l l l 1,2 l l l

CNMG 160612 NGU-W

1,2 m m m m

Feed rate (mm/rev)

NGU

Depth of cut (mm)

Medium Cut

”Standard”

”Wiper” W type

NGU-W

Feed rate (mm/rev)

l = Euro stock

l = Stock item in Japan

▌◄

mm mm

mm

l l

mmm mmm mmm

m m m

mm mm mm

mmm mmm m

m m

ll lll

C21

C DIAMOND TYPE

Negative Inserts

INSERTS FOR TURNING 0° Relief

RE D1

IC

80°

S

L

CN_ _ 0903.. 0904.. 09T3.. 1204.. 1606.. 1906..

Dimensions (mm)

L

9,7 9,7 9,7 12,9 16,1 19,3

IC

9,525 9,525 9,525 12,7 15,875 19,05

S

3,18 3,18 3,97 4,46 6,35 6,35

CNMG llllll n-nn Neg. Inserts

Medium Cut

Depth of cut (mm)

Shape

NGE

Depth of cut (mm)

Medium Cut

Feed rate (mm/rev)

NUG

C22

Depth of cut (mm)

NEG Feed rate (mm/rev)

Depth of cut (mm)

Medium Cut

Medium Cut

Feed rate (mm/rev)

NEX Feed rate (mm/rev)

a D12, D18 D41

a E8

Carbide

Cermet

Coated

P

M-Class Double Sided Bumpy Chipbreaker Application

P Steel M Stainless Steel K Cast Iron N Non-Ferrous Metals S Super Alloy H Hardened Steel

D1

3,81 3,81 3,81 5,16 6,35 7,94

ISO Cat. No.

RE

M

P M

K

H

S

P M

Carbide

Uncoated Uncoated

Coated

P

K

S

CNMG 120404 NGE CNMG 120408 NGE CNMG 120412 NGE CNMG 120416 NGE

0,4 l l l l 0,8 l l l l 1,2 l l l l 1,6 l l l m

CNMG 160608 NGE CNMG 160612 NGE CNMG 160616 NGE

0,8 m m m m 1,2 l l l m 1,6 l l l l

CNMG 190612 NGE CNMG 190616 NGE

1,2 l l l m 1,6 m l l m

CNMG 090304 NUG CNMG 090308 NUG

0,4 0,8

mm mm

CNMG 090404 NUG CNMG 090408 NUG

0,4 0,8

m mm

CNMG 09T304 NUG CNMG 09T308 NUG

0,4 0,8

m m

CNMG 120404 NUG CNMG 120408 NUG CNMG 120412 NUG CNMG 120416 NUG

0,4 lll 0,8 l l l l 1,2 l l l l 1,6 ml

CNMG 160608 NUG CNMG 160612 NUG CNMG 160616 NUG

0,8 1,2 1,6

m m mm

CNMG 190608 NUG CNMG 190612 NUG CNMG 190616 NUG

0,8 1,2 1,6

m ml mm

CNMG 090408 NEG CNMG 090412 NEG

0,8 1,2

CNMG 120404 NEG CNMG 120408 NEG CNMG 120412 NEG

0,4 m l l m l l l 0,8 m l l m l l l l 1,2 m l l m l l l l

mmm

CNMG 160608 NEG CNMG 160612 NEG CNMG 160616 NEG

0,8 m l l m m m 1,2 m l l m l l l 1,6 m m m m m

mmm mml mmm

ll

CNMG 190612 NEG CNMG 190616 NEG

1,2 m m m m l l 1,6 m m m m m l

m

mmm llm

mm mm

CNMG 120404 NEX CNMG 120408 NEX CNMG 120412 NEX

0,4 0,8 1,2

llll llll llll

lll lll lll

CNMG 160612 NEX

1,2

mml

CNMG 190612 NEX

1,2

mmm

l = Euro stock

l = Stock item in Japan

▌◄

N

AC8015P AC8020P AC8025P AC8035P AC6020M AC6030M AC6040M AC630M AC4010K AC4015K AC420K AC503U AC5005S AC5015S AC5025S AC1030U AC530U T1500Z T2500Z T3000Z T1000A T1500A G10E EH510 EH520 H1

80° Diamond Type With Insert Hole

mmm mmm

mmm mmm

l ll ll

lll mml

m m

C DIAMOND TYPE

Negative Inserts

INSERTS FOR TURNING

80° Diamond Type With Insert Hole 0° Relief

RE D1

IC

1204.. 1606.. 1906.. 2509..

Dimensions (mm)

L

12,9 16,1 19,3 25,8

IC

12,7 15,875 19,05 25,4

S

4,46 6,35 6,35 9,52

Depth of cut (mm)

Medium Cut

NUP

NEM

Feed rate (mm/rev)

Cermet

Coated

P

M

P M

K

H

S

ISO Cat. No.

RE

CNMG 120404 NUP CNMG 120408 NUP CNMG 120412 NUP

0,4 0,8 1,2

lllllll lllllll lllllll

CNMG 160612 NUP

1,2

ll

CNMG 190612 NUP

1,2

CNMG 120408 NEM CNMG 120412 NEM CNMG 120416 NEM

0,8 m l l m l l l 1,2 m l l m l l l 1,6 m m l m m l l

mmm mmm mmm

CNMG 160608 NEM CNMG 160612 NEM CNMG 160616 NEM

0,8 m m l m m m m 1,2 m l l m l l l 1,6 m l l m l l l

mmm mmm mmm

CNMG 190612 NEM CNMG 190616 NEM CNMG 190624 NEM

1,2 m l l m l l l 1,6 m l l m l l l 2,4 m m m m m m

mmm mmm mmm

CNMG 250924 NEM

2,4 m m

mmm

l = Euro stock

l = Stock item in Japan

▌◄

P M

Carbide

Uncoated Uncoated

Coated

P

K

S

N

mmm

m m

m m m

l

lll

m

lll lll

Neg. Inserts

Shape

Feed rate (mm/rev)

Medium Cut

a E8

Carbide

M-Class Double Sided Bumpy Chipbreaker

Depth of cut (mm)

a D12, D18 D41

S

L

CNMG llllll n-nn Application

P Steel M Stainless Steel K Cast Iron N Non-Ferrous Metals S Super Alloy H Hardened Steel

D1

5,16 6,35 7,94 9,2

AC8015P AC8020P AC8025P AC8035P AC6020M AC6030M AC6040M AC630M AC4010K AC4015K AC420K AC503U AC5005S AC5015S AC5025S AC1030U AC530U T1500Z T2500Z T3000Z T1000A T1500A G10E EH510 EH520 H1

80°

CN_ _

l

mm

C23

C DIAMOND TYPE

Negative Inserts

INSERTS FOR TURNING

80° Diamond Type With Insert Hole 0° Relief

RE D1

IC

1204.. 1606.. 1906.. 2509..

Dimensions (mm)

L

12,9 16,1 19,3 25,8

IC

12,7 15,875 19,05 25,4

S

4,76 6,35 6,35 9,52

Neg. Inserts

Depth of cut (mm)

Roughing

Shape

NMU

NME

Depth of cut (mm)

Roughing

Feed rate (mm/rev)

Depth of cut (mm)

Roughing

Feed rate (mm/rev)

NUX

Depth of cut (mm)

Feed rate (mm/rev)

Roughing

a E8

Carbide

NMX

Feed rate (mm/rev)

Cermet

Coated

P

M-Class Double Sided Bumpy Chipbreaker

C24

a D12, D18 D41

S

L

CNMG llllll n-nn Application

P Steel M Stainless Steel K Cast Iron N Non-Ferrous Metals S Super Alloy H Hardened Steel

D1

5,16 6,35 7,94 9,2

ISO Cat. No.

RE

M

P M

H

K

S

CNMG 120408 NMU CNMG 120412 NMU CNMG 120416 NMU

0,8 l l l l l l 1,2 l l l l l l 1,6 l l l m

l l

lll lll mml

CNMG 160608 NMU CNMG 160612 NMU CNMG 160616 NMU

0,8 l l l l l l 1,2 l l l l l l 1,6 l l l l l l

l l l

lmm lll lll

CNMG 190608 NMU CNMG 190612 NMU CNMG 190616 NMU CNMG 190624 NMU

0,8 l 1,2 l l l l l l 1,6 l l l l l l 2,4 m m m m

l l

mml

CNMG 250924 NMU

2,4 m m m l

CNMG 120408 NME CNMG 120412 NME CNMG 120416 NME

0,8 l l l l 1,2 l l l l 1,6 l l l m

mm mm mm

CNMG 160608 NME CNMG 160612 NME CNMG 160616 NME

0,8 m l l m 1,2 l l l l 1,6 l l l m

mm mm mm

CNMG 190612 NME CNMG 190616 NME CNMG 190624 NME

1,2 m m m m 1,6 l l l l 2,4 m m m m

mm mm mm

CNMG 250924 NME

2,4 m m m m

mm

CNMG 090304 NUX CNMG 090308 NUX CNMG 120404 NUX CNMG 120408 NUX CNMG 120412 NUX CNMG 120416 NUX

0,4 m 0,8 m 0,4 m l l l 0,8 l l l l 1,2 l l l l 1,6 l l l m

CNMG 160608 NUX CNMG 160612 NUX CNMG 160616 NUX

0,8 l m m m 1,2 l l l l 1,6 l l l m

CNMG 190608 NUX CNMG 190612 NUX CNMG 190616 NUX

0,8 l 1,2 m m m m 1,6 m l l m

CNMG 120408 NMX CNMG 120412 NMX CNMG 120416 NMX

0,8 1,2 1,6

lll lll lll

CNMG 160608 NMX CNMG 160612 NMX CNMG 160616 NMX

0,8 1,2 1,6

ll lll lll

CNMG 190612 NMX CNMG 190616 NMX

1,2 1,6

lll lll

l = Euro stock

l = Stock item in Japan

▌◄

P M

Carbide

Uncoated Uncoated

Coated

P

K

S

N

AC8015P AC8020P AC8025P AC8035P AC6020M AC6030M AC6040M AC630M AC4010K AC4015K AC420K AC503U AC5005S AC5015S AC5025S AC1030U AC530U T1500Z T2500Z T3000Z T1000A T1500A G10E EH510 EH520 H1

80°

CN_ _

lll mmm mmm

l l l

l l

m m

m

C DIAMOND TYPE

Negative Inserts

INSERTS FOR TURNING

80° Diamond Type With Insert Hole 0° Relief

RE D1

IC

0904.. 1204.. 1606.. 1906..

Dimensions (mm)

L

9,7 12,9 16,1 19,3

IC

9,525 12,7 15,875 19,05

S

3,18 4,76 6,35 6,35

Roughing

Depth of cut (mm)

NGZ

NUZ

Feed rate (mm/rev)

Cermet

Coated

P

M

P M

K

ISO Cat. No.

RE

CNMG 090408 NGZ CNMG 090412 NGZ

0,8 1,2

mmm mmm

CNMG 120404 NGZ CNMG 120408 NGZ CNMG 120412 NGZ CNMG 120416 NGZ

0,4 0,8 1,2 1,6

llm lll lll lll

CNMG 160608 NGZ CNMG 160612 NGZ CNMG 160616 NGZ

0,8 1,2 1,6

mm mmm mlm

CNMG 190612 NGZ CNMG 190616 NGZ

1,2 1,6

mmm mmm

CNMG 120404 NUZ CNMG 120408 NUZ CNMG 120412 NUZ CNMG 120416 NUZ

0,4 0,8 1,2 1,6

m mmm mm m

lmm lll lll mml

CNMG 160608 NUZ CNMG 160612 NUZ CNMG 160616 NUZ

0,8 1,2 1,6

mm mm mm

lll lll

CNMG 190608 NUZ CNMG 190612 NUZ CNMG 190616 NUZ

0,8 1,2 1,6

mm mm mm

mml mll

l = Euro stock

l = Stock item in Japan

▌◄

H

S

P M

Carbide

Uncoated Uncoated

Coated

P

K

S

N

mmm mmm

Neg. Inserts

Shape

Feed rate (mm/rev)

Roughing

a E8

Carbide

M-Class Double Sided Bumpy Chipbreaker

Depth of cut (mm)

a D12, D18 D41

S

L

CNMG llllll n-nn Application

P Steel M Stainless Steel K Cast Iron N Non-Ferrous Metals S Super Alloy H Hardened Steel

D1

3,81 5,16 6,35 7,94

AC8015P AC8020P AC8025P AC8035P AC6020M AC6030M AC6040M AC630M AC4010K AC4015K AC420K AC503U AC5005S AC5015S AC5025S AC1030U AC530U T1500Z T2500Z T3000Z T1000A T1500A G10E EH510 EH520 H1

80°

CN_ _

m

C25

C DIAMOND TYPE

Negative Inserts

INSERTS FOR TURNING

80° Diamond Type With Insert Hole 0° Relief

RE D1

IC

1204.. 1606.. 1906.. 2507.. 2509..

Dimensions (mm)

L

12,9 16,1 19,3 25,8 25,8

IC

12,7 15,875 19,05 25,4 25,4

S

4,76 6,35 6,35 7,94 9,52

CNMM llllll n-nn

Depth of cut (mm)

Heavy Roughing

Feed rate (mm/rev)

10

Depth of cut (mm)

Heavy Roughing

12

NMH

4 2 0

0,2

0,4

0,6

0,8

P

RE

M

P M

Heavy Roughing

Depth of cut (mm) Depth of cut (mm)

Heavy Roughing

NHP

Feed rate (mm/rev)

C26

H

S

0,8 l l l l 1,2 l l l l 1,6 m l l l

lll l l l l

mmm mmm mmm

CNMM 160608 NMP CNMM 160612 NMP CNMM 160616 NMP CNMM 160624 NMP

0,8 ll 1,2 l l l l 1,6 l l l l 2,4 ll

m m m

l l l

mmm mmm mmm

CNMM 190608 NMP CNMM 190612 NMP CNMM 190616 NMP CNMM 190624 NMP

0,8 ll 1,2 m l l l 1,6 l l l l 2,4 m l l l

m

l l lml

mmm mmm mmm mmm

CNMM 250724 NMP

2,4

m

CNMM 250924 NMP

2,4

m

CNMM 160612 NMH CNMM 160616 NMH

1,2 l l l l 1,6 l l l l

l l

CNMM 190612 NMH CNMM 190616 NMH CNMM 190624 NMH

1,2 l l l l 1,6 l l l l 2,4 ll

l l

CNMM 250924 NMH

2,4

CNMM 120408 NHG CNMM 120412 NHG CNMM 120416 NHG

0,8 l l l l 1,2 l l l l 1,6 m

l l l

CNMM 160608 NHG CNMM 160612 NHG CNMM 160616 NHG CNMM 160624 NHG

0,8 l 1,2 l l l l 1,6 l l l l 2,4 ll

l l l

CNMM 190612 NHG CNMM 190616 NHG CNMM 190624 NHG

1,2 l l l l 1,6 l l l l 2,4 l l l l

l l

CNMM 120408 NHP CNMM 120412 NHP CNMM 120416 NHP

0,8 1,2 1,6

CNMM 160608 NHP CNMM 160612 NHP CNMM 160616 NHP

0,8 1,2 1,6

CNMM 190608 NHP CNMM 190612 NHP CNMM 190616 NHP CNMM 190624 NHP

0,8 1,2 1,6 2,4

mmm

lll

Feed rate (mm/rev)

Feed rate (mm/rev)

K

l = Euro stock

l = Stock item in Japan

▌◄

P M

Carbide

Uncoated Uncoated

Coated

CNMM 120408 NMP CNMM 120412 NMP CNMM 120416 NMP

1,0

NHG

Cermet

Coated

ISO Cat. No.

NMP

6

a E8

P

K

S

N

AC8015P AC8020P AC8025P AC8035P AC6020M AC6030M AC6040M AC630M AC4010K AC4015K AC420K AC503U AC5005S AC5015S AC5025S AC1030U AC530U T1500Z T2500Z T3000Z T1000A T1500A G10E EH510 EH520 H1

Neg. Inserts

Shape

8

a D12, D18

Carbide

M-Class One Sided Bumpy Chipbreaker Application

P Steel M Stainless Steel K Cast Iron N Non-Ferrous Metals S Super Alloy H Hardened Steel

D1

5,16 6,35 7,94 9,2 9,2

S

L

80°

CN_ _

m

ll ll mm ml ml

lll ml

ll ll lll

m m

l m

C DIAMOND TYPE

Negative Inserts

INSERTS FOR TURNING

80° Diamond Type With Insert Hole 0° Relief

RE

CN_ _ 1906.. 2509..

Dimensions (mm)

L

19,3 25,8

IC

19,05 25,4

S

6,35 9,52

P Steel M Stainless Steel K Cast Iron N Non-Ferrous Metals S Super Alloy H Hardened Steel

D1

7,94 9,2

IC

a E8

D1

a D12, D18

S

CNMM llllll n-nn

Carbide P

Depth of cut (mm)

Heavy Roughing

Shape

NHW NHU

M

P M

K

H

S

P M

Carbide

Uncoated Uncoated

Coated

P

K

S

N

ISO Cat. No.

RE

CNMM 190616 NHU CNMM 190624 NHU

1,6 2,4

l

CNMM 250924 NHU

2,4

l

CNMM 250924 NHW

2,4

l

CNMM 190616 NHF CNMM 190624 NHF

1,6 2,4

mm mm

CNMM 250924 NHF CNMM 250932 NHF

2,4 3,2

mm mm

Neg. Inserts

M-Class One Sided Bumpy Chipbreaker Application

Cermet

Coated

AC8015P AC8020P AC8025P AC8035P AC6020M AC6030M AC6040M AC630M AC4010K AC4015K AC420K AC503U AC5005S AC5015S AC5025S AC1030U AC530U T1500Z T2500Z T3000Z T1000A T1500A G10E EH510 EH520 H1

L

80°

Depth of cut (mm)

Heavy Roughing

Feed rate (mm/rev)

15

10

NHF

5

0

0,5

1,0

1,5

Feed rate (mm/rev)

l = Euro stock

l = Stock item in Japan

▌◄

C27

C DIAMOND TYPE

Negative Inserts

INSERTS FOR TURNING

80° Diamond Type With Insert Hole 0° Relief

CN_ _ 1204.. 1606.. 1906..

RE

L

12,9 16,1 19,3

IC

12,7 15,875 19,05

S

4,76 6,35 6,35

P Steel M Stainless Steel K Cast Iron N Non-Ferrous Metals S Super Alloy H Hardened Steel

D1

5,16 6,35 7,94

a D12, D18

a E8

D1

IC

Dimensions (mm)

S

CNMA / CNGA / CNMX

Carbide P

Neg. Inserts

Flat and One Side Handed Inserts Shape

Heavy Roughing Medium Cut

Roughing

Application

Finishing

Depth of cut (mm)

NSU

P M

K

ISO Cat. No.

RE 0,4 0,8 1,2 1,6

mml

CNMA 160608 CNMA 160612 CNMA 160616

0,8 1,2 1,6

mm mll

CNMA 190612 CNMA 190616

1,2 1,6

mll mml

CNGA 120402 CNGA 120404 CNGA 120408

0,2 0,4 0,8

CNMX 120408 L

0,8

ll

CNMX 120408 R

0,8

ll

H

S

P M

Carbide

Uncoated Uncoated

Coated

lll lll lll

P

K

S

N

l l

mmm

lll

m m m

Carbide

Cermet

Coated

P

G-Class Double Sided Bumpy Chipbreaker Shape

M

CNMA 120404 CNMA 120408 CNMA 120412 CNMA 120416

CNGG llllll n-nn Application

Cermet

Coated

AC8015P AC8020P AC8025P AC8035P AC6020M AC6030M AC6040M AC630M AC4010K AC4015K AC420K AC503U AC5005S AC5015S AC5025S AC1030U AC530U T1500Z T2500Z T3000Z T1000A T1500A G10E EH510 EH520 H1

L

M

P M

K

H

S

P M

Carbide

Uncoated Uncoated

Coated

P

K

S

N

AC8015P AC8020P AC8025P AC8035P AC6020M AC6030M AC6040M AC630M AC4010K AC4015K AC420K AC503U AC5005S AC5015S AC5025S AC1030U AC530U T1500Z T2500Z T3000Z T1000A T1500A G10E EH510 EH520 H1

80°

ISO Cat. No.

RE

CNGG 120402 NSU CNGG 120404 NSU CNGG 120408 NSU

0,2 0,4 0,8

CNGG 120402 NGH CNGG 120404 NGH CNGG 120408 NGH

0,2 0,4 0,8

CNGG 120402 NEF CNGG 120404 NEF CNGG 120408 NEF

0,2 0,4 0,8

CNGG 120402 LAX CNGG 120404 LAX CNGG 120408 LAX

0,2 0,4 0,8

m m m

CNGG 120402 RAX CNGG 120404 RAX CNGG 120408 RAX

0,2 0,4 0,8

m m m

mm mm mm

mmmmm mmmmm mm mm

Finishing

Depth of cut (mm)

Feed rate (mm/rev)

Depth of cut (mm)

Finishing For Aluminum

C28

Depth of cut (mm)

Feed rate (mm/rev)

Feed rate (mm/rev)

NGH

NEF

4 3 2 1 0

0,2 0,4 0,6

L/RAX

Feed rate (mm/rev)

l = Euro stock

l = Stock item in Japan

▌◄

m m m

m m

mm mm mm

m m

D DIAMOND TYPE

Negative Inserts

INSERTS FOR TURNING

55° Diamond Type With Insert Hole 0° Relief

IC L

L

11,6 15,5 15,5

IC

9,525 12,7 12,7

S

4,76 4,76 6,35

Fine Finishing

Depth of cut (mm)

NFB

Depth of cut (mm)

NFA

Cermet

Coated

P

M

P M

K

H

S

P M

Carbide

Uncoated Uncoated

Coated

P

K

S

N

ISO Cat. No.

RE

DNMG 110404 NFB DNMG 110408 NFB

0,4 0,8

m m

mmm mmm

DNMG 150404 NFB DNMG 150408 NFB

0,4 0,8

m m

mmmmm mmmmm

DNMG 150604 NFB DNMG 150608 NFB

0,4 0,8

m m

mmmmm mmmmm

DNMG 150404 NFA DNMG 150408 NFA

0,4 0,8

mmmmm mmmmm

DNMG 150604 NFA DNMG 150608 NFA

0,4 0,8

lm l

DNMG 150404 NFL DNMG 150408 NFL DNMG 150412 NFL

0,4 0,8 1,2

DNMG 150604 NFL DNMG 150608 NFL

0,4 0,8

DNMG 110404 NFE DNMG 110408 NFE DNMG 110412 NFE

0,4 m m m m 0,8 m m m m 1,2 m m m m

mm mm mm

mmm mmm mmm

DNMG 150402 NFE DNMG 150404 NFE DNMG 150408 NFE DNMG 150412 NFE

0,2 m m m m 0,4 m m m m 0,8 m m m m 1,2 m m m m

mm mm mm mm

mmmmm mmmmm mmmmm mmmmm

DNMG 150602 NFE DNMG 150604 NFE DNMG 150608 NFE DNMG 150612 NFE

0,2 m m m m 0,4 m m m m 0,8 m m m m 1,2 m m m m

mm mm mm mm

mmmmm mmmmm mmmmm mmmmm

DNMG 110404 NLU DNMG 110408 NLU

0,4 l l l 0,8 l m m

m m

m m

DNMG 150402 NLU DNMG 150404 NLU DNMG 150408 NLU DNMG 150412 NLU

0,2 m m m 0,4 m m m m 0,8 m m m m 1,2 m m m m

m m m m

m m m m

DNMG 150604 NLU DNMG 150608 NLU DNMG 150612 NLU

0,4 l l l 0,8 l l l 1,2 l l l

Neg. Inserts

Shape

Feed rate (mm/rev)

m m

ll ll

Feed rate (mm/rev)

Depth of cut (mm)

Fine Finishing

a E9

Carbide

M-Class Double Sided Bumpy Chipbreaker

Fine Finishing

a D13, D19 D41

S

DNMG llllll n-nn Application

P Steel M Stainless Steel K Cast Iron N Non-Ferrous Metals S Super Alloy H Hardened Steel

D1

3,81 5,16 5,16

AC8015P AC8020P AC8025P AC8035P AC6020M AC6030M AC6040M AC630M AC4010K AC4015K AC420K AC503U AC5005S AC5015S AC5025S AC1030U AC530U T1500Z T2500Z T3000Z T1000A T1500A G10E EH510 EH520 H1

55°

1104.. 1504.. 1506..

Dimensions (mm)

D1

RE

DN_ _

NFL

m m

m m

mmmmm mmmmm

l l

l l

Depth of cut (mm)

Fine Finishing

Feed rate (mm/rev)

NFE

Depth of cut (mm)

Finishing

Feed rate (mm/rev)

NLU

Feed rate (mm/rev)

l = Euro stock

l = Stock item in Japan

▌◄

l l

m m m

m m

mmmmm mmm mm mmmmmm mmm m

l l l

C29

D DIAMOND TYPE

Negative Inserts

INSERTS FOR TURNING

55° Diamond Type With Insert Hole 0° Relief

IC 55°

L

1104.. 1504.. 1506..

Dimensions (mm)

L

11,6 15,5 15,5

IC

9,525 12,7 12,7

S

4,76 4,76 6,35

a D13, D19 D41

Carbide

Finishing

Depth of cut (mm)

P

NEF

Finishing

Depth of cut (mm)

Feed rate (mm/rev)

NSU

Finishing

Depth of cut (mm)

Feed rate (mm/rev)

NSE

Depth of cut (mm)

Finishing

Feed rate (mm/rev)

NSX

ISO Cat. No.

RE

M

K

P M

H

S

P M

Carbide

Uncoated Uncoated

Coated

P

K

m

DNMG 110404 NEF DNMG 110408 NEF DNMG 110412 NEF

0,4 m l l m l l l 0,8 m l l m l l l 1,2 m m m m m l

mmm mmm mmm

DNMG 150404 NEF DNMG 150408 NEF DNMG 150412 NEF

0,4 m m m m m m m l 0,8 m m m m m m m l 1,2 m m m m m m

mmm mmm mmm

ll l

DNMG 150604 NEF DNMG 150608 NEF DNMG 150612 NEF

0,4 m l l m l l l l 0,8 m l l m l l l l 1,2 m l l m l l m

lll lll lll

ll ll

DNMG 110404 NSU DNMG 110408 NSU DNMG 110412 NSU

0,4 l l l m l m m l 0,8 l l l m l m m l 1,2 m m m m

ll ll

DNMG 150402 NSU DNMG 150404 NSU DNMG 150408 NSU DNMG 150412 NSU

0,2 m m 0,4 m m m m m m m m 0,8 m m m m m m m 1,2 m m m m m

mmm mmm mmm

DNMG 150604 NSU DNMG 150608 NSU DNMG 150612 NSU

0,4 l l l l l l l l 0,8 l l l l l l l l 1,2 l l l l l

ll ll ll

DNMG 110408 NSE

0,8 l m m m

DNMG 150404 NSE DNMG 150408 NSE DNMG 150412 NSE

0,4 l m m m 0,8 m m m m 1,2 l m m m

DNMG 150604 NSE DNMG 150608 NSE DNMG 150612 NSE

0,4 l l l 0,8 l l l 1,2 l l l

DNMG 150404 NSX DNMG 150408 NSX DNMG 150412 NSX

0,4 m m m m 0,8 m m m m 1,2 m m m m

mmm mmm

m

DNMG 150604 NSX DNMG 150608 NSX

0,4 0,8 l

mm mm

m m

DNMG 110404 NGU DNMG 110408 NGU DNMG 110412 NGU

0,4 l l l m l l m l m m 0,8 l l l l l l m l m m 1,2 l l l m l lmm

DNMG 150404 NGU DNMG 150408 NGU DNMG 150412 NGU DNMG 150416 NGU

0,4 m m m m m m m m m m 0,8 m m m m m m m m m m 1,2 m m m m m m m m m 1,6 m mm

mmm mmm mmm

m m m

DNMG 150604 NGU DNMG 150608 NGU DNMG 150612 NGU DNMG 150616 NGU

0,4 l l l l l l l l m m 0,8 l l l l l l l l m m 1,2 l l l m l l m l m m 1,6 m mm

mmmmmm mmmmmm mmmmm mmmmm

lm lm l

ll ll ll

mm mm mm

mm mm mm m m

Depth of cut (mm)

Medium Cut

Feed rate (mm/rev)

NGU

Feed rate (mm/rev)

C30

S

l = Euro stock

l = Stock item in Japan

▌◄

N

AC8015P AC8020P AC8025P AC8035P AC6020M AC6030M AC6040M AC630M AC4010K AC4015K AC420K AC503U AC5005S AC5015S AC5025S AC1030U AC530U T1500Z T2500Z T3000Z T1000A T1500A G10E EH510 EH520 H1

Shape

Cermet

Coated

M-Class Double Sided Bumpy Chipbreaker

Neg. Inserts

a E9

S

DNMG llllll n-nn Application

P Steel M Stainless Steel K Cast Iron N Non-Ferrous Metals S Super Alloy H Hardened Steel

D1

3,81 5,16 5,16

D1

RE

DN_ _

mmm mmm mmm

D DIAMOND TYPE

Negative Inserts

INSERTS FOR TURNING

55° Diamond Type With Insert Hole 0° Relief

IC 55°

L

1104.. 1504.. 1506..

Dimensions (mm)

L

11,6 15,5 15,5

IC

9,525 12,7 12,7

S

4,76 4,76 6,35

a D13, D19 D41

Carbide

Depth of cut (mm)

Medium Cut

NGE

Depth of cut (mm)

Medium Cut

Feed rate (mm/rev)

NUG

Medium Cut

Depth of cut (mm)

Feed rate (mm/rev)

NEG

Depth of cut (mm)

Feed rate (mm/rev)

NEX

Feed rate (mm/rev)

ISO Cat. No.

RE

M

P M

K

H

S

P M

P

K

S

DNMG 110408 NGE DNMG 110412 NGE

0,8 m m m m 1,2 m m m m

DNMG 150404 NGE DNMG 150408 NGE DNMG 150412 NGE DNMG 150416 NGE

0,4 m m m m 0,8 m m m m 1,2 m m m m 1,6 m

DNMG 150604 NGE DNMG 150608 NGE DNMG 150612 NGE DNMG 150616 NGE

0,4 l l l m 0,8 l l l l 1,2 l l l l 1,6 l l l m

DNMG 110404 NUG DNMG 110408 NUG

0,4 0,8

ml mm

DNMG 150404 NUG DNMG 150408 NUG DNMG 150412 NUG

0,4 0,8 1,2

m mm mm

DNMG 150604 NUG DNMG 150608 NUG DNMG 150612 NUG DNMG 150616 NUG

0,4 l 0,8 l 1,2 1,6

m

DNMG 110408 NEG DNMG 110412 NEG

0,8 m l l m l l l 1,2 m l l m l l

mmm mmm

DNMG 150404 NEG DNMG 150408 NEG DNMG 150412 NEG

0,4 m m m m m m m 0,8 m m m m m m m l 1,2 m m m m m m m l

mmm mmm mmm

l l

DNMG 150604 NEG DNMG 150608 NEG DNMG 150612 NEG

0,4 m l l m l l l m 0,8 m l l m l l l l 1,2 m l l m l l l l

mmm

m

lll lll

ll ll

DNMG 110404 NEX DNMG 110408 NEX

0,4 0,8

l l

DNMG 150404 NEX DNMG 150408 NEX DNMG 150412 NEX

0,4 0,8 1,2

mmm mmm mm

mmm mmm mmm

DNMG 150604 NEX DNMG 150608 NEX DNMG 150612 NEX

0,4 0,8 1,2

llll llll lmml

ll ll ll

l = Euro stock

l = Stock item in Japan

▌◄

N

AC8015P AC8020P AC8025P AC8035P AC6020M AC6030M AC6040M AC630M AC4010K AC4015K AC420K AC503U AC5005S AC5015S AC5025S AC1030U AC530U T1500Z T2500Z T3000Z T1000A T1500A G10E EH510 EH520 H1

P

Carbide

Uncoated Uncoated

Coated

Neg. Inserts

Shape

Cermet

Coated

M-Class Double Sided Bumpy Chipbreaker

Medium Cut

a E9

S

DNMG llllll n-nn Application

P Steel M Stainless Steel K Cast Iron N Non-Ferrous Metals S Super Alloy H Hardened Steel

D1

3,81 5,16 5,16

D1

RE

DN_ _

lm m m

l l

m

ll ll

C31

D DIAMOND TYPE

Negative Inserts

INSERTS FOR TURNING

55° Diamond Type With Insert Hole 0° Relief

IC L

L

15,5 15,5

IC

12,7 12,7

S

4,76 6,35

a D13, D19 D41

Carbide

Medium Cut

Depth of cut (mm)

Shape

NUP

Cermet

Coated

P

M-Class Double Sided Bumpy Chipbreaker

Neg. Inserts

a E9

S

DNMG llllll n-nn Application

P Steel M Stainless Steel K Cast Iron N Non-Ferrous Metals S Super Alloy H Hardened Steel

D1

5,16 5,16

M

P M

K

H

S

P M

Carbide

Uncoated Uncoated

Coated

P

K

ISO Cat. No.

RE

DNMG 150404 NUP DNMG 150408 NUP DNMG 150412 NUP

0,4 0,8 1,2

mmm mmm m m

mmm llm mmm

DNMG 150604 NUP DNMG 150608 NUP DNMG 150612 NUP

0,4 0,8 1,2

lllllll lllllll ll l

ll ll ll

DNMG 150404 LUM DNMG 150408 LUM

0,4 0,8

m m

m m

DNMG 150404 RUM DNMG 150408 RUM

0,4 0,8

m m

m m

DNMG 150404 NMU DNMG 150408 NMU DNMG 150412 NMU DNMG 150416 NMU

0,4 0,8 m m m m 1,2 m m m m mm 1,6

DNMG 150608 NMU DNMG 150612 NMU DNMG 150616 NMU

0,8 l l l l l l 1,2 l l l l l l 1,6 l l l

DNMG 150408 NEM DNMG 150412 NEM DNMG 150416 NEM

0,8 m m m m m m m 1,2 m m m m m m m mmmmm 1,6

mmm mmm mmm

DNMG 150608 NEM DNMG 150612 NEM DNMG 150616 NEM

0,8 m l l m l l l 1,2 m l l m l l l 1,6 ll

mmm mmm

DNMG 150408 NME DNMG 150412 NME DNMG 150416 NME

0,8 m m m m 1,2 m m m m m 1,6

mm mm mm

DNMG 150608 NME DNMG 150612 NME DNMG 150616 NME

0,8 l l l l 1,2 l l l m 1,6 l l l m

mm mm ml

Medium Cut

Depth of cut (mm)

Feed rate (mm/rev)

L/RUM

Roughing

Depth of cut (mm)

Feed rate (mm/rev)

NMU

m m

m m

lmm lmm mmm

l l l

Depth of cut (mm)

Roughing

Feed rate (mm/rev)

NEM

Depth of cut (mm)

Roughing

Feed rate (mm/rev)

NME

Feed rate (mm/rev)

C32

l = Euro stock

l = Stock item in Japan

▌◄

S

N

AC8015P AC8020P AC8025P AC8035P AC6020M AC6030M AC6040M AC630M AC4010K AC4015K AC420K AC503U AC5005S AC5015S AC5025S AC1030U AC530U T1500Z T2500Z T3000Z T1000A T1500A G10E EH510 EH520 H1

55°

1504.. 1506..

Dimensions (mm)

D1

RE

DN_ _

D DIAMOND TYPE

Negative Inserts

INSERTS FOR TURNING

55° Diamond Type With Insert Hole 0° Relief

IC L

L

11,6 15,5 15,5

IC

9,525 12,7 12,7

S

4,76 4,76 6,35

L/RHM

Cermet

Coated

P

M

P M

K

H

S

P M

Carbide

Uncoated Uncoated

Coated

P

K

S

N

ISO Cat. No.

RE

DNMG 150404 LHM DNMG 150408 LHM

0,4 0,8

DNMG 150404 RHM DNMG 150408 RHM

0,4 m m m m 0,8 m m m m

DNMG 110408 NUX

0,8 m m m m

DNMG 150404 NUX DNMG 150408 NUX DNMG 150412 NUX

0,4 m m m m 0,8 m m m m 1,2 m m m m

DNMG 150604 NUX DNMG 150608 NUX DNMG 150612 NUX DNMG 150616 NUX

0,4 m l l m 0,8 l l l l 1,2 l l l l l 1,6

DNMG 150408 NMX DNMG 150412 NMX

0,8 1,2