Achteck katalog 2025

CUTTING TOOL CATALOGUE

ISO Turning Inserts

22 24 27 28 44 46 54 58 62 66 70 72 75 75 76 81 84 85 90 95 96

ISO Turning Insert Denomination System Overview of Turning Grades Overview of Turning Insert Geometries Turning Grade Description Turning Cutting Parameter Recommended Table

Negative 80° C Shape Insert Negative 55°D Shape Insert Negative 90°S Shape Insert Negative 60° T Shape Insert Negative 35° V Shape Insert 片 Negative 80° W Shape Insert Negative 90° L Shape Insert Train Wheel Reconditioning Insert

Positive 80° C Shape Insert Positive 55°D Shape Insert Positive 90°S Shape Insert Positive 60° T Shape Insert Positive 35° V Shape Insert Positive 80° W Shape Insert Round R Insert

Turning ISO Turning Inserts

ISO Turning Insert Denomination System

C

N

M

G

1

2

3

4

1- Shape/Code

2- Clearance Angle

A

B

C

D

E

A

B

C

D

H

K

L

M

O

E

F

G

N

P

R

S

T

V

P

O

W

Z

Others clearance angle

Others

3- Tolerance

Shape：C, E, H, M, O, P, S, T, R, W

IC

m

IC

J,K,L,M,N

U

M, N

U

IC

IC

IC

IC

4.76

± 0,05

± 0,08

± 0,08

± 0,13

In.Circle dimension IC

Nose height m

Thickness s

5.56

± 0,05

± 0,08

± 0,08

± 0,13

Class Unit

6.00

± 0,05

± 0,08

± 0,08

± 0,13

A

mm ± 0,025

± 0,005

± 0,025

6.35

± 0,05

± 0,08

± 0,08

± 0,13

C

mm ± 0,025

± 0,013

± 0,025

7.94

± 0,05

± 0,08

± 0,08

± 0,13

E

mm ± 0,025

± 0,025

± 0,025

8.00

± 0,05

± 0,08

± 0,08

± 0,13

9.525

± 0,05

± 0,08

± 0,08

± 0,13

F

mm ± 0,013

± 0,005

± 0,025

10.00

± 0,05

± 0,08

± 0,08

± 0,13

G

mm ± 0,025

± 0,025

± 0,130

12.00

± 0,08

± 0,13

± 0,13

± 0,20

H

mm ± 0,013

± 0,013

± 0,025

12.70

± 0,08

± 0,13

± 0,13

± 0,20

J

mm

*

± 0,005

± 0,025

15.875

± 0,10

± 0,18

± 0,15

± 0,27

K

mm

*

± 0,013

± 0,025

16.00

± 0,10

± 0,18

± 0,15

± 0,27

L

mm

*

± 0,025

± 0,025

19.05

± 0,10

± 0,18

± 0,15

± 0,27

M

mm

*

*

± 0,127

20.00

± 0,10

± 0,18

± 0,15

± 0,27

U

mm

*

*

± 0,127

25.00

± 0,13

± 0,25

± 0,18

± 0,38

N

mm

*

*

± 0,025

25.40

± 0,13

± 0,25

± 0,18

± 0,38

31.75

± 0,15

± 0,25

± 0,20

± 0,38

* For details refer to right and below tables

32.00

± 0,15

± 0,25

± 0,20

± 0,38

M&N class

D shape

V shape

4- Type of Insert

IC

ic

m

ic

m

A

B

C

F

G

5.56

± 0,05

± 0,11

6.35

± 0,05

± 0,11

± 0,05

± 0,16

H

J

M

N

Q

7.94

± 0,05

± 0,11

± 0,05

± 0,16

9.525

± 0,05

± 0,11

± 0,05

± 0,16

12.70

± 0,08

± 0,15

± 0,08

± 0,20

R

T

U

W

Z

15.875

± 0,10

± 0,18

± 0,10

± 0,27

Special

19.05

± 0,10

± 0,18

± 0,10

± 0,27

24

Turning ISO Turning Inserts

12

04

08 E - KC4

5

6

7

8

-

9

5- Cutting Edge Length

7- Nose Radius

Insert shape

Corner radius

In.Circle Dimension (mm)

C

D

R

S

T

V

W K

Example：

M0 = Round insert (metric) 00 = Sharp

20 = 2.00 24 = 2.40 28 = 2.80 32 = 3.20 40 = 4.00 48 = 4.80 56 = 5.60 64 = 6.40

3.97

06

02

003 = 0.03 005 = 0.05 01 = 0.10 02 = 0.20 04 = 0.40 08 = 0.80 12 = 1.20 16 = 1.60

5.00

05

5.56

09

6.00

06

6.35

06 07

11 11 04

8.00 08 9.525 09 11 09 09 16 16 06 16 10.00 10 12.00 12 12.70 12 15 12 12 22 22 08 15.875 16 15 15 27 16.00 16 19.05 19 19 19 33 20.00 20 25.00 25 25.40 25 25 25 31.75 31 32.00 32

X = Others

8- Edge Preparation

Code

Edge shape

Description

Sharp cutting edge

F

Honed cutting edge

E

T-land

T

T-land+Honed cutting edge

S

9- Chip Breaker Description

Refer to page: P28-43

6- Thickness

Ground Positive Insert Example

Round down plus zero or T

CCET 09 T3 01 F

P

R

- F

Example:

A, B, C, N, O, W

01 = 1.59 T1 = 1.98 02 = 2.38

P: Insert

L: Left R: Right

E: Honing edge F: Sharp edge

Geometry

polishing

treatment

03 = 3.18 T3 = 3.97 04 = 4.76 05 = 5.56 06 = 6.35 07 = 7.94 09 = 9.525 11 = 11.11 12 = 12.70 14 = 14.29 15 = 15.88

H, M, R, T

F, G, J, U

25

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Turning ISO Turning Inserts

Turning and Grooving Grade Application Guide

Turning

Grooving/Parting off

Coated

Coated

Material Group ISO

ISO

PCBN PCD

CVD

PVD

CVD

PVD

P01

P01

P10

P10

Non- alloy steels/ Alloyed steels

P20

P20

P30

P30

P40

P40

P50

P50

M01

M01

M10

M10

Stainless steels

M20

M20

M30

M30

M40

M40

K01

K01

K10

K10

K20

K20

Cast iron

K30

K30

K40

K40

K50

K50

N01

N01

N10

N10

Aluminum/ Aluminum alloys

N20

N20

N30

N30

S01

S01

S10

S10

Heat resistant alloys

S20

S20

S30

S30

S40

S40

H01

H01

Hardened steels/ Chilled cast iron

H10

H10

H20

H20

H30

H30

27

Turning ISO Turning Inserts

Overview of Turning Insert Geometries

Negative Inserts

Cross section geometry

Application

Chip breaker

Features

Chip breaking range

A B

Steel finishing machining chip breaker Chip breaker structure design to break chips at varied depths of cut, featuring good sharpness and smooth edge inclination design, which can effectively improve the chip flow and reduce cutting force. 1st choice for steel finish to semi- finishing turning Light cutting chip breaker, low cutting force, suitable for slender shaft, thin walled and poorly clamped parts. Overall good cutting performance.

PA1

1#



0.10

PB1

A





0.10



B









G NNSFW

Finishing

4$



SC1

1st choice for heat resistant alloy finish turning Excellent performance at low depth of cut.

A



B







G NNSFW

1st choice for stainless steel finish turning High positive rake angle reduced cutting force and built-up edge, can obtain much better surface quality. Very good chip breaking at low feed and cutting depth.

.#



15°

MB2

A





0.20



B











G NNSFW

#4



BS

Recommended for profile turning Suitable for profiling with changing depth of cut. Smooth chip evacuation

A



Profiling



B







G NNSFW

4-

Recommended for heat resistant alloy light turning. Suitable for heat resistant alloy, Ti- alloy. Sharp and wavy cutting edge can get good surface finish and good chip breaking results.



SL3

A



Light cutting





B













G NNSFW

28

Turning ISO Turning Inserts

80° Rhombus

55° Rhombus

90° Square

60° Triangle

35° Rhombus

80° Trigon

Round

CNMG-PA1

DNMG-PA1

TNMG-PA1

VNMG-PA1

WNMG-PA1

P54

P58

P66

P70

P72

CNMG-PB1

DNMG-PB1

SNMG-PB1

TNMG-PB1

VNMG-PB1

WNMG-PB1

P54

P58

P62

P66

P70

P72

CNMG-SC1

DNMG-SC1

TNMG-SC1

VNMG-SC1

WNMG-SC1

P54

P58

P66

P70

P72

CNMG-MB2

DNMG-MB2

SNMG-MB2

TNMG-MB2

VNMG-MB2 WNMG-MB2

P54

P58

P62

P66

P70

P72

DNMG-BS

VNMG-BS

P58

P70

CNMG-SL3

DNMG-SL3

SNMG-SL3

TNMG-SL3

VNMG-SL3

WNMG-SL3

P54

P58

P62

P66

P70

P73

29

Turning ISO Turning Inserts

Cross section geometry

Application

Chip breaker

Features

Chip breaking range

A B

1st choice for steel semi finish turning The positive rake angle combined with small land guaranteed edge strength and sharpness, reduced the cutting force. The wavy side edge design has a good chip breaking result in small leading angle turning on the shoulder, and in profile turning at different cutting depths. Alternative chipbreaker for steel semi-finish turning Unique geometry design offers wider chip breaking range. Double rake angle makes the cutting smoothly. Enhanced insert tip reduced crater wear. 1st choice for heat resistant alloy medium turning Used in heat resistant alloy and titanium alloy medium turning. Large rake angle + small land width design, easy cutting, is also suitable for soft steel turning. 1st choice for stainless steel medium turning Sharp cutting edge, low cutting force, wide chip breaking range and good chip removal ability. 1st choice for steel medium turning It has a strong chip control ability at low feed and cutting depth, and reduces crater wear. The chip breaking is also very good at high feed and cutting depth due to the geometry design. Double rake angle design makes sharp cutting edge and reduces cutting force. 1st choice for carbon steel & alloyed steel (medium-cutting conditions) Alternative chip breaker for cast iron finishing & light-duty machining Wide applicability across P, M, K-class workpiece materials for general-purpose medium-duty machining. Positive land angle geometry for reduced cutting forces and enhanced process stability. Features an optimized edge preparation technique to balance cutting-edge sharpness and strength.

1#



0.12

PB3

A





0.12



B











G NNSFW

1$



PC3

0.15



A



0.21



B

Semi- finishing











G NNSFW

4$



0.15

SC3



A





0.15



B











G NNSFW

.$



MC3



0.29

A



12°







0.30

B



9°













G NNSFW

1%



0.20

PD3



A





0.20





B













G NNSFW

Medium

UC4

0.20

UC4

A

0.20

B

30

Turning ISO Turning Inserts

80° Rhombus

55° Rhombus

90° Square

60° Triangle

35° Rhombus

80° Trigon

Round

TNMG-PB3

VNMG PB3

WNMG-PB3

CNMG-PB3

DNMG-PB3

P54

P59

P67

P70

P73

CNMG-PC3

DNMG-PC3

SNMG-PC3

TNMG-PC3

VNMG-PC3

WNMG-PC3

P54

P59

P62

P67

P70

P73

CNMG-SC3

DNMG-SC3

SNMG-SC3

TNMG-SC3

VNMG-SC3

WNMG-SC3

P55

P59

P62

P67

P70

P73

CNMG-MC3

DNMG-MC3

SNMG-MC3

TNMG-MC3

VNMG-MC3

WNMG-MC3

P55

P59

P62

P67

P70

P73

CNMG-PD3

DNMG-PD3

SNMG-PD3

TNMG-PD3

VNMG-PD3

WNMG-PD3

P55

P60

P63

P67

P71

P73

CNMG-UC4

DNMG-UC4

SNMG-UC4

TNMG-UC4

VNMG-UC4

WNMG-UC4

P55

P60

P62

P67

P71

P73

31

Turning ISO Turning Inserts

Cross section geometry

Application

Chip breaker

Features

Chip breaking range

A B

1st choice for cast iron medium turning Alternative chipbreaker for carbon steel and alloy steel medium turning Flat T-land guarantee the strength of cutting edge. This multi-purpose geometry can be used in universal applications. 1st choice for steel slender bar turning Open chip breaker leads to smooth cutting with low cutting force, which is suitable for slender shaft turning. Alternative chipbreaker for stainless steel and heat resistant alloy rough turning Large chip breaker design, smooth chip evacuation, good chip breaking, with high metal removal rate.

1$

0.25



PC4



A





0.25





B















G NNSFW

Medium

1-



PL5



0.20



A



















G NNSFW

.$

MC4

       

0.30

A

8°

0.32

B



6°



 









G NNSFW

,$

KC4



0.30



A

1st choice for cast iron turning It has strong cutting edge, reliable and stable performance.







0.30



B















G NNSFW

Roughing

1%

Alternative chipbreaker for steel rough turning A strong cutting edge. Double rake angle design effectively reduces the cutting force, can still have good chip breaking at small cutting depth.



PD5

0.25



A







0.32



B



















G NNSFW

,%



KD5

1st choice for cast iron rough turning



0°





A

High cutting edge strength, suitable for interrupt cutting and unstable cutting.





















G NNSFW

32

Turning ISO Turning Inserts

80° Rhombus

55° Rhombus

90° Square

60° Triangle

35° Rhombus

80° Trigon

Round

CNMG-PC4

DNMG-PC4

SNMG-PC4

TNMG-PC4

VNMG-PC4

WNMG-PC4

P55

P60

P63

P67

P71

P74

DNMG-PL5

TNMG-PL5

WNMG-PL5

P60

P67

P74

CNMG-MC4

DNMG-MC4

SNMG-MC4

TNMG-MC4

WNMG-MC4

P56

P61

P63

P68

P74

CNMG-KC4

DNMG-KC4

SNMG-KC4

TNMG-KC4

VNMG-KC4

WNMG-KC4

P56

P61

P64

P68

P71

P74

CNMG-PD5

DNMG-PD5

SNMG-PD5

TNMG-PD5

WNMG-PD5

P56

P61

P64

P68

P74

CNMA-KD5

DNMA-KD5

SNMA-KD5

TNMA-KD5

WNMA-KD5

P57

P61

P64

P68

P74

33

Turning ISO Turning Inserts

Cross section geometry

Application

Chip breaker

Features

Chip breaking range

A B

1$

PC8



0.3

Light cutting geometry for heavy turning Positive rake angle and curved cutting edge design, low cutting force. Heavy turning geometry for soft steel and stainless steel The geometry design ensures low cutting force. Suitable for low power machine tools. Applied in steel, stainless steel and cast iron heavy turning. 1st choice for steel heavy rough turning Wavy geometry is good for chip breaking. The geometry has a big space for chips, which is suitable for high metal removal rate.



A







0.3



B

        

G NNSFW

1%

0.30



PD8



A





0.30





B

          

G NNSFW

Heavy roughing

1$



0.42

PC9



A







0.42



B

















G NNSFW

1%

0.62

PD9



Alternative chipbreaker for steel heavy rough turning High edge strength is suitable for large cutting depth and high feed turning. High machining reliability.





A





 

0.62



B

        G NNSFW

34

Turning ISO Turning Inserts

80° Rhombus

55° Rhombus

90° Square

60° Triangle

35° Rhombus

80° Trigon

Round

CNMM-PC8

P57

CNMM-PD8

SNMM-PD8

TNMM-PD8

P57

P65

P69

CNMM-PC9

SNMM-PC9

P57

P65

CNMM-PD9

SNMM-PD9

P57

P65

35

Turning ISO Turning Inserts

Negative Ground Insert

Cross section geometry

Application

Chip breaker

Features

Chip breaking range

A B

6'



UF

A

Suitable for precision turning Low cutting forces, good chip breaking, suitable for finish turning.







B









G NNSFW

Finishing

'



F

Finish turning Low cutting force, good chip control. The sharp edge produces a good surface finish.

17°

A











G NNSFW

)

H



16°

Light turning Excellent chip control at low to medium feed rates. Strong edge strength.

Semi- finishing- Rough machining

0.2



A









G NNSFW

36

Turning ISO Turning Inserts

80° Rhombus

55° Rhombus

90° Square

60° Triangle

35° Rhombus

80° Trigon

Round

CNGG-UF

DNGG-UF

TNGG-UF

VNGG-UF

P54

P58

P66

P70

TNGG-F

P69

TNGG-H

P69

37

Turning ISO Turning Inserts

Overview of Turing Insert Geometry

Positive Pressed Insert

Cross section geometry

Application

Chip breaker

Features

Chip breaking range

A B

#4



BS

A

Finish turning Profile turning or turning with changing depth of cut, smooth chip evacuation.



Profiling

0.2

B









G NNSFW

1#

1st choice for steel finish turning Positive rake angle reduces cutting force and built-up edge, and obtains better surface finish and longer tool life. Also can be used in stainless steel turning.



PB1

A

6°



Finishing



B

6°







G NNSFW

1$



PC2

0.13

1st choice for steel and stainless steel semi-finish turning Sharp geometry design ensures low cutting force, less built-up edge and excellent chip control.

A



Semi- finishing

8°



B

9°









G NNSFW

38

Turning ISO Turning Inserts

80° Rhombus

55° Rhombus

90° Square

60° Triangle

35° Rhombus

80° Trigon

Round

VBMT-BS

P90

CCMT-PB1 CPMT-PB1

TCMT-PB1 TPMT-PB1

DCMT-PB1

SCMT-PB1

VBMT-PB1 VCMT-PB1

P77、80

P82

P84

P86、88

P90、93

CCMT-PC2 CPMT-PC2

VBMT-PC2 VCMT-PC2

DCMT-PC2

SCMT-PC2

TCMT-PC2 TPMT-PC2

P91、93

P77、80

P82

P84

P86、88

39

Turning ISO Turning Inserts

Cross section geometry

Application

Chip breaker

Features

Chip breaking range

A B

General purpose geometry for steel, stainless steel and cast iron turning Suitable for medium and rough turning. Simple and durable chip breaker design, very good versatility and wide application range.

,$



KC2

0.13



A

Medium



0.13



B









G NNSFW

,%



KD5

Geometry for cast iron rough turning



A

Suitable for unstable machining due to its strong cutting edge. Reduced chipping.

0°











G NNSFW

Roughing

0.61

)5

Geometry for steel turning with large cutting depth Open chip breaker is suitable for large cutting depth with smooth chip evacuation. Good cost efficiency. Geometry for carbon steel and alloy steel semi-finishing turning A wide chipbreaker avoid chip jam at large cutting depth. Chip control can be also good at small cutting depth.

     

HT

A

15.4°

0.61

   

B

15.4°











G NNSFW

1%

PD8





0.5



Semi- finishing



A















 

G NNSFW



No code

Alternative chipbreaker for cast iron and alloy steel medium turning Negative land and large rake angle design ensure cutting edge strength and sharpness.



0.4



Medium



A











 

 

G NNSFW

40

Turning ISO Turning Inserts

80° Rhombus

55° Rhombus

90° Square

60° Triangle

35° Rhombus

80° Trigon

Round

CCMT-KC2

DCMT-KC2

SCMT-KC2

TCMT-KC2

VBMT-KC2

P78

P82

P84

P87

P91

CCMW-KD5

DCMW-KD5

SCMW-KD5

TCMW-KD5

P78

P82

P84

P87

SCMT-HT

P84

RCMX-PD8

P96

RCMX

P96

41

Turning ISO Turning Inserts

正型磨制 Inserts

Cross section geometry

Application

Chip breaker

Features

Chip breaking range

A B

24°

-'

Finish turning Sharp cutting edge, low cutting force, suitable for Swiss-type automatic lathe with 2 direction machining.

LF



A





24°



B









G NNSFW

Finishing

6'

1st choice for heat resistant alloy turning Peripheral ground finish turning inserts. High repeatibility on insert positioning. Sharp cutting edge can achieve good machining tolerance. Choice for aluminium alloy turning Very positive rake angle is designed for non-ferrous metal finish and semi-finish turning. It reduces the cutting force and make smooth chip evacuation. The polished rake surface, with reduced friction and built-up edge.



UF

A

10°





B

10°









G NNSFW

/$



NC2



25°

A

Semi- finishing







B

20°











 

G NNSFW

'



F

Choice for finish turning Excellent chip control at low feed rate. Very low cutting force.

Finishing



A







G NNSFW

.

Suitable for medium turning in automatic lathes Excellent chip control at low to medium feed rate. Reliable machining. large rake angle avoid work hardening.



M





Low feed

A















G NNSFW

:



Choice for semi-finish to rough turning in automatic lathe The strong edge can be used in rough turning. Good chip control for low to medium feed rate

Y

1.3



Semi- finishing

A









G NNSFW

42

Turning ISO Turning Inserts

80° Rhombus

55° Rhombus

90° Square

60° Triangle

35° Rhombus

80° Trigon

Round

CCGT-LF

DCGT-LF

TCGT-LF

VBGT-LF VCGT-LF VPGT-LF

P76

P81

P85

P90、93、94

CCGT-UF

DCGT-UF

TCGT-UF

VBGT-UF VCGT-UF VPGT-UF

P76

P81

P85、86

P90、93、94

CCGT-NC2

DCGT-NC2

SCGT-NC2

TCGT-NC2

VCGT-NC2 VPGT-NC2

RCGT-NC2

P76

P81

P86

P84

P93、94

P96

TBET-F TCET-F TPEH-F

CCET-F

DCET-F

VBET-F VCET-F VPET-F

WBET-F

P78

P82、83

P85、87、89

P91、93、94

P95

CCET-M

DCET-M

TCET-M

VBET-M VPET-M

P79

P83

P87

P92、94

VBET-Y

P92

43

Turning ISO Turning Inserts

Turning Grade Description

Basic Grades for Turning

Steel, cast steel, ferrite/martensite stainless steel and malleable cast iron

Basic grade

Supplemental grade

AC052P P05(P01-P15) CVD coated grade, has good crater resistance and chipping resistance, which is recommanded for high productivity medium and rough turning in stable condition, can keep edge reliability in dry or wet machining with high temperature. AC152P P15(P05-P25) CVD coated grade, can be used in finish to rough turning on steel and cast steel, and is recommanded in continuous and light interrupted cutting where it can keep high metal removal rate. AC252P P25(P15-P35) CVD coated grade, 1st choice for steel turning, used in finish to rough turning on steel and cast steel. It's recommanded for continuous and interrupted machining. AC350P P35(P30-P45) CVD coated grade, can be used in rough turning on steel and cast steel under poor conditions. Reliable cutting edge made this grade good for interrupted machining with high metal removal rate. AT210A P15(P10-P20) Coated cermet grade, the combination of ultra-fine crystalline hard phase and composite bonding phase to realize the balance of wear resistance and chipping resistance; suitable for continuous medium to fine turning processing of steel materials, and offer high-quality machining surface. AT202 P15(P10-P20) Uncoated cermet grade. It has excellent built-up edge resistance and chipping resistance which can be used in finish turning with good surface quality or low cutting force requests.

AP200U P25(P15-P35) PVD coated grade, recommanded for finish turning on low carbon steel with low cutting speed or low feed.

Austenitic stainless steel, cast steel, manganese steel, alloyed cast iron, malleable cast iron and free cutting iron

Basic grade

Supplemental grade

AC100M M15(M05-M20) CVD coated grade. It's recommanded for finish machining and light rough machining. It's suitable for machining at medium to high cutting speed due to its heat resistance feature of wear resistant coating. AC200M M25(M15-M30) CVD coated grade, optimised for semi-finish to rough turning, can be used in interrupted machining in which it can keep edge reliability due to good thermal shock stability and mechanical shock resistance. AP301M M25(M15-M35) PVD coated grade. Mainly used in machining steel and stainless steel small parts. It has excellent built-up edge resistance, good machining stability, can obtain good surface quality, and achieve longer tool life.

AP010S (M01-M15) PVD coated grade, recommanded for finish turning due to its high hardness and resistance to plastic deformation. AP200U M25(M15-M35) PVD coated grade, used in complementary stainless steel applications at low to medium cutting speeds and also in interrupted turning due to excellent thermal stability, outstanding performance in machining when sharp edge and edge toughness or good surface quality are requeste

44

Turning ISO Turning Inserts

Cast iron, chilled cast iron and short chip malleable cast iron

Basic grade

Supplemental grade

AC100K K05(K01-K15) CVD coated grade, has thick and smooth wear resistant coating and very hard substrate, recommanded for grey cast iron high speed turning. AC102K K10(K05-K20) CVD coated grade, has thick and smooth wear resistant coating and hard substrate, recommanded for nodular cast iron high speed turning. AC202K K15(K10-K30) 1st choice for cast iron turning. It can deal with interrupted cutting due to its high wear-resitant CVD coating, used in finish to rough turning on cast iron at low to medium cutting speed.

PB90 K10(K01-K20) CBN grade. Suitable for grey cast iron and chilled cast iron interrupted finish turning due to its good edge strength and wear resistance. AT210A K15(K10-K20) Coated cermet grade. The combination of ultra-fine crystalline hard phase and composite bonding phase to provide a balance of abrasion resistance and chipping resistance; suitable for continuous and medium turning of cast iron materials; offer high-quality machining surfaces. AT202 K15(K10-K20) Uncoated cermet grade. It has excellent built-up edge resistance and good plastic deformation resistance. It can be used in nodular cast iron finish turning when surface quality, small tolerance or low cutting force are requested.

Non-ferrous metals

Basic grade

AW100K N15(N05-N25) Uncoated grade. It has both excellent wear resistance and sharp edge. Used in Al alloy rough to finish machining.

PD20 N10 (N01-N20) PCD grade, used in non-ferrous material and non-metal material machining which can have longer tool life, completely clean cutting and good surface quality.

Heat resistant alloys

Basic grade

Supplemental grade

AP010S S05(S01-S15) With extremely high hardness, structural and chemical stability, it can not only meet the needs of high cutting speed finishing stable working conditions, but also suitable for high toughness of medium or semi- finishing and other general working conditions. AP100S S10(S05-S20) 1st choice for heat resistant alloy. PVD coated grade has high hardness and plastic deformation resistance, can keep high performance and good wear resistance. AP301M S25(S15-S35) PVD coated grade. Used in low cutting speed or light interrupted cutting. Suitable for semi-roughing or continuous machining for a short time due to its good notch wear resistance and anti-heat shock capability.

AC100M S15(S05-S20) CVD coated grade, suitable for heat resistant alloy continuous high speed machining . AC200M S25(S15-S35) CVD coated grade, suitable for heat resistant alloy general machining.

Hardened materials

Basic grade

PB30 H10(H05-H15) CBN grade with low CBN content, is used in hardened steel continuous machining at high speed and light interrupted machining.

PB60 H15(H10-H25) 1st choice of CBN grade medium CBN content for hardened steel interrupted machining and continuous machining at medium speed.

45

Turning ISO Turning Inserts

Cutting Data Recommendation--Negative Insert

Materials

AT202 AT210A f（mm/rev） f（mm/rev） 0.10 0.30 0.50 0.10 0.30 0.50

ISO

Workpiece Materials

C ≤ 0.25%

Annealed Annealed

125 190 210 190 300 220 175 300 380 430 200 300 400 200 330 200

428 639 708 639

200 100 200 100

70 70 50 50 50 50 50 50 50 50 50 50 50

310 200 160 310 200 160 310 180 140 310 180 140 310 180 140 310 180 140 290 180 140 290 180 140 290 180 140 290 180 140 270 180 140 270 180 140 270 180 140

0.25 < C ≤ 0.55% 0.25 < C ≤ 0.55%

Heat-treated

200 200 200 200 180 180 180 180 160 160 150

80 80 80 80 80 80 80 80 80 80 80

Unalloyed steel

C > 0.55% C > 0.55%

Annealed

Heat-treated

1013

Free cutting steel(short chip)

Annealed

745 591

Annealed

Heat-treated Heat-treated Heat-treated

1013 1282 1477

Low-alloyed steel

Annealed

675

High-alloyed steel and high- alloyed tool steel

Hardened and tempered Hardened and tempered Ferritic/Martensite, Annealed Martensite, Heat-treated

1013 1361

675

Stainless steel

1114

Austenitic,hardened

675

Austenitic,pre cipitation hardened stainless steel(PH stainless steel)

Stainless steel

300

1013

Austenitic, ferritic, duplex

230 200 260 180 245 155 265 230

778 400 700 200 350 400 700 400

Ferritic Pearlitic

Malleable cast iron

Low tensile strength

Grey cast iron

High tensile strength/Austenitic

Ferritic Pearlitic

Nodular cast iron

GGV(CGI)

Non-aging alloy

30

-

Wrought aluminum alloy

Aged alloy

100

340 260 310 450 250 340 310 380

≤ 12 % Si, non-aging alloy

75 90

Cast aluminum alloy

≤ 12% Si, aged alloy

＞ 12 % Si, non-aging alloy

130

Magnesium alloy

70

Unalloyed, electrolytic copper

100

Copper and copper alloy (bronze/brass)

Brass, bronze, red brass

90

Cu alloy, short chip

110 300 200 280 250 350 320 200 375 410 300 300

High tensile, Ampco alloy

1010

Annealed

680 940 840

Fe-based

Aged

Heat-resistant alloy

Annealed

Ni or Co based

Aged Cast

1180 1080

Pure Titanium

680

Titanium alloy

α and β alloy, aged

1260 1400 1010 1010

β alloy

Tungsten alloy Molybdenum alloy

Hardened and tempered Hardened and tempered Hardened and tempered Hardened and tempered

50HRC 55HRC 60HRC

Hardened steel

Chilled cast iron 55HRC * The recommended cutting data always refer to general cutting conditions. The actual selection should be adjusted according to the factors such as machine rigidity, tool body, workpiece conditions and coolant （f should be adjust according to insert radius）

46

Turning ISO Turning Inserts

Achteck turning grade Initial value of cutting speed Vc(m/min) AC052P AC152P

AC252P AC200M f（mm/rev） f（mm/rev） f（mm/rev） f（mm/rev） f（mm/rev） f（mm/rev） 0.10 0.40 0.60 0.10 0.40 0.60 0.10 0.40 0.60 0.10 0.40 0.60 0.10 0.30 0.50 0.10 0.30 0.50 AC350P AC100M

620 450 330 485 360 270 380 260 210 250 170 140 560 405 295 370 270 210 280 200 150 200 135 110 400 280 200 260 220 170 200 160 135 150 125 90 530 385 275 270 220 160 240 160 125 170 110 90 380 245 180 210 180 150 160 120 110 125 75 65 600 420 300 440 310 250 340 220 175 220 145 115 610 410 285 350 260 220 240 175 135 200 165 150 530 350 250 220 170 150 140 100 85 135 90 70 330 230 175 160 120 100 100 70 55 90 65 45 265 185 140 90 70 445 295 215 330 230 150 210 145 85 180 150 85 300 200 160 230 140 110 130 85 65 110 85 65 220 140 105 80 70 180 150 120 150 120 95

220 180 150 190 160 130 170 140 130 140 110 100 250 190 150 200 160 110

140 100

70

110

80

60

180 160

150 120

190 170 130 160 130 100 360 300 260 330 280 250 450 400 350 350 300 250 300 250 200 300 250 200

80 70 70 70 70

60 50 50 50 50

40 30 35 30 30

70 60 60 60 60

50 40 40 40 40

30 20 25 20 20

47

Turning ISO Turning Inserts

Cutting Data Recommendation--Negative Insert

Materials

AP200U AP301M f（mm/rev） f（mm/rev） 0.10 0.30 0.50 0.10 0.30 0.50

ISO

Workpiece Materials

C ≤ 0.25%

Annealed Annealed

125 190 210 190 300 220 175 300 380 430 200 300 400 200 330 200

428 639 708 639

220 210 170 150 140 120 130 120

0.25 < C ≤ 0.55% 0.25 < C ≤ 0.55%

Heat-treated

Unalloyed steel

C > 0.55% C > 0.55%

Annealed

Heat-treated

1013

Free cutting steel(short chip)

Annealed

745 591

190 170 130 110

Annealed

Heat-treated Heat-treated Heat-treated

1013 1282 1477

Low-alloyed steel

Annealed

675

120

80

High-alloyed steel and high- alloyed tool steel

Hardened and tempered Hardened and tempered Ferritic/Martensite, Annealed Martensite, Heat-treated

1013 1361

675

145 130

90 70 80

Stainless steel

1114

105

80

Austenitic,hardened

675

180 120

180 120

80

Austenitic,pre cipitation hardened stainless steel(PH stainless steel)

Stainless steel

300

1013

110

90

110

90

Austenitic, ferritic, duplex

230 200 260 180 245 155 265 230

778 400 700 200 350 400 700 400

120 100

70

120 100

70

Ferritic Pearlitic

Malleable cast iron

Low tensile strength

Grey cast iron

High tensile strength/Austenitic

Ferritic Pearlitic

Nodular cast iron

GGV(CGI)

Non-aging alloy

30

-

Wrought aluminum alloy

Aged alloy

100

340 260 310 450 250 340 310 380

≤ 12 % Si, non-aging alloy

75 90

Cast aluminum alloy

≤ 12% Si, aged alloy

＞ 12 % Si, non-aging alloy

130

Magnesium alloy

70

Unalloyed, electrolytic copper

100

Copper and copper alloy (bronze/brass)

Brass, bronze, red brass

90

Cu alloy, short chip

110 300 200 280 250 350 320 200 375 410 300 300

High tensile, Ampco alloy

1010

Annealed

680 940 840

40 30 30 30 30

25 20 25 20 20

Fe-based

Aged

Heat-resistant alloy

Annealed

Ni or Co based

Aged Cast

1180 1080

Pure Titanium

680

Titanium alloy

α and β alloy, aged

1260 1400 1010 1010

β alloy

Tungsten alloy Molybdenum alloy

Hardened and tempered Hardened and tempered Hardened and tempered Hardened and tempered

50HRC 55HRC 60HRC

Hardened steel

Chilled cast iron 55HRC * The recommended cutting data always refer to general cutting conditions. The actual selection should be adjusted according to the factors such as machine rigidity, tool body, workpiece conditions and coolant （f should be adjust according to insert radius）

48

Turning ISO Turning Inserts

Achteck turning grade Initial value of cutting speed Vc(m/min) AC100K AC102K

AC202K AP100S f（mm/rev） f（mm/rev） f（mm/rev） f（mm/rev） f（mm/rev） f（mm/rev） 0.10 0.30 0.50 0.10 0.30 0.50 0.10 0.30 0.50 0.10 0.20 0.40 0.10 0.30 0.50 0.10 0.30 0.50 AW100K AP010S

240 190 150 240 190 150

150

85

150

85

170 145 100 170 145 100

280 200 170 250 170 130 490 260 200 250 180 140 270 200 150 210 160 140

270 190 160 240 160 130

245 160 125 200 120

95

490 250 190 400 210 150 240 170 130 200 150 100 260 190 250 230 170 120 200 150 130 170 120 100

100

65 55 55 45

100

65 55 55 45

80 80 70 60

80 80 70 60

30 30 200 180 140 200 180 140 90 55 45 90 55 45 55 35 30 55 35 30

49

Turning ISO Turning Inserts

Cutting Data Recommendation--Positive Insert

Materials

AT202 AT210A f（mm/rev） f（mm/rev） 0.10 0.30 0.50 0.10 0.30 0.50

ISO

Workpiece Materials

C ≤ 0.25%

Annealed Annealed

125 190 210 190 300 220 175 300 380 430 200 300 400 200 330 200

428 639 708 639

200 100 200 100

70 70 50 50 50 50 50 50 50 50 50 50 50

310 200 160 310 200 160 310 180 140 310 180 140 310 180 140 310 180 140 290 180 140 290 180 140 290 180 140 290 180 140 270 180 140 270 180 140 270 180 140

0.25 < C ≤ 0.55% 0.25 < C ≤ 0.55%

Heat-treated

200 200 200 200 180 180 180 180 160 160 150

80 80 80 80 80 80 80 80 80 80 80

Unalloyed steel

C > 0.55% C > 0.55%

Annealed

Heat-treated

1013

Free cutting steel(short chip)

Annealed

745 591

Annealed

Heat-treated Heat-treated Heat-treated

1013 1282 1477

Low-alloyed steel

Annealed

675

High-alloyed steel and high- alloyed tool steel

Hardened and tempered Hardened and tempered Ferritic/Martensite, Annealed Martensite, Heat-treated

1013 1361

675

Stainless steel

1114

Austenitic,hardened

675

Austenitic,pre cipitation hardened stainless steel(PH stainless steel)

Stainless steel

300

1013

Austenitic, ferritic, duplex

230 200 260 180 245 155 265 230

778 400 700 200 350 400 700 400

Ferritic Pearlitic

Malleable cast iron

Low tensile strength

Grey cast iron

High tensile strength/Austenitic

Ferritic Pearlitic

Nodular cast iron

GGV(CGI)

Non-aging alloy

30

-

Wrought aluminum alloy

Aged alloy

100

340 260 310 450 250 340 310 380

≤ 12 % Si, non-aging alloy

75 90

Cast aluminum alloy

≤ 12% Si, aged alloy

＞ 12 % Si, non-aging alloy

130

Magnesium alloy

70

Unalloyed, electrolytic copper

100

Copper and copper alloy (bronze/brass)

Brass, bronze, red brass

90

Cu alloy, short chip

110 300 200 280 250 350 320 200 375 410 300 300

High tensile, Ampco alloy

1010

Annealed

680 940 840

Fe-based

Aged

Heat-resistant alloy

Annealed

Ni or Co based

Aged Cast

1180 1080

Pure Titanium

680

Titanium alloy

α and β alloy, aged

1260 1400 1010 1010

β alloy

Tungsten alloy Molybdenum alloy

Hardened and tempered Hardened and tempered Hardened and tempered Hardened and tempered

50HRC 55HRC 60HRC

Hardened steel

Chilled cast iron 55HRC * The recommended cutting data always refer to general cutting conditions. The actual selection should be adjusted according to the factors such as machine rigidity, tool body, workpiece conditions and coolant （f should be adjust according to insert radius）

50

Turning ISO Turning Inserts

Achteck turning grade Initial value of cutting speed Vc(m/min) AC052P AC152P

AC252P AC200M f（mm/rev） f（mm/rev） f（mm/rev） f（mm/rev） f（mm/rev） f（mm/rev） 0.10 0.40 0.60 0.10 0.40 0.60 0.10 0.40 0.60 0.10 0.40 0.60 0.10 0.30 0.50 0.10 0.30 0.50 AC350P AC100M

600 430 310 465 400 330 360 310 260 230 150 120 540 385 275 360 330 260 290 250 190 180 115 100 380 260 180 270 240 220 200 180 160 130 115 85 520 365 255 330 300 290 250 220 210 150 100 85 360 225 160 210 180 170 160 130 120 115 65 55 580 400 280 440 400 380 320 290 275 210 135 105 590 390 265 330 310 300 260 240 220 190 155 130 510 330 230 180 170 160 135 120 100 125 80 65 320 210 155 120 100 90 100 85 65 90 65 45 265 165 120 80 70 65 55 425 275 195 320 290 280 270 240 220 170 140 75 280 180 140 200 170 150 170 140 120 100 80 60 200 120 105 80 70 65 66 190 170 150 120 100 90

200 170 140 180 150 120 160 140 130 130 110 100 230 180 140 190 150 110

90

80

60

70

60

50

170 150

140 110

180 160 130 150 120 100

80 70 70 70 70

60 50 50 50 50

40 30 35 30 30

70 60 60 60 60

50 40 40 40 40

30 20 25 20 20

51

Turning ISO Turning Inserts

Cutting Data Recommendation--Positive Insert

Materials

AP200U AP301M f（mm/rev） f（mm/rev） 0.10 0.30 0.50 0.10 0.30 0.50

ISO

Workpiece Materials

C ≤ 0.25%

Annealed Annealed

125 190 210 190 300 220 175 300 380 430 200 300 400 200 330 200

428 639 708 639

210 200 160 140 140 120 130 120

0.25 < C ≤ 0.55% 0.25 < C ≤ 0.55%

Heat-treated

Unalloyed steel

C > 0.55% C > 0.55%

Annealed

Heat-treated

1013

Free cutting steel(short chip)

Annealed

745 591

190 170 130 110

Annealed

Heat-treated Heat-treated Heat-treated

1013 1282 1477

Low-alloyed steel

Annealed

675

120

80

High-alloyed steel and high- alloyed tool steel

Hardened and tempered Hardened and tempered Ferritic/Martensite, Annealed Martensite, Heat-treated

1013 1361

675

135 120

90 70 80

Stainless steel

1114

105

80

Austenitic,hardened

675

170 110

170 110

80

Austenitic,pre cipitation hardened stainless steel(PH stainless steel)

Stainless steel

300

1013

110

80

110

80

Austenitic, ferritic, duplex

230 200 260 180 245 155 265 230

778 400 700 200 350 400 700 400

110

90

70

110

90

70

Ferritic Pearlitic

Malleable cast iron

Low tensile strength

Grey cast iron

High tensile strength/Austenitic

Ferritic Pearlitic

Nodular cast iron

GGV(CGI)

Non-aging alloy

30

-

Wrought aluminum alloy

Aged alloy

100

340 260 310 450 250 340 310 380

≤ 12 % Si, non-aging alloy

75 90

Cast aluminum alloy

≤ 12% Si, aged alloy

＞ 12 % Si, non-aging alloy

130

Magnesium alloy

70

Unalloyed, electrolytic copper

100

Copper and copper alloy (bronze/brass)

Brass, bronze, red brass

90

Cu alloy, short chip

110 300 200 280 250 350 320 200 375 410 300 300

High tensile, Ampco alloy

1010

Annealed

680 940 840

40 30 30 30 30

25 20 25 20 20

Fe-based

Aged

Heat-resistant alloy

Annealed

Ni or Co based

Aged Cast

1180 1080

Pure Titanium

680

Titanium alloy

α and β alloy, aged

1260 1400 1010 1010

65 35

45 35

35 30

β alloy

Tungsten alloy Molybdenum alloy

Hardened and tempered Hardened and tempered Hardened and tempered Hardened and tempered

50HRC 55HRC 60HRC

Hardened steel

Chilled cast iron 55HRC * The recommended cutting data always refer to general cutting conditions. The actual selection should be adjusted according to the factors such as machine rigidity, tool body, workpiece conditions and coolant （f should be adjust according to insert radius）

52

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