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Page 1: HEAVY DUTY MACHINING · Heavy duty machining Heavy duty machining

HEAVY DUTY MACHINING

US

HEAVY DUTY MACHINING

US

www.ceratizit.com

Page 2: HEAVY DUTY MACHINING · Heavy duty machining Heavy duty machining
Page 3: HEAVY DUTY MACHINING · Heavy duty machining Heavy duty machining

3

Welcome to the world of CERATIZIT ...

... a world of unique and consistently innovative solutions for wear parts, cutting tools and wood and stone machining. CERATIZIT is your partner for exceptional and highly person-alized hard material products which guarantee cost efficiency, resistance and performance. Increasing both the productivity and service life of your products in a very diverse range of industrial sectors is the very essence of our business.

... because 'hard material matters'

Hard materials in general and hard metals in particular are characterized by a range of interesting properties for all appli-cations where maximum wear resistance is required. High pressure, high temperature and highly abrasive or aggressive conditions are factors to which hard materials or metals must be resistant. Our powder metallurgical production of parts for wear protection enables tailor-made adaptation of the material properties to your wear criteria.

This fact makes CERATIZIT hard materials and carbides indis-pensable materials in order to significantly increase the ser-vice life of components which are subject to high stress. Ever more powerful machines, facilities and machining methods constantly create new challenges for the CERATIZIT develop-ment engineers. Intensive research and development activities which precisely match your requirements and work processes already today are able to provide the solutions for tomorrow.

IntroductionWelcome

Wel

com

eIn

trodu

ctio

n

Page 4: HEAVY DUTY MACHINING · Heavy duty machining Heavy duty machining

4

1

2

3

4

5

6

Guided by corporate values

The views and focus of our business partners matterInstead of talking product with customers, we work on real solutions for business partners.

Innovative and flexible thinking mattersWe challenge state-of-the-art technologies and develop intelligent alternatives. Our speed of thought and deci-sive actions give us a leading edge.

Communication mattersTrust and respect enable open communication. We show who we are and what we feel. We keep our prom-ises. We are open to and accept constructive criticism.

Employee development mattersWe continuously invest in personnel and offer out-standing internal development opportunities. We at-tract talents around the world and create a favorable environment for long-term personal growth.

Professionalism mattersWe strive to be professional in everything we do. Our performance leads to results and growth which are al-ways above average.

Our environment mattersEnvironmental protection is a matter of each employee – at home and at work. As a company we guarantee the community to be a 'considerate neighbor'.

We employ more than 5,500 people worldwide who are guided by our corporate values in their daily work:

Our corporate values

Our

cor

pora

te v

alue

s

IntroductionIn

trodu

ctio

n

Page 5: HEAVY DUTY MACHINING · Heavy duty machining Heavy duty machining

5Introduction

Intro

duct

ion

Con

tent

s

Introduction

E-Techstore 6

Inserts

Turning 20

Milling 22

Bar peeling 23

Roll turning 24

Railroad turning 25

Grade overview

Turning inserts 15

Milling inserts 16

Bar peeling inserts 17

Roll turning inserts 18

Railroad turning inserts 19

Technical information

Causes/types of wear 26

Generel formula 29

Cutting data 38

CERATIZIT designation system

Inserts 10

Contents

Page 6: HEAVY DUTY MACHINING · Heavy duty machining Heavy duty machining

6

E-Te

chst

ore

Intro

duct

ion

CERATIZIT E-Techstore

The CERATIZIT online shop offers a comprehensive range of cutting tools, rods and products for wear protection. According to the application you may choose from a variety of inserts, geometries and grades. We promise you a well-structured navigation and easy user guide!

SpeedYou have access to more than 20,000 products online. The extended rapid product search via the material number, ISO designation or characteristics allows you to find the product you need. After ordering you will immediately receive an order confirmation. You may inform yourself online at any time on the delivery status of your products. (Track & Trace)

ServicesThe CERATIZIT E-Techstore is available to you around the clock. You may check the offer, order, consignments and in-voice online. Open orders can be changed at the last minute if you wish to correct them. For this purpose you always use your personal order templates. Should you have any questions, a personal contact partner will additionally be available.

InformationYou will receive state-of-the-art detailed technical information and graphic illustrations for all products in the E-Techstore. You will also be informed about possible connections and suitable accessories. Thanks to the up-to-date availability check ap-plicable to all standard articles you can immediately see when you will receive the requested products.

BusinessAll products are ordered at net prices and conditions. We guar-antee optimal safety through SSL-encoding.

CERATIZIT linkage

Would you like to link your system with CERATIZIT?CERATIZIT supports all common link formats (EDI, XML, OCI, etc.).

Get in touch with your contact person! Our technical engineer will analyse your requirements together with you and will help you when choosing the suitable technology.

E-TechstoreIntroduction

Page 7: HEAVY DUTY MACHINING · Heavy duty machining Heavy duty machining

7

Carbide – a composite material with valuable properties

Cemented carbides are composite materials consisting of a hard component, normally tungsten carbide (WC) and a com-paratively soft binder metal, like cobalt (Co). The performance characteristics of carbide are determined by hardness, trans-verse rupture strength and fracture toughness. With regard to their application, important parameters for the optimization of these characteristics are the cobalt content and the grain size of the metal binder phase. The tungsten carbide grains have an average size of .5 up to several micrometers (μm). The co-balt fills the gaps between the carbide grains. When extremely high toughness is required, the cobalt content can amount up to 30%, whereas, for maximum wear resistance, the cobalt content is reduced and the grain size decreased to the submi-cron range (for example .3 μm).

CERATIZIT produces far above 100 different carbide grades particularly for wear parts, thus offering a customized solution for every application.

Carbide – a composite material

Carb

ide

– a

com

posi

te m

ater

ial

Introduction

Intro

duct

ion

Page 8: HEAVY DUTY MACHINING · Heavy duty machining Heavy duty machining

8

W-Ti-Ta oxides

Carburizing, mixing and

milling process

Reduction

Granulation

Pressing

Presintering

Forming

Final sintering

Finishing

Tool and die construction, mechanical engineering

Coating

Control

Testing (Tooling Academy)

Packaging

Dispatch

Carbide production

Carbide productionIntroduction

Carb

ide

prod

uctio

nIn

trodu

ctio

n

Page 9: HEAVY DUTY MACHINING · Heavy duty machining Heavy duty machining

9

P M K

N S H

Material

Based on VDI 3323 CERATIZIT's MasterGuide divides materials into six main groups (P, M, K, N, S, H). Each is given a colour, according to the system partly adopted in ISO 513.

Steel Stainless steel Cast iron

Non-ferrous metals and non-metals

Heat-resistant alloys, titanium Hard materials

Machining application type

Each colored segment is divided into three sections, and each section indicates the relevant machining application type:

Application

The ideal application area for the insert is indicated by a black circle. Extended applications are indicated by an open circle. The CERATIZIT MasterGuide provides you with an easily understandable structure for choosing a product and enables you to reduce grade and geometry stocks.

● Main application ○ Extended application

R = rough machining M = medium machining F = fine machining

Mas

terG

uide

Introduction

Intro

duct

ion

MasterGuide

Page 10: HEAVY DUTY MACHINING · Heavy duty machining Heavy duty machining

10

35° V

55° D

75° E

80° C

86° M

55° K

82° B

85° A

90° L

108° P

120° H

135° O

– R

90° S

60° T

80° W

� O

T P U N1 2 3 4

3° A 25° F

5° B 30° G7° C 0° N15° D 11° P20° E

d ± m ± s ±A .025 .005 .025F .013 .005 .025C .025 .013 .025H .013 .013 .025E .025 .025 .025G .025 .025 .13J .05-.15* .005 .025K .05-.15* .013 .025L .05-.15* .025 .025M .05-.15* .08-.20 .13N .05-.15* .08-.20 .025

U .08-.25* .013-.38 .013

N

R

F

A

M, P

G, P

W

T

Q

U

B

H

C

J

X

d ± m ± s ± d ± m ± s ±

A .0010 .0002 .001F .0005 .0002 .001C .0010 .0005 .001H .0005 .0005 .001E .0010 .0010 .001G .0010 .0010 .005

J .002-.006* .0002 .001K .002-.006* .0005 .001L .002-.006* .0010 .001M .002-.006* .003-.008* .005N .002-.006* .003-.008* .001U .003-.010* .005-.015* .005

IK >1/4" IK <1/4"N / R / F EA / M / G D

X X

d m

mdd

ms

d m

md

s

Clearance angles not included within the standard for which particular information is necessary

Included angle rhombus

Included angle rhomboid

Oth

er s

hape

s

Tolerances in inch

Clearance angles Tolerances Form of top surfaceInsert shape

Special version

Form of top surface

Symbols as above. Changes at inscribed circle IK < 1/4"

The CERATIZIT designation systemInserts

Inse

rts

The

CER

ATIZ

IT d

esig

natio

n sy

stem

* depends on insert size** ASA and BHMA deviation with

regard to ISOX special version not according to ISO

Page 11: HEAVY DUTY MACHINING · Heavy duty machining Heavy duty machining

11

2 2 0 4 1 24 3 3 025B

5 6 7 8 9

5 ** 6 ** 7 ** 10 **

d mm

06081012

16202532

mm inch mm mm

06 5/32 3,96 0309 7/32 5,56 0511 1/4 6,35 0616 3/8 9,52 0922 1/2 12,7 1227 5/8 15,8 1533 3/4 19,0 1944 1 25,4 25

mm

1/16 1,59 013/32 2,38 021/8 3,18 035/32 3,97 T33/16 4,76 047/32 5,56 051/4 6,35 065/16 7,94 073/8 9,52 09

RN 00RC MO

00 ≤ 0,0501 0,102 0,204 0,408 0,812 1,216 1,624 2,432 3,2

2 1/43 3/84 1/25 5/86 3/48 1

1 1/16

2 1/83 3/16

4 1/45 5/16

6 3/8

RN 00RC MO

X0 .00150 .004.5 .0081 1/64

2 1/32

3 3/64

4 1/16

5 5/64

6 3/32

7 7/64

8 1/8

T / S K / P 1)

015 .15 mm A 05°020 .20 mm B 10°025 .25 mm C 15°050 .50 mm D 20°075 .75 mm E 25°100 1.00 mm F 30°

BE =

d

d d

L L

s ss sr

T

S

F

E

P

K

d d

L Ld d

L L

s sr

Corner radius

Cutting edge length Insert thicknessCutting

directionCutting

edgeCorner radius

Inde

x

Inch

Insert I.C.

Code Inch

Insert thickness

Code Inch

Chamfer type

Sharp

Honed

Chamfered

Chamfered and honed

Double chamfered

Double chamfered & honed

CodeCorner radius

mm

Code Corner radius inch

1) For double chamfered cutting edges two letters are used.For example:

chamfer angle 1 = 10°chamfer angle 2 = 25°

The CERATIZIT designation systemInserts

Inse

rts

The

CER

ATIZ

IT d

esig

natio

n sy

stem

Page 12: HEAVY DUTY MACHINING · Heavy duty machining Heavy duty machining

12

1 3 42 5

1

2

3

4

5

C T U C 11 2 5

Manufacturer: CERATIZIT USA

Cutting material

W Uncoated carbideC CVD coated carbideP PVD coated carbide

Main application (material)Variant 1: number

1 Steel2 Stainless steel3 Cast iron4 Light and non ferrous metals, non metals5 Heat resistant alloys, titanium6 Hard materials7 Universal grade for a variety of applications

Main application (machining method)

1 Turning2 Milling3 Parting and grooving4 Drilling5 Threading6 Others7 Universal grade for a variety of applications

ISO 513 Application range For example: 05 ISO K05/P05 10 15 25-

For n

ew c

uttin

g m

ater

ials

The CERATIZIT designation systemFor new cutting materials

The

CER

ATIZ

IT d

esig

natio

n sy

stem

Page 13: HEAVY DUTY MACHINING · Heavy duty machining Heavy duty machining

13

Grade Designation Material machined Application-Range Coating Type

CTUC1120 Steel Turning P20 CVD TiN/TiC/TiN coated carbide

CTUC1121 Steel Turning P20 CVD TiC/Al2O3/TiN coated carbide

CTUC1122 Steel Turning P20 CVD Al2O3/TiN coated carbide

CTUC1125 Steel Turning P20 CVD TiCN/Al2O3 coated carbide

CTUC1130 Steel Turning P30 CVD TiN/TiC/TiN coated carbide

CTUC3110 Cast Iron Turning K10 CVD Al2O3 coated carbide

CTUC3121 Cast Iron Turning K20 CVD TiC/Al2O3/TiN coated carbide

CTUC3122 Cast Iron Turning K20 CVD Al2O3 coated carbide

CTUC5125 High Temp Alloys Turning K25 CVD TiC/Al2O3/TiN coated carbide

CTUC5135 High Temp Alloys Turning K30 CVD Al2O3 coated carbide

CTUC5225 High Temp Alloys Milling K25 CVD TiC/Al2O3/TiN coated carbide

CTUC5235 High Temp Alloys Milling K35 CVD TiN/TiC/TiN coated carbide

CTUP1125 Steel Turning P25 PVD TiN coated carbide

CTUP1127 Steel Turning P25 PVD AlTiN coated carbide

CTUP1131 Steel Turning P30 PVD TiAlN coated carbide

CTUP1225 Steel Milling P25 PVD TiN coated carbide

CTUP3120 Cast Iron Turning K20 PVD TiN coated carbide

CTUP5130 High Temp Alloys Turning K30 PVD AlTiCrN coated carbide

CTUP5230 High Temp Alloys Milling K30 PVD TiAlSiN coated carbide

CTUP5235 High Temp Alloys Milling K30 PVD AlTiN coated carbide

CTUW1120 Steel Turning P20 Uncoated carbide

CTUW1125 Steel Turning P25 Uncoated carbide

CTUW1130 Steel Turning P20 Uncoated carbide

CTUW1220 Steel Milling P20 Uncoated carbide

CTUW1225 Steel Milling P25 Uncoated carbide

CTUW2230 Stainless Steel Milling P20 Uncoated carbide

CTUW3105 Cast Iron Turning K05 Uncoated carbide

CTUW3120 Cast Iron Turning K20 Uncoated carbide

CTUW3130 Cast Iron Turning K30 Uncoated carbide

CTUW3220 Cast Iron Milling K20 Uncoated carbide

CTUW5120 High Temp Alloys Turning K20 Uncoated carbide

CTUW5135 High Temp Alloys Turning K30 Uncoated carbide

The CERATIZIT grade descriptions

The CERATIZIT grade descriptions

The

CER

ATIZ

IT g

rade

des

crip

tions

Page 14: HEAVY DUTY MACHINING · Heavy duty machining Heavy duty machining

14 The CERATIZIT designation systemInsert application data

Inse

rt ap

plic

atio

n da

taTh

e C

ERAT

IZIT

des

igna

tion

syst

em

Geometries shown are first choice geometries

Feed rates (inch per revolution).005 .010 .015 .020 .025 .030 .035 .040 .045 .050 .055 .060

'A' style

'G' style

'F' style

'G/S' style

'N' style

'M' style

'R & 75' style

'71 & 74' style

'X' style

'Z' style

Page 15: HEAVY DUTY MACHINING · Heavy duty machining Heavy duty machining

15

P M K N S H

05 15 25 35 4501 10 20 30 40 50

●01 10 20 30 40 5005 15 25 35 45 ○

Grade designation

Standard designation *C

uttin

g m

ater

ial Application range

Stee

l

Stai

nles

s

Cast

iron

Non-

ferro

us

met

als

Heat

-resis

tant

Hard

mat

eria

ls

CTUW1120 HW-20 W ● ○CTUW1125 HW-25 W ● ○CTUW1130 HW-30 W ● ○

CTUC1130 HC-30 C ● ○CTUC1122 HC-20 C ●CTUC1125 HC-25 C ● ○

CTUW3120 HW-20 W ○ ●

CTUP5130 HC-30 P ○ ●CTUP1131 HC-30 P ●

Main application

Extended application

*Type of cutting material12

Gra

de o

verv

iew

– tu

rnin

g in

sert

s

Heavy duty machining

Hea

vy d

uty

mac

hini

ng

Grade overview – turning inserts

CTUC1120 HC-20 C ● ○

Page 16: HEAVY DUTY MACHINING · Heavy duty machining Heavy duty machining

16

P M K N S H

05 15 25 35 4501 10 20 30 40 50

●01 10 20 30 40 5005 15 25 35 45 ○

Grade designation

Standard designation *C

uttin

g m

ater

ial Application range

Stee

l

Stai

nles

s

Cast

iron

Non-

ferro

us

met

als

Heat

-resis

tant

Hard

mat

eria

ls

Main application

Extended application

*Type of cutting material12

Heavy duty machiningG

rade

ove

rvie

w –

mill

ing

inse

rts

Hea

vy d

uty

mac

hini

ng

Grade overview – milling inserts

CTUW1220 HW-20 W ● ○CTUW1225 HW-25 W ● ○CTUW2230 HW-30 W ○ ●CTUW3220 HW-20 W ○ ●

CTUP1225 HC-25 P ● ○

CTUC5225 HC-25 C ○ ●CTUC5235 HC-35 C ○ ●CTUP5230 HC-30 P ○ ●CTUP5235 HC-35 P ○ ●

Page 17: HEAVY DUTY MACHINING · Heavy duty machining Heavy duty machining

17

P M K N S H

05 15 25 35 4501 10 20 30 40 50

●01 10 20 30 40 5005 15 25 35 45 ○

Grade designation

Standard designation *C

uttin

g m

ater

ial Application range

Stee

l

Stai

nles

s

Cast

iron

Non-

ferro

us

met

als

Heat

-resis

tant

Hard

mat

eria

ls

CTUW1120 HW-20 W ● ○CTUW3120 HW-20 W ○ ●

CTUW5135 HW-35 W ○ ●

CTUP3120 HC-20 P ○ ●

CTUC3121 HC-20 C ○ ●CTUC1125 HC-25 C ●CTUC3122 HC-20 C ●CTUC3110 HC-10 C ○ ●

Main application

Extended application

*Type of cutting material12

Grade overview – bar peeling inserts

Gra

de o

verv

iew

– b

ar p

eelin

g in

sert

sH

eavy

dut

y m

achi

ningCTUC5135 HC-35 C ○ ●

Heavy duty machining

CTUW1125 HW-25 W ● ○CTUW3130 HW-30 W ○ ●CTUW5120 HW-20 W ○ ●

CTUC5125 HC-25 C ○ ●

CTUP1125 HC-25 P ●

Page 18: HEAVY DUTY MACHINING · Heavy duty machining Heavy duty machining

18

P M K N S H

05 15 25 35 4501 10 20 30 40 50

●01 10 20 30 40 5005 15 25 35 45 ○

Grade designation

Standard designation *C

uttin

g m

ater

ial Application range

Stee

l

Stai

nles

s

Cast

iron

Non-

ferro

us

met

als

Heat

-resis

tant

Hard

mat

eria

ls

CTUC1120 HC-20 C ● ○CTUC1121 HC-20 C ●CTUC1125 HC-25 C ●CTUP1125 HC-25 P ●

CTUW3120 HW-20 W ○ ●

Main application

Extended applicationGra

de o

verv

iew

– ro

ll tu

rnin

g in

sert

s

Grade overview – roll turning inserts

Hea

vy d

uty

mac

hini

ng

*Type of cutting material12

Heavy duty machining

CTUC1122 HC-20 C ●

CTUW3105 HW-05 W ●CTUW1120 HW-20 W ● ○

Page 19: HEAVY DUTY MACHINING · Heavy duty machining Heavy duty machining

19

P M K N S H

05 15 25 35 4501 10 20 30 40 50

●01 10 20 30 40 5005 15 25 35 45 ○

Grade designation

Standard designation *C

uttin

g m

ater

ial Application range

Stee

l

Stai

nles

s

Cast

iron

Non-

ferro

us

met

als

Heat

-resis

tant

Hard

mat

eria

ls

CTUW1120 HW-20 W ● ○CTUW1130 HW-30 W ● ○CTUP1127 HC-25 P ● ○CTUP1131 HC-30 P ● ○

Main application

Extended application

*Type of cutting material12

Gra

de o

verv

iew

– ra

ilroa

d tu

rnin

g in

sert

s

Grade overview – railroad turning inserts

Hea

vy d

uty

mac

hini

ng

Heavy duty machining

CTUC1122 HC-20 C ● ○

Page 20: HEAVY DUTY MACHINING · Heavy duty machining Heavy duty machining

20

PMKNSH

sr

d1d

80°

l s

d1

r

l

d

CN.. RC.. SN..

s

d1

d

R R R r R R R R

r r r r r r

R

R

CTUW

1120

CTUW

1125

CTUW

1130

CTUW

3120

CTUC

1120

CTUC

1122

CTUC

1125

CTUC

1130

CTUP

5130

d s rMaterials

Type, description [inch] [inch] [inch]

11906881 CNMA-543A CTUW3120 R .625 .250 .047

11906882 CNMG-543A-71 CTUW1120 R .625 .250 .04711870413 CNMG-643A-71 CTUP5130 R .750 .250 .04711393592 CNMG-643A CTUC1120 R .750 .250 .04711393648 CNMG-866C CTUC1130 R 1.000 .375 .09411393656 CNMG-866A CTUW1120 R .750 .250 .047

11393712 CNMZ-643A CTUC1130 R .750 .250 .04711393713 CNMZ-643X CTUW3120 R .750 .250 .047

11402393 RCMG-64A CTUC1120 R .750 .25011402403 RCMG-84A CTUC1120 R 1.000 .250

11810577 RCMM-84A CTUC1130 R 1.000 .25011402428 RCMN-64A CTUW1125 R .750 .25011472697 RCMN-64X CTUW3120 R .750 .25011402482 RNG-106B CTUW3120 R 1.000 .37511402572 RNMG-64A CTUC1120 R .750 .25011402566 RNMG-64A CTUW1120 R .750 .25011402565 RNMG-64A CTUW1125 R .750 .250

11402588 RNMG-84A CTUC1120 R 1.000 .25011402584 RNMG-84A CTUW1120 R 1.000 .25011402599 RNMG-86A CTUC1130 R 1.000 .37511402605 RNMJ-86C CTUW1125 R 1.000 .37511402870 SNMA-643X CTUW3120 R .750 .250 .04711402905 SNMA-866B CTUW3120 R 1.000 .375 .094

11403014 SNMG-543A CTUC1120 R .625 .250 .04711851591 SNMG-543A CTUC1122 R .625 .250 .04711862383 SNMG-543A CTUC1125 R .625 .250 .04711403009 SNMG-543A CTUW1120 R .625 .250 .04711403056 SNMG-643A CTUC1120 R .750 .250 .04711403044 SNMG-643A CTUW1120 R .750 .250 .04711851593 SNMG-643A-R CTUC1122 R .750 .250 .04711862384 SNMG-643A-R CTUC1125 R .750 .250 .047

CTUW

1120

CTUW

1125

CTUW

1130

CTUW

3120

CTUC

1120

CTUC

1122

CTUC

1125

CTUC

1130

CTUP

5130

d s r

Turn

ing

inse

rts

Hea

vy d

uty

mac

hini

ng

Turning insertsHeavy duty machining

Page 21: HEAVY DUTY MACHINING · Heavy duty machining Heavy duty machining

21

PMKNSH

s

d1

r

l

d

sr

d1d

60°

l

SN.. TN..

R R R r R R R R R

r r r r r

R

CTUW

1120

CTUW

1125

CTUW

1130

CTUW

3120

CTUC

1120

CTUC

1122

CTUC

1125

CTUC

1130

CTUP

1131

d s rMaterials

Type, description [inch] [inch] [inch]

11403071 SNMG-644A CTUW1120 R .750 .250 .06211773071 SNMG-644A CTUW1125 R .750 .250 .06211403120 SNMG-866A CTUW1120 R 1.000 .375 .09411403119 SNMG-866A CTUW1125 R 1.000 .375 .09411851595 SNMG-866A-R CTUC1122 R 1.000 .375 .09411862385 SNMG-866A-R CTUC1125 R 1.000 .375 .09411403107 SNMG-866B-74 CTUC1122 R 1.000 .375 .09411862386 SNMG-866B-74 CTUC1125 R 1.000 .375 .09411906883 SNMG-643-R75 CTUW1120 R 1.250 .375 .09411394327 SNMN-866B CTUW1120 R .750 .250 .047

11403191 SNMZ-643A CTUC1130 R .750 .250 .04711403192 SNMZ-643X CTUW3120 R .750 .250 .047

11403736 TNMA-438A CTUW1120 R .500 .187 .12511403762 TNMA-544A CTUC1125 R .625 .250 .06211403758 TNMA-544A CTUW1125 R .625 .250 .06211403964 TNMG-543A CTUC1120 R .625 .250 .04711403965 TNMG-543A CTUC1130 R .625 .250 .04711403955 TNMG-543A CTUW1120 R .625 .250 .04711403967 TNMG-543B CTUW1120 R .625 .250 .04711403987 TNMG-544A CTUC1130 R .625 .250 .06211403981 TNMG-544A CTUW1120 R .625 .250 .06211404000 TNMG-548A CTUC1120 R .625 .250 .12511403999 TNMG-548A CTUW1120 R .625 .250 .12511404003 TNMG-548B CTUW1125 R .625 .250 .12511851597 TNMG-666A-74 CTUC1122 R .750 .375 .09411862388 TNMG-666A-74 CTUC1125 R .750 .375 .09411645944 TNMG 666A-74 CTUW1130 R .750 .375 .09411404020 TNMG 666A CTUP1131 R .750 .375 .09411851596 TNMG 666A-NR CTUC1122 R .750 .375 .09411862387 TNMG 666A-NR CTUC1125 R .750 .375 .094

CTUW

1120

CTUW

1125

CTUW

1130

CTUW

3120

CTUC

1120

CTUC

1122

CTUC

1125

CTUC

1130

CTUP

1131

d s r

Turn

ing

inse

rts

Hea

vy d

uty

mac

hini

ng

Turning insertsHeavy duty machining

Page 22: HEAVY DUTY MACHINING · Heavy duty machining Heavy duty machining

22

PMKNSH

LN..

SEKN..

NL..

SEKR..

A

T

35

75F

20

C

A

T45

C

20

F

SH..

R R r r R

r r R r r r r r

R

R R R R

CTUW

1220

CTUW

1225

CTUW

2230

CTUW

3220

CTUC

5225

CTUC

5235

CTUP

1225

CTUP

5230

CTUP

5235

T W L rMaterials

Type, description [inch] [inch] [inch] [inch]

11397905 LNCX 18 06 AZR-11A CTUW1220 R .250 .394 .734 .079

11906878 LNE-34.57 CTUW2230 R .4375 .375 1.12511397920 LNP-34.57-90LA CTUC5225 R .4375 .375 1.12511397921 LNP-34.57-90RA CTUC5225 R .4375 .375 1.125

11401907 NLNE-32302A CTUP1225 R .187 .375 .625 .03111401903 NLNE-32302 CTUW3220 R .187 .375 .625 .03111401921 NLNE-43402A CTUW1220 R .250 .562 .750 .031

11401919 NLNE-43402A CTUW1225 R .250 .562 .750 .03111401935 NLNE-44302A CTUW1220 R .187 .562 1.000 .03111401941 NLNE-446-16A CTUW1220 R .375 .562 1.125 .062

11402727 SEKN1504AFTN-0X CTUC5235 R .625 .15611879450 SEKR-42AFN-1 CTUP5230 R .500 .07811879449 SEKR-42AFN-1 CTUP5235 R .500 .078

11402742 SHH-63D4RA CTUW1220 R .750 .18711906879 SHH-85D4LA CTUW1220 R 1.000 .31211906880 SHH-85D4RA CTUW1220 R 1.000 .31211402754 SHX-63D5RA CTUW1220 R .750 .187

CTUW

1120

CTUW

1225

CTUW

2230

CTUW

3220

CTUC

5225

CTUC

5235

CTUP

1225

CTUP

5230

CTUP

5235

T W L r

Mill

ing

inse

rts

Hea

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uty

mac

hini

ng

Milling insertsHeavy duty machining

Page 23: HEAVY DUTY MACHINING · Heavy duty machining Heavy duty machining

23

PMKNSH

11400931

ON.. WN.. XN.. YN..

R R r r R r r R r

r r r r r r

R R R R R R

R R R R

CTUW

1120

CTUW

1125

CTUW

3120

CTUW

3130

CTUW

5120

CTUW

5135

CTUC

1125

CTUC

3110

CTUC

3121

CTUC

3122

CTUC

5125

CTUC

5135

CTUP

1125

CTUP

3120

A B T R1 R2Materials

Type, description [inch] [inch] [inch] [inch] [inch]

11800964 ONG-436A CTUP3120 R .500 .187 .09411402265 ONG-436A CTUW3120 R .500 .187 .094

11402289 ONMF-54A CTUW1125 R .625 .250 .03111402286 ONMF-54A CTUW3120 R .625 .250 .031

11865375 WMNJ-644N-MA CTUC3122 R .750 .916 .255 .062 .37511404634 WNGX-180606-MX CTUC3122 R .729 .882 .247 .034 .31211404638 WNGX-180606-MX CTUC3121 R .729 .882 .247 .034 .31211553598 WNGX-180606-MX CTUC3110 R .729 .882 .247 .034 .31211694430 WNMF-764 CTUW3120 R .875 1.111 .380 .062 .18711404659 WNMF-76-15X CTUW3120 R .875 1.121 .375 .047 .37511396629 WNMX-764A CTUC5135 R .875 1.111 .380 .062 .18711396632 WNMX-764B CTUW3120 R .875 1.111 .380 .062 .18711521566 WNMF-96S40APH CTUC5125 R 1.146 1.335 .334 .057 .31011522587 WNMF-96S40APH CTUC5135 R 1.146 1.335 .334 .057 .310

11892564 WNMF-96P50AP CTUW3130 R 1.146 1.335 .334 .057 .31011883534 WNMF-96P50AP CTUW5120 R 1.146 1.335 .334 .057 .31011883533 WNMF-96P50AP CTUW5135 R 1.146 1.335 .334 .057 .310

11404678 WNMF-96-30A CTUC1125 R 1.146 1.335 .334 .057 .31011798869 WNMF-96-30AQ CTUC1125 R 1.146 1.335 .334 .057 .31011395618 WNMF-96-30MX CTUC5135 R 1.146 1.335 .334 .057 .31011404707 WNMF-96-30X CTUC5125 R 1.146 1.335 .334 .057 .31011404699 WNMF-96-30X CTUW3120 R 1.146 1.335 .334 .057 .31011533595 WNMF-96-30X CTUW3120 R 1.146 1.335 .334 .057 .31011397340 WNMF-96EZA CTUC5125 R 1.146 1.335 .334 .057 .31011906877 WNMF-106-30A CTUW3120 R 1.146 1.335 .334 .057 .31011404812 XNMX-310712A CTUP1125 R .295 .472 1.205 lg

11400931 YNUF-201220A CTUC3121 R .730 .500 1.472 lg

CTUW

1120

CTUW

1125

CTUW

3120

CTUW

3130

CTUW

5120

CTUW

5135

CTUC

1125

CTUC

3110

CTUC

3121

CTUC

3122

CTUC

5125

CTUC

5135

CTUP

1125

CTUP

3120

A B T R1 R2

Bar

pee

ling

inse

rts

Hea

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mac

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Bar peeling insertsHeavy duty machining

Page 24: HEAVY DUTY MACHINING · Heavy duty machining Heavy duty machining

24

PMKNSH

CD.. LN.. CNMA..

W

R r R R R R R

r r

R R

CTUW

1120

CTUW

3105

CTUW

3120

CTUC

1120

CTUC

1121

CTUC

1122

CTUC

1125

CTUP

1125

D T W L RMaterials

Type, description [inch] [inch] [inch] [inch] [inch]

11393305 CDH-33A CTUW3105 R .750 .37511393311 CDH-42 CTUW3120 R 1.020 .515

11393333 CDH-43T13A CTUW3105 R 1.020 .76511393346 CDH-53T13B CTUW3105 R 1.265 .77011393349 CDH-53Y1B CTUW1120 R 1.265 .770

11393402 CNMA-644 CTUW3105 R .750 .250 .062

11397970 LNU-6688D CTUC1121 R .500 .770 1.520 .12511410551 LNU-6688T9A CTUW3105 R .500 .770 1.520 .12511862389 LNU-6688T9B CTUC1125 R .500 .770 1.520 .12511398004 LNU-6688T9B CTUC1122 R .500 .770 1.520 .12511754995 LNU-68812B-PRESS LAND CTUC1120 R .500 .770 2.020 .18811667965 LNU-68812B-PRESS LAND CTUW1120 R .500 .770 2.020 .18811398034 LNU-68812T24B CTUW3120 R .500 .770 2.020 .188

11394044 LNUF-6688A CTUP1125 R .500 .775 1.525 .12511394049 LNUF-6688B CTUC1120 R .500 .775 1.525 .125

CTUW

1120

CTUW

3105

CTUW

3120

CTUC

1120

CTUC

1121

CTUC

1122

CTUC

1125

CTUP

1125

D T W L R

Rol

l tur

ning

inse

rts

Hea

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mac

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Roll turning insertsHeavy duty machining

Page 25: HEAVY DUTY MACHINING · Heavy duty machining Heavy duty machining

25

PMKNSH

KR.. TN.. WTS-10P

sr

d1d

60°

l

WTS-10AWTS-10X

.173- .000+.010 SQ.

.645

.275

R.045TYP (4)

.390

90°TYP (2)

90°0'

R R R R R

r r r

CTUW

1120

CTUW

1130

CTUC

1122

CTUP

1127

CTUP

1131

d l s rMaterials

Type, description [inch] [inch] [inch] [inch]

11612674 KRR-6586-80 CTUP1131 R .750 1.250 .615 .188

11403932 TNMG 438A CTUW1120 R .500 .187 .125

11755579 WTS-10A (.005x20DEG) CTUP1131 R .625 .375 .178 sq.11394586 WTS-10A CTUW1120 R .625 .375 .178 sq.

11755315 WTS-10X (.005x20DEG) CTUP1131 R .625 .375 .178 sq.11755576 WTS-10X CTUP1131 R .625 .375 .178 sq.11813378 WTS-10X CTUP1127 R .625 .375 .178 sq.

11851598 WTS-10PC CTUC1122 R .625 .375 .178 sq.11404797 WTS-10PC CTUW1120 R .625 .375 .178 sq.

CTUW

1120

CTUW

1130

CTUC

1122

CTUP

1121

CTUP

1131

d l s r

Rai

lroad

turn

ing

inse

rts

Railroad turning inserts

Hea

vy d

uty

mac

hini

ng

Heavy duty machining

Page 26: HEAVY DUTY MACHINING · Heavy duty machining Heavy duty machining

26

Flank wear

Reasons▲ Cutting speed too high▲ Carbide grade with insufficient wear resistance▲ Incorrect feed rate

Remedies▲ Reduce cutting speed▲ Select more wear resistant carbide grade▲ Adapt feed rate to cutting speed and cutting depth

(increase feed rate)

Abrasion on flank, normal wear after a certain machining time.

Edge chipping

Reasons▲ Grade with too high wear resistance▲ Vibration▲ Feed rate too high or excessive cutting depth▲ Interrupted cut▲ Swarf damage

Remedies▲ Use tougher grade▲ Use negative cutting edge geometry with chip groove▲ Increase stability (tool, work piece)

Through excessive mechanical stress at the cutting edge fracture and chipping can occur.

Type

s of

wea

rH

eavy

dut

y m

achi

ning

Cratering

Reasons▲ Cutting speed and / or feed rate too high▲ Rake angle too shallow▲ Grade with low wear resistance▲ Insufficient coolant supply

Remedies▲ Reduce cutting speed and / or feed rate▲ Increase coolant quantity and / or pressure, optimize

coolant supply▲ Use grade with higher resistance to cratering

The hot chip which is being evacuated causes cratering at the rake face of the cutting edge.

Heavy duty machiningTypes of wear

Page 27: HEAVY DUTY MACHINING · Heavy duty machining Heavy duty machining

27

Built-up edge

Reasons▲ Cutting speed too low▲ Rake angle too small▲ Wrong cutting material▲ Lack of cooling / lubrication

Remedies▲ Increase cutting speed▲ Increase rake angle▲ Apply TiN-coating▲ Use emulsion with higher concentration

Built-up edge occurs when the chip is not evacuated properly due to insufficient cutting temperature.

Insert breakage

Reasons▲ Excessive stress of the carbide grade▲ Lack of stability▲ Corner angle too small▲ Excessive notching▲ Sudden changes of cutting forces

Remedies▲ Use tougher cutting material▲ Use protective edge chamfer▲ Increase edge hone▲ Use more stable geometry▲ Reduce feed rate

Excessive stress of the insert causes breakage.

Plastic deformation

Reasons▲ Too high machining temperature, resulting in softening of

substrate▲ Damaged coatings▲ Chip groove too narrow

Remedies▲ Reduce cutting speed▲ Choose carbide grade with higher wear resistance▲ Provide cooling

High machining temperature and simultaneous mechanical stress can lead to plastic deformation.

Causes of wear

Type

s of

wea

rH

eavy

dut

y m

achi

ning

Heavy duty machining

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28

a

bcd

a = diffusionb = mechanical abrasionc = oxidationd = damage due to built-up edge (BUE)

With increasing cutting temperature the thermally caused wear types of oxidation and diffusion prevail.

Wea

r

Cutting temperature

Cutting speed Feed rate Cutting depth

Cutting temperature and wear depend decisively upon the machining conditions.

Wea

rIncrease of ap; f; vc

Benefits of hard material coatings

Depositing hard material layers on carbide tools positively influences wear characteristics. The advantages of hard material layers consist in the reduction of

▲ Friction▲ Temperature changes▲ Oxidation▲ Diffusion

Wear is caused through simultaneous mechanical and thermal stress of the cutting edge. The most common causes are

▲ Mechanical abrasion▲ Damage due to built-up edge (BUE)▲ Oxidation processes▲ Diffusion

Causes of wear

Cau

ses

of w

ear

Hea

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mac

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Heavy duty machining

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29

⇪ ⇪ ⇪ ⇪ ⇧ ⇧ ⇧

⇪ ⇧ ⇪

⇪ ⇪⇪ ⇪⇪ ⇪ ⇪ ⇧ ⇧

⇪ ≈⇪

≈⇪ ⇪ ⇧ ⇪⇪

⇪ ⇪ ⇪ ⇧ ⇪ ⇧⇧

⇪ ⇪ ⇪⇪ ⇪

≈ ≈ ≈ ≈ ≈≈ ≈ ≈ ≈ ≈≈ ≈ ≈ ⇧

≈ ≈ ≈ ≈ ≈▢ ≈ ▢ ▢ ▢ ▢ ▢

⇪ ⇪

≈⇧ ⇧ ▢

Type of problem

Corrective measures

Type of wear Work piece problems Chip control

Flan

k we

ar

Crat

erin

g

Edge

chi

ppin

g

Plas

tic d

efor

mat

ion

Inse

rt br

eaka

ge

Built-

up e

dge

Vibr

atio

n

Form

atio

n of

pip

s an

d bu

rrs

Chat

tere

d su

rface

Surfa

ce q

uality

Chip

too

long

(tan

gled

swa

rf)

Chip

too

shor

t (fra

gmen

ted

chip

)

Cutting speed

Cutti

ng v

alue

s

Feed rate

Feed - center area

Chip groove-R-M-F

Sele

ctio

n of

inse

rts

Corner radius

larger

smaller

Cutting material

wear resistance

toughness

Clamping of tool

Gen

eral

crit

eriaClamping of work piece

Overhang

Tip height

Cooling lubricant

raise, increase, large influence

avoid, reduce large influence

check, optimize

raise, increase low influence

avoid, reduce low influence use

Corrective measures for turning problems

Cor

rect

ive

mea

sure

s fo

r tur

ning

pro

blem

sH

eavy

dut

y m

achi

ning

Heavy duty machining

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30

.025 .05 .1 .2 .4 .8 1.6 3.2 6.3 12.5 25 50

N 1 N 2 N 3 N 4 N 5 N 6 N 7 N 8 N 9 N 10 N 11 N 12

Ra [µm] .025 .05 .1 .2 .4 .8 1.6 3.2 6.3 12.5 25 50

Rz [µm] .25 .63 1 1.6 2.5 4-6.3 10 16-25 40 63 100 160

Surface quality according to manufacturing method

Surface roughness (produced through normal workshop methods)

Surface roughness (produced through rough machining methods)

Surface roughness (produced through special methods)

Surface symbol according to ISO 1302 new

Surface symbol according to ISO 3141 until now

Roughness index

Arithmetic mean value

Surface roughness depth

Longitudinal turning Face turningLongitudinal turning Face turningLongitudinal grinding Surface grinding

Average roughness value Ra DIN (4768)

This is defined as the arithmetical mean of the absolute sums of the roughness profile R within the entire measured length lm.

Average roughness depth Rz (DIN 4768)

This is defined as the average value resulting from the single roughness depths of five successive single measured lengths le.

Single surface roughness depth Z1 ... Z5

This is the vertical distance between the highest and the lowest point of the roughness profile R within a single mea-sured length le.

Maximum surface roughness depth Rt (DIN 4768/1)

This is the distance between the elevation and depression of the line within the measured length (reference distance) of pro-file filtered according to DIN 4768 sheet 1.

Surface quality

Surf

ace

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Heavy duty machining

Page 31: HEAVY DUTY MACHINING · Heavy duty machining Heavy duty machining

31

Rtmax [µm]

CLA/Ra [µm]

CLA [µ"]

RMS [µm]

RMS [µ"]

.06 .02 .75 .02 .8.1 .03 1.2 .04 13.2 .06 2.5 .08 2.8.3 .09 3.7 .1 4.2.4 .13 5 .14 5.6.5 .16 6.7 .18 6.9.6 .19 7.5 .21 8.3.7 .22 8.7 .25 9.7.8 .25 10 .28 11.1.9 .28 11.2 .32 12.51 .31 12.5 .35 14

1.2 .38 15.8 .42 16.71.5 .47 18.8 .53 20.91.8 .57 22.6 .64 25.52 .64 25.1 .78 27.9

2.4 .73 30.1 .85 33.42.8 .89 35.2 .99 393 .95 37.6 1.06 41.9

3.5 1.11 43.9 1.24 48.84 1.27 50.2 1.41 55.85 1.59 62.7 1.77 69.76 1.91 75.5 2.12 83.67 2.22 87.5 2.48 92.68 2.54 100 2.83 111.7

10 3.18 125.5 3.54 14020 6.64 251.5 7.8 27940 12.7 502 14.1 55860 19.1 755 21.2 836

125 39.5 1560 43.5 1750200 64 2510 78 2790

1 µm = .001 mm = 39.37 µ'' 1 µ'' = .000001" = .0000254 mm

CLA (center line average)

RMS (root mean square)

Surface and roughness

Table for the comparison of the measuring systems (metric compared to inch) of surface roughness

Surface quality

Surf

ace

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Heavy duty machining

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32

f

r r

Rt

theo

rm

ax

0,05 0,1 0,15 0,2 0,25 0,3 0,35 0,4

10r = 1,2 mmr = 0,8 mm

r = 0,4mm

20

30

40

50

60

* R

t

ISO 1302 rε = .4 rε = .8 rε = 1.2 rε = 1.6

63 - 100 Rt 100 12.5 - 25 N 11 25 – .51 .69 .18

40 - 63 Rt 63 6.3 - 25 N 10 12.5 .27 .43 .56 .68

31.5 - 40 Rt 40 4.9 - 6.3N 9

6.3 .25 .37 .49 .57

25 - 31.5 Rt 31.5 4.0 - 4.9 .22 .32 .41 .47

16 - 25 Rt 25 2.5 - 4.0N 8

3.2 .20 .28 .36 .39

10 - 16 Rt 16 1.6 - 2.5 0.15 .22 .29 .31

6.3 - 10 Rt 10 1.0 - 1.6 N 7 1.6 .10 .13 .18 .20

or approximately

* Theoretical surface roughness f (mm/rev.)

Roughness range

Rz in µm Rt max

corresponds to

Ra-valueRoughness

index

Corner radius rε (inch) and feed rate f (inch/rev.)

Theoretical surface finish

The maximum theoretical surface roughness with turning, Rt theor. is the combination of feed rate and corner radius.

Cutting data for feed rate

Surface quality

Surf

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Heavy duty machining

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33

d 1

n

vc

vf

f

v =c [ ]sfpm12d n1 · π ·

n = [rev. ]/mind1 · πv 12c ·

v = f nf inch/min· [ ]

▲ PC – aided calculation of machining parameters: - cutting speed - chip removal rate - power consumption - medium chip thickness▲ Languages: DE, EN, FR, IT, ES, DA, SE, FI▲ Free of charge download from www.ceratizit.com

Feed rate (vf)

The CERATIZIT formula collection CT-CALC

Cutting speed (vc)

Revolutions per minute (n)

General formula

Gen

eral

form

ula

Hea

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Heavy duty machining

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34

Tens

ile s

treng

th

N/m

Vick

ers

HV Brin

ell

HB Rock

wel

l HR

C

Shor

e C

575 180 171595 185 176610 190 181625 195 185640 200 190 12660 205 195 13675 210 199 14690 215 204 15705 220 209 15 28720 225 214 16740 230 219 17 29755 235 223 18770 240 228 20.3 30785 245 233 21.3800 250 238 22.2 31820 255 242 23.1 32835 260 247 24 33850 265 252 24.8865 270 257 25.6880 275 261 26.4 34900 280 268 27.1915 285 271 27.8 35930 290 276 28.5950 295 280 29.2 36965 300 285 29.8 37995 310 295 31 381030 320 304 32.2 391060 330 314 33.3 401095 340 323 34.3 411125 350 333 35.5 421155 360 342 36.6 431190 370 352 37.7 441220 380 361 38.8 451255 390 371 39.8 461290 400 380 40.8 471320 410 390 41.8 481350 420 399 42.71385 430 409 43.6 491420 440 418 44.51455 450 428 45.3 511485 460 437 46.1 521520 470 447 46.9 531555 480 465 47.7 541595 490 466 48.41630 500 475 49.1 571665 510 485 49.8 581700 520 494 50.5 591740 530 504 51.1 60

Hardness values

Tens

ile s

treng

th

N/m

Vick

ers

HV Brin

ell

HB Rock

wel

l HR

C

Shor

e C

1775 540 513 51.7 611810 550 523 52.3 621845 560 532 53 631880 570 542 53.6 641920 580 551 54.1 651955 590 561 54.7 661995 600 570 55.2 672030 610 580 55.7 682070 620 589 56.3 692105 630 599 56.8 702145 640 608 57.3 712180 650 618 57.8 722210 660 628 58.3 732240 665 633 58.8 742280 670 638 59.32310 675 643 59.8 752350 680 648 60.3 762380 685 653 61.1 772410 690 658 61.3 782450 695 663 61.7 792480 710 668 62.2 802520 720 678 62.6 812550 730 683 63.1 822590 740 693 63.52630 750 703 63.9 832660 760 708 64.3 842700 770 718 64.7 852730 780 723 65.12770 790 733 65.5 862800 800 738 65.92840 810 748 66.3 872870 820 753 66.7 882910 830 763 672940 840 768 67.4 892980 850 67.73010 860 68.1 903050 870 68.43080 880 68.7 913120 890 693150 900 69.3 923190 910 69.63220 920 69.93260 930 70.1

Har

dnes

s va

lues

Hea

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Heavy duty machining

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35

Germany DIN

Mat. no.

United Kingdom BS

France AFNOR

Sweden SS

USA AISI

Japan JIS

Kc1.1N/mm2 mc

VDI 3323

group

10 SPb 20 1.0722 10 PbF 2 11 L 08 1350 .20 1100 Cr 6 1.2067 BL 3 Y 100 C 6 L 3 SUJ2 1775 .24 6/9105 WCr 6 1.2419 105 WC 13 SKS31 1775 .24 6/912 CrMo 9 10 1.7380 1501-622 Gr. 31; 45 10 CD 9.10 2218 A 182-F22 SPVA,SCMV4 1675 .24 6/712 Ni 19 1.5680 Z 18 N 5 2515 2450 .23 10/1113 CrMo 4 4 1.7335 1501-620 Gr. 27 15 CD 3.5 2216 A 182-F11; F12 SPVAF12 1675 .24 6/714 MoV 6 3 1.7715 1503-660-440 1675 .24 6/714 Ni 6 1.5622 16 N 6 A 350-LF 5 1675 .24 6/714 NiCr 10 1.5732 14 NC 11 3415 SNC415(H) 1675 .24 6/714 NiCr 14 1.5752 655 M 13 12 NC 15 3310; 9314 SNC815(H) 1675 .24 6/714 NiCrMo 13 4 1.6657 1675 .24 6/715 Cr 3 1.7015 523 M 15 12 C 3 5015 1675 .24 6/715 CrMo 5 1.7262 12 CD 4 SCM415(H) 1675 .24 6/715 Mo 3 1.5415 1501-240 15 D 3 2912 A 204 Gr. A 1675 .24 6/716 MnCr 5 1.7131 527 M 17 16 MC 5 2511 5115 SCR415 1675 .24 6/716 Mo 5 1.5423 1503-245-420 4520 SB450M 1675 .24 6/717 CrNiMo 6 1.6587 820 A 16 18 NCD 6 1675 .24 6/721 NiCrMo 2 1.6523 805 M 20 20 NCD 2 2506 8620 SNCM220(H) 1725 .24 6/825 CrMo 4 1.7218 1717 CDS 110 25 CD 4 S 2225 4130 SM420;SCM430 1725 .24 6/828 Mn 6 1.1170 150 M 28 20 M 5 1330 1500 .22 232 CrMo 12 1.7361 722 M 24 30 CD 12 2240 1775 .24 6/934 Cr 4 1.7033 530 A 32 32 C 4 5132 SCR430(H) 1725 .24 6/834 CrMo 4 1.7220 708 A 37 35 CD 4 2234 4135; 4137 SCM432;SCCRM3 1775 .24 6/934 CrNiMo 6 1.6582 817 M 40 35 NCD 6 2541 4340 SNCM447 1775 .24 6/935 S 20 1.0726 212 M 36 35 MF 4 1957 1140 1525 .22 2/336 CrNiMo 4 1.6511 816 M 40 40 NCD 3 9840 SNCM447 1775 .24 6/936 Mn 5 1.1167 1525 .22 2/336 NiCr 6 1.5710 640 A 35 35 NC 6 3135 SNC236 1800 .24 3/938 MnSi 4 1.5120 1800 .24 3/939 CrMoV 13 9 1.8523 897 M 39 1775 .24 6/940 Mn 4 1.1157 150 M 36 35 M 5 1039 1525 .22 2/340 NiCrMo 2 2 1.6546 311-Type 7 40 NCD 2 8740 SNCM240 1775 .24 6/941 Cr 4 1.7035 530 M 40 42 C 4 5140 SCR440(H) 1775 .24 6/941 CrAlMo 7 1.8509 905 M 39 40 CAD 6.12 2940 A 355 Cl. A SACM645 1775 .24 6/941 CrMo 4 1.7223 708 M 40 42 CD 4 TS 2244 4142; 4140 SCM440 1775 .24 6/942 Cr 4 1.7045 530 A 40 42 C 4 TS 2245 5140 SCr440 1775 .24 6/942 CrMo 4 1.7225 708 M 40 42 CD 4 2244 4142; 4140 SCM440(H) 1775 .24 6/945 WCrV 7 1.2542 BS 1 2710 S 1 1775 .24 6/950 CrV 4 1.8159 735 A 50 50 CV 4 2230 6150 SUP10 1775 .24 6/955 Cr 3 1.7176 527 A 60 55 C 3 2253 5155 SUP9(A) 1775 .24 6/955 NiCrMoV 6 1.2713 55 NCDV 7 L 6 SKH1;SKT4 1775 .24 6/955 Si 7 1.0904 250 A 53 55 S 7 2085; 2090 9255 1775 .24 6/958 CrV 4 1.8161 1775 .24 6/960 SiCr 7 1.0961 60 SC 7 9262 1775 .24 6/99 SMn 28 1.0715 230 M 07 S 250 1912 1213 SUM22 1350 .21 19 SMn 36 1.0736 240 M 07 S 300 1215 1350 .21 19 SMnPb 28 1.0718 S 250 Pb 1914 12 L 13 SUM22L 1350 .21 19 SMnPb 36 1.0737 S 300 Pb 1926 12 L 14 1350 .21 1Al99 3.0205 700 .25 21

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Germany DIN

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United Kingdom BS

France AFNOR

Sweden SS

USA AISI

Japan JIS

Kc1.1N/mm2 mc

VDI 3323

group

AlCuMg1 3.1325 700 .25 22AlMg1 3.3315 700 .25 21AlMgSi1 3.2315 700 .25 22C 105 W1 1.1545 Y1 105 1880 W 110 SK3 1675 .24 3C 125 W 1.1663 Y2 120 W 112 1675 .24 3C 15 1.0401 080 M 15 AF3 7 C 12; XC 18 1350 1015 S15C 1350 .21 1C 22 1.0402 050 A 20 AF 42 C 20 1450 1020 S20C, S22C 1350 .21 1C 35 1.0501 060 A 35 AF 55 C 35 1550 1035 S35C 1525 .22 2/3C 45 1.0503 080 M 46 AF 65 C 45 1650 1045 S45C 1525 .22 2/3C 55 1.0535 070 M 55 1655 1055 S55C 1675 .24 3C 60 1.0601 080 A 62 CC 55 1060 S60C 1675 .24 3Cf 35 1.1183 S35C 1525 .22 2/3Cf 53 1.1213 S50C 1525 .22 2/3Ck 101 1.1274 060 A 96 1870 1095 1675 .24 3Ck 15 1.1141 080 M 15 XC 15; XC 18 1370 1015 S15C 1350 .21 1Ck 55 1.1203 070 M 55 XC 55 1055 S55C 1675 .24 3Ck 60 1.1221 080 A 62 XC 60 1665; 1678 1060 S58C 1675 .24 3CoCr20W15Ni 2.4764 3300 .24 35CuZn15 2.0240 700 .27 27CuZn36Pb3 2.0375 700 .27 26E-Cu57 2.0060 700 .27 28G-AlSi10Mg 3.2381 700 .25 24G-AlSi12 3.2581 700 .25 23G-AlSi9Cu3 3.2163 700 .25 23G-CuSn5ZnPb 2.1096 700 .27 26G-CuZn40Fe 2.0590 700 .27 28G-X 120 Mn 12 1.3401 Z 120 M 12 Z 120 M 12 A 128 (A) 3300 .24 35G-X 20 Cr 14 1.4027 420 C 29 Z 20 C 13 M SCS2 1875 .21 12/13G-X 40 NiCrSi 38 18 1.4865 330 C 40 2600 .24 31G-X 45 CrSi 9 3 1.4718 401 S 45 Z 45 CS 9 HNV 3 2450 .23 10/11G-X 5 CrNi 13 4 1.4313 425 C 11 Z 5 CN 13.4 2385 CA 6-NM 1875 .21 12/13

G-X 5 CrNiMoNb 18 10 1.4581 318 C 17 Z 4 CNDNb 18.12 M 2150 .2 14G-X 6 CrNi 18 9 1.4308 304 C 15 Z 6 CN 18.10 M 2333 CF-8 2150 .2 14G-X 6 CrNiMo 18 10 1.4408 2150 .2 14G-X 7 Cr 13 1.4001 1875 .21 12/13GG-10 .6010 Ft 10 D 01 10-00 A48-20 B FC100 1150 .2 15GG-15 .6015 Grade 150 Ft 15 D 01 15-00 A48-25 B FC150 1150 .2 15GG-20 .6020 Grade 220 Ft 20 D 01 20-00 A48-30 B FC200 1150 .2 15GG-25 .6025 Grade 260 Ft 25 D 01 25-00 A48-40 B FC250 1250 .24 15/16GG-30 .6030 Grade 300 Ft 30 D 01 30-00 A48-45 B FC300 1350 .28 16GG-35 .6035 Grade 350 Ft 35 D 01 35-00 A48-50 B FC350 1350 .28 16GG-40 .6040 Grade 400 Ft 40 D 01 40-00 A48-60 B FC400 1350 .28 16GGG-35.3 .7033 FCD350 1225 .25 17GGG-40 .7040 SNG 420/12 FGS 400-12 0717-02 60-40-18 FCD400 1225 .25 17GGG-40.3 .7043 SNG 370/17 FGS 370-17 0717-15 FCD400 1225 .25 17GGG-50 .7050 SNG 500/7 FGS 500-7 0727-02 65-45-12 FCD500 1350 .28 18GGG-60 .7060 SNG 600/3 FGS 600-3 0732-03 80-55-06 FCD600 1350 .28 18GGG-70 .7070 SNG 700/2 FGS 700-2 0737-01 100-70-03 FCD700 1350 .28 18GGG-NiCr 20 2 .7660 S-NiCr 20 2 S-NC 20 2 A 439 Type D-2 1350 .28 18

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37

Germany DIN

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France AFNOR

Sweden SS

USA AISI

Japan JIS

Kc1.1N/mm2 mc

VDI 3323

group

GGG-NiMn 13 7 .7652 S-NiMn 13 7 S-NM 13 7 1350 .28 18GS-Ck 45 1.1191 080 M 46 XC 42 1672 1045 S45C 1525 .22 2/3GTS-35-10 .8135 B 340/12 MN 35-10 1225 .25 19GTS-45-06 .8145 P 440/7 1420 .3 20GTS-55-04 .8155 P 510/4 MP 50-5 1420 .3 20GTS-65-02 .8165 P 570/3 MP 60-3 1420 .3 20GTS-70-02 .8170 P 690/2 IP 70-2 1420 .3 20NiCr20TiAl 2.4631 HR 401; 601 Nimonic 80 A 3300 .24 33NiCr22Mo9Nb 2.4856 Inconel 625 3300 .24 33NiCu30Al 2.4375 Monel K 500 3300 .24 34NiFe25Cr20NbTi 2.4955 3300 .24 34S 18-0-1 1.3355 BT 1 Z 80 WCV 18-04-01 T 1 2450 .23 10/11S 18-1-2-5 1.3255 BT 4 Z 80 WKCV 18-05-04-0 T 4 2450 .23 10/11S 2-9-2 1.3348 Z 100 DCWV 09-04-02- 2782 M 7 2450 .23 10/11S 6-5-2 1.3343 BM 2 Z 85 WDCV 06-05-04-0 2722 M 2 SKH9; SKH51 2450 .23 10/11S 6-5-2-5 1.3243 Z 85 WDKCV 06-05-05- 2723 SKH55 2450 .23 10/11TiAl6V4 3.7165 TA 10 bis TA 13 T-A 6 V 2110 .22 37X 10 Cr 13 1.4006 410 S 21 Z 12 C 13 2302 410; CA-15 SUS410 1875 .21 12/13X 10 CrNiMoNb 18 12 1.4583 318 2150 .2 14X 10 CrNiS 18 9 1.4305 303 S 21 Z 10 CNF 18.09 2346 303 2150 .2 14X 100 CrMoV 5 1 1.2363 BA 2 Z 100 CDV 5 2260 A 2 2450 .23 10/11X 12 CrMoS 17 1.4104 Z 10 CF 17 2383 430 F SUS430F 1875 .21 12/13X 12 CrNi 17 7 1.4310 301 S 21 Z 12 CN 17.07 301 2150 .2 14X 12 CrNi 22 12 1.4829 SUS301 1350 .28 16X 12 CrNi 25 21 1.4845 310 S24 Z 12 CN 25.20 2361 310 S SUH310; SUS310S 2150 .2 14X 12 CrNiTi 18 9 1.4878 321 S 20 Z 6 CNT 18.12 (B) 2337 321 2150 .2 14X 12 NiCrSi 36 16 1.4864 NA 17 Z 12 NCS 37.18 330 SUH330 2600 .24 31X 15 CrNiSi 20 12 1.4828 309 S 24 Z 15 CNS 20.12 309 SUH309 1350 .28 16X 165 CrMoV 12 1.2601 2310 2450 .23 10/11X 2 CrNiMo 18 13 1.4440 2150 .2 14X 2 CrNiMoN 17 13 3 1.4429 316 S 62 Z 2 CND 17.13 Az 2375 316 LN SUS316LN 2150 .2 14X 2 CrNiN 18 10 1.4311 304 S 62 Z 2 CN 18 .10 2371 304 LN SUS304LN 2150 .2 14X 20 CrNi 17 2 1.4057 431 S 29 Z 15 CN 16.02 2321 431 SUS431 1875 .21 12/13X 210 Cr 12 1.2080 BD 3 Z 200 C 12 D 3 2450 .23 10/11X 210 CrW 12 1.2436 2312 2450 .23 10/11X 30 WCrV 9 3 1.2581 BH 21 Z 30 WCV 9 H 21 SKD5 2450 .23 10/11X 40 CrMoV 5 1 1.2344 BH 13 Z 40 CDV 5 2242 H 13 SKD61 2450 .23 10/11X 46 Cr 13 1.4034 420 S 45 Z 40 C 14 1875 .21 12/13X 5 CrNi 18 9 1.4301 304 S 15 Z 6 CN 18.09 2332; 2333 304; 304 H SUS304 2150 .2 14X 5 CrNiMo 17 13 3 1.4436 316 S 16 Z 6 CND 17.12 2343 316 SUS316 2150 .2 14X 5 CrNiMo 18 10 1.4401 316 S 16 Z 6 CND 17.11 2347 316 SUS316 2150 .2 14X 53 CrMnNiN 21 9 1.4871 349 S 54 Z 52 CMN 21.09 EV 8 1875 .21 12/13X 6 Cr 13 1.4000 403 S 17 Z 6 C 13 2301 403 SUS403 1875 .21 12/13X 6 Cr 17 1.4016 430 S 15 Z 8 C 17 2320 430 SUS430 1875 .21 12/13X 6 CrMo 17 1.4113 434 S 17 Z 8 CD 17.01 2325 434 SUS434 1875 .21 12/13X 6 CrNiMoTi 17 12 2 1.4571 320 S 31 Z 6 CNT 17.12 2350 316 Ti 2150 .2 14X 6 CrNiNb 18 10 1.4550 347 S 17 Z 6 CNNb 18.10 2338 347 2150 .2 14X 6 CrNiTi 18 10 1.4541 321 S 12 Z 6 CNT 18.10 2337 321 2150 .2 14X2 CrNi 18-8 1.4317 2150 .2 14

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38

HB

A

1 1252 150 - 2503 3006 180

7 / 8 250 - 3009 350

10 20011 35012 20013 325

R

14 20014 18014 230 - 26014 330

F

15 18016 26017 16018 –19 13020 230

N

21 6022 100

< 12% Si 23 80< 12% Si 24 90> 12% Si 25 130

26 –27 9028 10029 10029 –29 –30 –

S

31 20032 28033 25034 –35 –36 Rm 440*37 Rm 1050*

H

38 55 HRC39 60 HRC40 40040 55 HRC

Work piece material Type of treatment / alloy VD

I 332

3 gr

oup Ha

rd-

ness

Non alloyed steelannealed ≤ .15% Cannealed .15% - .45% Ctempered ≥ .45% C

Low alloyed steelannealedtemperedtempered

High alloyed steelannealedtempered

Corrosion-resistant steel

annealed ferritictempered martensitic

Stainless steel

annealed ferritic / martensiticquenched austeniticquenched duplexhardened martensitic / austenitic

Gray cast ironpearlitic / ferriticpearlitic / martensitic

Spheroidal cast ironferriticpearlitic

Malleable cast ironferriticpearlitic

Aluminum wrought alloys

non hardenedhardened

Aluminum cast alloys

non hardenedhardenednon hardened

Copper and copper alloys (bronze, brass)

machining alloy stock (1% Pb)brass, red bronzebronzelead-free copper and electrolytic copper

Non-metallic materialsthermosetting plasticsfibre-reinforced plasticshard rubber

Heat-resistant alloys

annealed Fe-basehardened Fe-baseannealed Ni or Co-basehardened Ni or Co-base 30 - 58 HRCcast Ni or Co-base 1500 - 2200 N/mm²

Titanium alloyspure titaniumalpha + beta alloys

Tempered steelhardened and temperedhardened and tempered

Chilled castings castTempered cast iron hardened and tempered* Rm = ultimate tensile strength, measured in MPa

Cutting data

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39

Uncoated carbideCTUW1120 CTUW1125 CTUW1130 CTUW2230 CTUW3105 CTUW3120 CTUW5120 CTUW5135

vc vc vc vc vc vc vc vc[ft/min] [ft/min] [ft/min] [ft/min] [ft/min] [ft/min] [ft/min] [ft/min]

290 - 420 260 - 380 245 - 360 245 - 360 320 - 465 290 - 420 – –235 - 365 215 - 330 205 - 315 205 - 315 260 - 400 235 - 365 – –210 - 315 190 - 285 180 - 270 180 - 270 230 - 350 210 - 315 – –235 - 340 215 - 310 205 - 295 205 - 295 260 - 375 235 - 340 – –210 - 315 190 - 285 180 - 270 180 - 270 230 - 345 210 - 315 – –185 - 235 165 - 215 155 - 205 155 - 205 200 - 260 185 - 235 – –235 - 285 215 - 250 205 - 235 205 - 235 260 - 315 235 - 285 – –185 - 235 165 - 210 155 - 200 155 - 200 205 - 260 185 - 235 – –420 - 575 375 - 515 355 - 485 355 - 485 465 - 635 420 - 575 – –185 - 290 165 - 260 155 - 245 155 - 245 205 - 320 180 - 290 – –185 - 290 165 - 260 155 - 245 155 - 245 – – 300 - 410 270 - 380150 - 235 135 - 210 130 - 200 130 - 200 – – 235 - 400 215 - 365115 - 190 105 - 170 100 - 160 100 - 160 – – 170 - 315 155 - 28580 - 135 70 - 120 65 - 115 65 - 115 – – 120 - 165 110 - 150

– – – – 395 - 525 355 - 475 – –– – – – 260 - 425 235 - 385 – –– – – – 425 - 555 385 - 500 – –– – – – 295 - 425 235 - 385 – –– – – – 425 - 625 385 - 560 – –– – – – 330 - 500 295 - 450 – –– – – – – – – –– – – – – – – –– – – – – – – –– – – – – – – –– – – – – – – –– – – – – – – –– – – – – – – –– – – – – – – –– – – – – – – –– – – – – – – –– – – – – – – –– – – – – – – –– – – – – – 80 - 115 70 - 100– – – – – – 60 - 90 55 - 80– – – – – – 60 - 90 55 - 80– – – – – – 45 - 68 40 - 60– – – – – – 35 - 60 30 - 55– – – – – – 182 - 320 160 - 285– – – – – – 90 - 200 80 - 180– – – – – – – –– – – – – – – –– – – – – – – –– – – – – – – –

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Heavy duty machiningCutting data

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HB

A

1 1252 150 - 2503 3006 180

7 / 8 250 - 3009 350

10 20011 35012 20013 325

R

14 20014 18014 230 - 26014 330

F

15 18016 26017 16018 –19 13020 230

N

21 6022 100

< 12% Si 23 80< 12% Si 24 90> 12% Si 25 130

26 –27 9028 10029 10029 –29 –30 –

S

31 20032 28033 25034 –35 –36 Rm 440*37 Rm 1050*

H

38 55 HRC39 60 HRC40 40040 55 HRC

Work piece material Type of treatment / alloy VD

I 332

3 gr

oup Ha

rd-

ness

Non alloyed steelannealed ≤ .15% Cannealed .15% - .45% Ctempered ≥ .45% C

Low alloyed steelannealedtemperedtempered

High alloyed steelannealedtempered

Corrosion-resistant steel

annealed ferritictempered martensitic

Stainless steel

annealed ferritic / martensiticquenched austeniticquenched duplexhardened martensitic / austenitic

Gray cast ironpearlitic / ferriticpearlitic / martensitic

Spheroidal cast ironferriticpearlitic

Malleable cast ironferriticpearlitic

Aluminum wrought alloys

non hardenedhardened

Aluminum cast alloys

non hardenedhardenednon hardened

Copper and copper alloys (bronze, brass)

machining alloy stock (1% Pb)brass, red bronzebronzelead-free copper and electrolytic copper

Non-metallic materialsthermosetting plasticsfibre-reinforced plasticshard rubber

Heat-resistant alloys

annealed Fe-basehardened Fe-baseannealed Ni or Co-basehardened Ni or Co-base 30 - 58 HRCcast Ni or Co-base 1500 - 2200 N/mm²

Titanium alloyspure titaniumalpha + beta alloys

Tempered steelhardened and temperedhardened and tempered

Chilled castings castTempered cast iron hardened and tempered* Rm = ultimate tensile strength, measured in MPa

Cutting data

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Coated carbideCTUP1125 CTUP3120 CTUC1120 CTUP1127 CTUC1130 CTUC1121 CTUC3121 CTUC5125 CTUP5225

CTUP5235vc vc vc vc vc vc vc vc[ft/min] [ft/min] [ft/min] [ft/min] [ft/min] [ft/min] [ft/min] [ft/min] vc [ft/min]

305 - 445 430 - 550 615 - 785 585 - 750 555 - 715 645 - 824 645 - 824 – –250 - 390 400 - 455 580 - 650 555 - 620 525 - 590 610 - 650 610 - 650 – –225 - 335 310 - 360 445 - 515 425 - 490 405 - 465 470 - 540 470 - 540 – –250 - 360 400 - 455 575 - 650 550 - 620 525 - 590 600 - 680 600 - 680 – –225 - 335 215 - 360 310 - 515 295 - 490 280 - 465 325 - 515 325 - 515 – –195 - 250 170 - 310 240 - 445 230 - 425 215 - 405 250 - 445 250 - 445 – –250 - 310 285 - 475 410 - 680 390 - 650 370 - 615 430 - 715 430 - 715 – –195 - 250 125 - 240 175 - 340 165 - 325 155 - 305 185 - 360 185 - 360 – –445 - 655 335 - 430 475 - 615 455 - 585 430 - 555 500 - 645 500 - 645 – –195 - 310 260 - 375 375 - 540 360 - 520 340 - 495 390 - 565 390 - 565 – –335 - 475 – 475 - 680 455 - 650 430 - 620 500 - 630 – 420 - 700 360 - 660265 - 455 – 375 - 650 360 - 620 340 - 590 395 - 680 – 390 - 585 330 - 610195 - 360 – 275 - 515 260 - 490 245 - 465 285 - 540 – 195 - 325 165 - 285135 - 185 – 190 - 260 180 - 245 170 - 230 200 - 275 – – –

– 425 - 570 – – – – 820 - 1470 – –– 285 - 465 – – – – 720 - 1130 – –– 465 - 600 – – – – 720 - 1235 – –– 320 - 465 – – – – 650 - 1130 – –– 465 - 675 – – – – 650 - 1300 – –– 355 - 540 – – – – 590 - 1040 – –– – – – – – – – –– – – – – – – – –– – – – – – – – –– – – – – – – – –– – – – – – – – –– – – – – – – – –– – – – – – – – –– – – – – – – – –– – – – – – – – –– – – – – – – – –– – – – – – – – –– – – – – – – – –– – – – – – – 260 - 390 210 - 320– – – – – – – 195 - 325 165 - 285– – – – – – – 115 - 290 100 - 245– – – – – – – 100 - 160 85 - 130– – – – – – – 100 - 140 85 - 115– – – – – – – 225 - 390 195 - 330– – – – – – – 130 - 225 110 - 295– – – – – – – – –– – – – – – – – –– – – – – – – – –– – – – – – – – –

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Heavy duty machiningCutting data

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42

HB

A

1 1252 150 - 2503 3006 180

7 / 8 250 - 3009 350

10 20011 35012 20013 325

R

14 20014 18014 230 - 26014 330

F

15 18016 26017 16018 –19 13020 230

N

21 6022 100

< 12% Si 23 80< 12% Si 24 90> 12% Si 25 130

26 –27 9028 10029 10029 –29 –30 –

S

31 20032 28033 25034 –35 –36 Rm 440*37 Rm 1050*

H

38 55 HRC39 60 HRC40 40040 55 HRC

Work piece material Type of treatment / alloy VD

I 332

3 gr

oup Ha

rd-

ness

Non alloyed steelannealed ≤ .15% Cannealed .15% - .45% Ctempered ≥ .45% C

Low alloyed steelannealedtemperedtempered

High alloyed steelannealedtempered

Corrosion-resistant steel

annealed ferritictempered martensitic

Stainless steel

annealed ferritic / martensiticquenched austeniticquenched duplexhardened martensitic / austenitic

Gray cast ironpearlitic / ferriticpearlitic / martensitic

Spheroidal cast ironferriticpearlitic

Malleable cast ironferriticpearlitic

Aluminum wrought alloys

non hardenedhardened

Aluminum cast alloys

non hardenedhardenednon hardened

Copper and copper alloys (bronze, brass)

machining alloy stock (1% Pb)brass, red bronzebronzelead-free copper and electrolytic copper

Non-metallic materialsthermosetting plasticsfibre-reinforced plasticshard rubber

Heat-resistant alloys

annealed Fe-basehardened Fe-baseannealed Ni or Co-basehardened Ni or Co-base 30 - 58 HRCcast Ni or Co-base 1500 - 2200 N/mm²

Titanium alloyspure titaniumalpha + beta alloys

Tempered steelhardened and temperedhardened and tempered

Chilled castings castTempered cast iron hardened and tempered* Rm = ultimate tensile strength, measured in MPa

Cutting data

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Coated carbideCTUC1120 CTUC3110 CTUC5135 CTUC1122 CTUP1131 CTUP5130 CTUC1125 CTUC3122 CTUC5225

CTUC5235vc vc vc vc vc vc vc vc[ft/min] [ft/min] [ft/min] [ft/min] [ft/min] [ft/min] [ft/min] [ft/min] vc [ft/min]

– 645 - 824 – 645 - 824 580 - 740 – 585 - 750 645 - 824 –– 610 - 650 – 610 - 650 550 - 585 – 555 - 620 610 - 650 –– 470 - 540 – 470 - 540 425 - 490 – 425 - 490 470 - 540 –– 600 - 680 – 600 - 680 540 - 620 – 550 - 620 600 - 680 –– 325 - 515 – 325 - 515 295 - 465 – 295 - 490 325 - 515 –– 250 - 445 – 250 - 445 225 - 400 – 230 - 425 250 - 445 –– 430 - 715 – 430 - 715 390 - 640 – 390 - 650 430 - 715 –– 185 - 360 – 185 - 360 170- 325 – 165 - 325 185 - 360 –– 500 - 645 – 500 - 645 450 - 580 – 455 - 585 500 - 645 –– 390 - 565 – 390 - 565 350 - 510 – 360 - 520 390 - 565 –

400 - 650 – 400 - 680 500 - 630 450 - 570 400 - 680 455 - 650 – 400 - 575370 - 550 – 370 - 565 395 - 680 355 - 610 370 - 565 360 - 620 – 300 - 550180 - 300 – 175 - 300 285 - 540 260 - 490 175 - 300 260 - 490 – 200 - 440

– – – 200 - 275 180- 250 – 180 - 245 – –– 820 - 1470 – – – – – 820 - 1470 –– 720 - 1130 – – – – – 720 - 1130 –– 720 - 1235 – – – – – 720 - 1235 –– 650 - 1130 – – – – – 650 - 1130 –– 650 - 1300 – – – – – 650 - 1300 –– 590 - 1040 – – – – – 590 - 1040 –– – – – – – – – –– – – – – – – – –– – – – – – – – –– – – – – – – – –– – – – – – – – –– – – – – – – – –– – – – – – – – –– – – – – – – – –– – – – – – – – –– – – – – – – – –– – – – – – – – –– – – – – – – – –– – 260 - 390 – – 260 - 390 – – 220 - 330– – 195 - 325 – – 195 - 325 – – 165 - 280– – 115 - 290 – – 115 - 290 – – 95 - 240– – 100 - 160 – – 100 - 160 – – 80 - 120– – 100 - 140 – – 100 - 140 – – 80 - 110– – 225 - 390 – – 225 - 390 – – 200 - 340– – 130 - 225 – – 130 - 225 – – 110 - 200– – – – – – – – –– – – – – – – – –– – – – – – – – –– – – – – – – – –

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Heavy duty machiningCutting data

Page 44: HEAVY DUTY MACHINING · Heavy duty machining Heavy duty machining

Headquarters: CERATIZIT S.A.Route de Holzem 101B.P. 51L-8201 MamerT. +352 312 085-1F. +352 311 911E. [email protected]

Contact for further information:

CERATIZIT USA, Inc. 11530 Stephens DriveUS-Warren, MI 48089-1833United States T. +1 800 783 2280 +1 586 759 2280F. +1 586 759 1657E. [email protected]

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