138-140 ADKT

Milling
GCTX 5003 NN Machining Conditions 141-145 APKT

Material Group Group Material Examples* Brinell feed [mm/rev] Vc [m/min]

No hardness min 146-150 APLX
max min max
150 151-155 APMT
Ck 15
Low Carbon Steel 1 180
9SMnPb28
210
156-159 ODMT
180
42 CrMo 4
230 LT-30 MultiMat® Milling
Alloy Steel 2 100 Cr 6 For Steel please use 160-162 ODMW
32 NiCrMo 14.5
280 GNTX insert. LT-05 Aluminium
320 163-165 OFER
220
X38 CrMoV 5
280
High Alloy Steel 3 X210 CrW 12 166-169 OFMT
320
X90 CrMoV 8
350
170-175 RDMT
303 / 304 210
4 304 L to 250 0.06 0.16 170 230
176-178 RDMW
Austenitic 230
5 316 / 316 L 0.06 0.13 160 210
Stainless Steel to 270
179-181 SDKT
316 Ti
6 -------- 0.06 0.12 90 120
630 (F16PH)
182-185 SEKN
Ferritic Stainless
7 430 / 439 / 444 Annealed 0.06 0.16 150 210
Steel
186-188 SEKR
Martensitic Annealed 130 210
8 410 / 420 0.06 0.16
Stainless Steel Treated 90 150 189-191 SEKT
EN - GJL 200
140
Grey Cast Iron 9 EN - GJL 250 192-195 SPKN
to 230
EN - GJL 300 For Cast Iron please use
EN - GJS 400 210 GNTX insert.
196-198 SPKR
Nodular Cast Iron 10 EN - GJS 600 260
EN - GJS 800 310 199-200 SPMT
Inconel 625
Nickel Based Alloys 11 Inconel 718 -------- 0.06 0.12 25 65 201-203 SPUN
Hastelloy C
Titanium Based TiAl 6 V4 204-207 TPKN
12 -------- 0.06 0.12 28 60
Alloys T40
*For all material types and standards, see pages 240 to 245.

Insert designation Parting Grooving Side Turning Chamfering

Multi-Mat® 208-211 TPKR

GCTX 5003 NN Milling Inserts 212-214 TPUN

1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4
Pages 138 to 226 215-219 Alu-Line
®

220-226 Drilling

136 137
 ADKT

ADKT Shape ADKT 1505 PDTR & Milling

Milling bodies
bodies

/ADLX A Rectangular 85º ADLX 1505 PDTR

Catalog Nr. Description D d L H Ap z
Clearance Angle
M2001613 LT 790 W-W-D25 25 25 100 44 15 2
D 15º
M2001503 LT 790 W-W-D32 32 32 110 50 15 3

Tolerance M2001614 LT 790 W-W-D40 40 32 115 45 15 4

K/L l ± 0.05 m ± 0.013

s ± 0.025
Screw set: VT 40 Key set: CT 15

Milling Insert Type

T/X Screw down clamping

no chip breaker

Insert Designation Grade l s P D Direction Catalog Nr. Page*

ADKT 1505 PDTR LT 30 15 5,56 90º 15º Right M0001573 140

* ADLX 1505 PDTR LT 30 15 5,56 90º 15º Right M0001573 140

Catalog Nr. Description D d H Ap z
* For Cutting data see
Surfacing Insert Lead angle 90° relevant page
M2001615 LT 790 M-W-D40 40 16 40 15 4
* To be phaseed out Q1/2009, and replace by ADKT. M2001504 LT 790 M-W-D50 50 22 40 15 5
M2001616 LT 790 M-W-D63 63 22 40 15 6
M2001617 LT 790 M-W-D80 80 27 50 15 7
M2001618 LT 790 M-W-D100 100 32 50 15 8
Application Guide M2001619 LT 790 M-W-D125 125 40 63 15 9
W = With coolant Screw set: VT 50 Key set: CT 15
Slotting Shoulder Milling Surfacing

Swiss
Made Machining Recommendations Guide - please see page 6
138 139
ADKT 1505 PDTR & Cutting
Cutting Conditions
Conditions APKT Shape APKT

ADLX 1505 PDTR

Material Group
Group
Material Examples*
Brinell d.o.c [mm] feed [mm/tooth] Vc [m/min]
A Rectangular 85º

No hardness min max min max min max Clearance Angle

Low Carbon Steel 1

Ck 15
9SMnPb28
150
180
210
0.5
14.0
14.0
14.0
0.18
0.32
0.32
0.32
180
300
260
220
P 11º

Tolerance
180 14.0 0.25 200

K
42 CrMo 4 0.5 0.15 130 l ± 0.05 m ± 0.013
230 14.0 0.25 180
Alloy Steel 2 100 Cr 6 s ± 0.025
280 14.0 0.22 160

Milling
32 NiCrMo 14.5 0.5 0.15 100
320 14.0 0.22 140 Insert Type
220 10.0 130

T
0.22 Screw down clamping
X38 CrMoV 5 0.5 0.12 90
280 10.0 0.22 110 Chip breaker
High Alloy Steel 3 X210 CrW 12
320 10.0 0.18 95
X90 CrMoV 8 0.5 0.12 60
350 10.0 0.18 80

4
303 / 304 210
0.5 14.0 0.15 0.25 170 270 Insert Designation Grade l s P/r D Direction Catalog Nr. Page*
304 L to 250
Austenitic
5 316 / 316 L
230
0.5 14.0 0.12 0.22 120 210 APKT 1604 PDTR LT 30 16 4,76 90º 15º Right M0000021 144
Stainless Steel to 270
APKT 160424 PDTR LT 30 16 4,76 2,4 15º Right M0000300 144
316 Ti
6 -------- 0.5 10.0 0.12 0.18 70 120
630 (F16PH)
* APKT 160432 PDTR LT 30 16 4,76 3,2 15º Right M0001569 145
Ferritic Stainless
Steel
7 430 / 439 / 444 Annealed 0.5 14.0 0.15 0.25 150 230 * APKT 160440 PDTR LT 30 16 4,76 4,0 15º Right M0000674 145

Martensitic Annealed 0.5 14.0 0.15 0.25 130 210

8 410 / 420 * For Cutting data see
Stainless Steel Treated 0.5 14.0 0.15 0.20 90 150 Surfacing Insert Lead angle 90° relevant page
EN - GJL 200 240
140
Grey Cast Iron 9 EN - GJL 250
to 230
0.5 14.0 0.18 0.32 150 220 * In develepment - expected on Q1/2009.
EN - GJL 300 190
EN - GJS 400 210 200 Application Guide
Nodular Cast Iron 10 EN - GJS 600 260 0.5 14.0 0.15 0.28 100 160
EN - GJS 800 310 130
Inconel 625 25 35 Slotting Shoulder Milling Surfacing
Nickel Based Alloys 11 Inconel 718 -------- 0.5 10.0 0.12 0.18 28 38
Hastelloy C 40 65
Titanium Based TiAl 6 V4 0.20 35 60
12 -------- 0.5 10.0 0.12
Alloys T40 0.18 28 40
*For all material types and standards, see pages 240 to 245.

Swiss
Made Machining Recommendations Guide - please see page 6
140 141
APKT 1604 PDTR & Milling
Milling bodies
bodies APKT 160432 PDTR & Milling bodies APKT

APKT 160424 PDTR APKT 160440 PDTR

Catalog Nr. Description D d L H Ap z Catalog Nr. Description D d L H Ap z

M2000536 LT 730 W-W-D25 25 25 100 44 15 2 * M2001674 LT 735 W-W-D25 25 25 100 44 15 2

M2001478 LT 730 W-WL-D25 25 20 150 44 15 2 * M2001685 LT 735 W-WL-D25 25 20 150 44 15 2
M2000537 LT 730 W-W-D32 32 32 110 50 15 3 * M2001675 LT 735 W-W-D32 32 32 110 50 15 3
M2001479 LT 730 W-WL-D32 32 25 150 50 15 3 * M2001686 LT 735 W-WL-D32 32 25 150 50 15 3
M2000538 LT 730 W-W-D40 40 32 115 45 15 4 * M2001676 LT 735 W-W-D40 40 32 115 45 15 4
M2001480 LT 730 W-WL-D40 40 32 150 45 15 4 * M2001687 LT 735 W-WL-D40 40 32 150 45 15 4
W = With coolant Screw set: VT 40
Key set: CT 15
Screw set: VT 40 Key set: CT 15 Non stock item - On special request.
*

Catalog Nr. Description D d H Ap z Catalog Nr. Description D d H Ap z

M2000539 LT 730 M-W-D40 40 16 40 15 4 * M2001677 LT 735 M-W-D40 40 16 40 15 4

M2000540 LT 730 M-W-D50 50 22 40 15 5 * M2001678 LT 735 M-W-D50 50 22 40 15 5
M2000541 LT 730 M-W-D63 63 22 40 15 6 * M2001679 LT 735 M-W-D63 63 22 40 15 6
M2000542 LT 730 M-W-D80 80 27 50 15 7 * M2001680 LT 735 M-W-D80 80 27 50 15 7
M2000543 LT 730 M-W-D100 100 32 50 15 8 * M2001681 LT 735 M-W-D100 100 32 50 15 8
M2000544 LT 730 M-W-D125 125 40 63 15 9 * M2001682 LT 735 M-W-D125 125 40 63 15 9
M2000545 LT 730 M-W-D160 160 40 63 15 10 * M2001683 LT 735 M-W-D160 160 40 63 15 10

W = With coolant Screw set: VT 40 Key set: CT 15 W = With coolant Screw set: VT 40 Key set: CT 15
* Non stock item - On special request.

142 143
APKT 1604 PDTR & Cutting Conditions APKT 160432 PDTR & Cutting Conditions APKT

APKT 160424 PDTR APKT 160440 PDTR

Group Brinell d.o.c [mm] feed [mm/tooth] Vc [m/min] Group Brinell d.o.c [mm] feed [mm/tooth] Vc [m/min]
Material Group Material Examples* Material Group Material Examples*
No hardness No hardness min max min max min max
min max min max min max
150 15.0 0.32 300 150 15.0 0.32 300
Ck 15 Ck 15
Low Carbon Steel 1 180 0.5 15.0 0.18 0.32 180 260 Low Carbon Steel 1 180 0.5 15.0 0.18 0.32 180 260
9SMnPb28 9SMnPb28
210 15.0 0.32 220 210 15.0 0.32 220
180 15.0 0.25 200 180 15.0 0.25 200
42 CrMo 4 0.5 0.15 130 42 CrMo 4 0.5 0.15 130
230 15.0 0.25 180 230 15.0 0.25 180
Alloy Steel 2 100 Cr 6 Alloy Steel 2 100 Cr 6
280 15.0 0.22 160 280 15.0 0.22 160
32 NiCrMo 14.5 0.5 0.15 100 32 NiCrMo 14.5 0.5 0.15 100
320 15.0 0.22 140 320 15.0 0.22 140
220 12.0 0.22 130 220 12.0 0.22 130
X38 CrMoV 5 0.5 0.12 90 X38 CrMoV 5 0.5 0.12 90
280 12.0 0.22 110 280 12.0 0.22 110
High Alloy Steel 3 X210 CrW 12 High Alloy Steel 3 X210 CrW 12
320 12.0 0.18 95 320 12.0 0.18 95
X90 CrMoV 8 0.5 0.12 60 X90 CrMoV 8 0.5 0.12 60
350 12.0 0.18 80 350 12.0 0.18 80
303 / 304 210 303 / 304 210
4 0.5 15.0 0.15 0.25 170 270 4 0.5 15.0 0.15 0.25 170 270
304 L to 250 304 L to 250
Austenitic 230 Austenitic 230
5 316 / 316 L 0.5 15.0 0.12 0.22 120 210 5 316 / 316 L 0.5 15.0 0.12 0.22 160 210
Stainless Steel to 270 Stainless Steel to 270
316 Ti 316 Ti
6 -------- 0.5 12.0 0.12 0.18 70 120 6 -------- 0.5 12.0 0.12 0.18 70 120
630 (F16PH) 630 (F16PH)
Ferritic Stainless Ferritic Stainless
7 430 / 439 / 444 Annealed 0.5 15.0 0.15 0.25 150 230 7 430 / 439 / 444 Annealed 0.5 15.0 0.15 0.25 150 230
Steel Steel
Martensitic Annealed 0.5 15.0 0.15 0.25 130 210 Martensitic Annealed 0.5 15.0 0.15 0.25 130 210
8 410 / 420 8 410 / 420
Stainless Steel Treated 0.5 15.0 0.15 0.20 90 150 Stainless Steel Treated 0.5 15.0 0.15 0.20 90 150
EN - GJL 200 240 EN - GJL 200 240
140 140
Grey Cast Iron 9 EN - GJL 250 0.5 15.0 0.18 0.32 150 220 Grey Cast Iron 9 EN - GJL 250 0.5 15.0 0.18 0.32 150 220
to 230 to 230
EN - GJL 300 190 EN - GJL 300 190
EN - GJS 400 210 200 EN - GJS 400 210 200
Nodular Cast Iron 10 EN - GJS 600 260 0.5 15.0 0.15 0.28 100 160 Nodular Cast Iron 10 EN - GJS 600 260 0.5 15.0 0.15 0.28 100 160
EN - GJS 800 310 130 EN - GJS 800 310 130
Inconel 625 25 35 Inconel 625 25 35
Nickel Based Alloys 11 Inconel 718 -------- 0.5 12.0 0.12 0.18 28 38 Nickel Based Alloys 11 Inconel 718 -------- 0.5 12.0 0.12 0.18 28 38
Hastelloy C 40 65 Hastelloy C 40 65
Titanium Based TiAl 6 V4 0.20 35 60 Titanium Based TiAl 6 V4 0.20 35 60
12 -------- 0.5 12.0 0.12 12 -------- 0.5 12.0 0.12
Alloys T40 0.18 28 40 Alloys T40 0.18 28 40
*For all material types and standards, see pages 240 to 245. *For all material types and standards, see pages 240 to 245.

® ®

144 145
APLX Shape APLX 1003 PDTR & Milling
Milling bodies
bodies

A Rectangular 85º APLX 100308 PDTR APLX

Clearance Angle Catalog Nr. Description D d L H Ap z

P
M2000518 LT 740 W-W-D10/1 10 16 80 24 9 1
11º
M2000530 LT 740 W-WL-D10 10 16 150 24 9 1
Tolerance M2000519 LT 740 W-W-D12/1 12 16 80 24 9 1

L
l ± 0.05 m ± 0.013 M2000531 LT 740 W-WL-D12 12 16 150 24 9 1
s ± 0.025 M2000520 LT 740 W-W-D14/1 14 16 80 24 9 1

Milling Insert Type M2000521 LT 740 W-W-D16/2 16 16 85 25 9 2

X
Screw down clamping M2000532 LT 740 W-WL-D16 16 16 150 24 9 2
no chip breaker M2000522 LT 740 W-W-D18/2 18 20 85 25 9 2
M2000523 LT 740 W-W-D20 20 20 90 25 9 3
Insert Designation Grade l s P/r D Direction Catalog Nr. Page* M2000533 LT 740 W-WL-D20 20 20 150 25 9 3
M2000524 LT 740 W-W-D22 22 25 95 25 9 3
APLX 1003 PDTR LT 30 10 3,18 90º 15º Right M0000454 149 M2000525 LT 740 W-W-D25/3 25 25 95 25 9 3
APLX 100308 PDTR LT 30 10 3,18 0,8 15º Right M0001151 149 M2000526 LT 740 W-W-D25 25 25 95 25 9 4
APLX 100332 PDTR LT 30 10 3,18 3,2 15º Right M0001566 150 M2000534 LT 740 W-WL-D25 25 20 150 25 9 4

APLX 100340 PDTR LT 30 10 3,18 4,0 15º Right M0001567 150 M2000527 LT 740 W-W-D28 28 25 95 25 9 4
M2000528 LT 740 W-W-D30 30 25 95 25 9 4
* For Cutting data see
Surfacing Insert Lead angle 90° relevant page M2000529 LT 740 W-W-D32 32 25 95 26 9 5
M2000535 LT 740 W-WL-D32 32 25 150 26 9 5

Application Guide

Slotting Shoulder Milling Surfacing

Catalog Nr. Description D d H Ap z

M2000514 LT 740 M-W-D40/6 40 22 40 9 6

M2000515 LT 740 M-W-D50/7 50 22 40 9 7
M2000516 LT 740 M-W-D63/8 63 22 40 9 8
M2000517 LT 740 M-W-D80/11 80 27 50 9 11

Swiss W = With coolant Screw set: VT 25 Key set: BT 08

Made Machining Recommendations Guide - please see page 6
146 147
APLX 100332 PDTR & Milling
Milling bodies
bodies APLX 1003 PDTR & Cutting Conditions
APLX 100340 PDTR APLX 100308 PDTR
APLX
Group Brinell d.o.c [mm] feed [mm/tooth] Vc [m/min]
Catalog Nr. Description D d L H Ap z Material Group Material Examples*
No hardness min max min max min max
* M2001584 LT 745 W-W-D10/1 10 16 80 24 9 1
Ck 15
150 9.0 0.38 300
Low Carbon Steel 1 180 0.5 9.0 0.10 0.25 180 260
* M2001596 LT 745 W-WL-D10 10 16 150 24 9 1
9SMnPb28
210 9.0 0.23 220
* M2001585 LT 745 W-W-D12/1 12 16 80 24 9 1
180 9.0 0.22 200
* M2001597 LT 745 W-WL-D12 12 16 150 24 9 1 42 CrMo 4 0.5 0.08 130
230 9.0 0.22 180
Alloy Steel 2 100 Cr 6
* M2001586 LT 745 W-W-D14/1 14 16 80 24 9 1
32 NiCrMo 14.5
280
0.5
9.0
0.08
0.18
100
160
* M2001587 LT 745 W-W-D16/2 16 16 85 25 9 2 320 9.0 0.18 140
220 7.0 0.18 130
* M2001598 LT 745 W-WL-D16 16 16 150 24 9 2 X38 CrMoV 5
280
0.5
7.0
0.08
0.18
90
110
* M2001588 LT 745 W-W-D18/2 18 20 85 25 9 2 High Alloy Steel 3 X210 CrW 12
320 7.0 0.16 95
X90 CrMoV 8 0.5 0.08 60
* M2001589 LT 745 W-W-D20 20 20 90 25 9 3 350 7.0 0.16 80
* M2001599 LT 745 W-WL-D20 20 20 150 25 9 3
4
303 / 304 210
0.5 9.0 0.10 0.22 170 270
304 L to 250
* M2001590 LT 745 W-W-D22 22 25 95 25 9 3
Austenitic 230
* M2001591 LT 745 W-W-D25/3 25 25 95 25 9 3 Stainless Steel
5 316 / 316 L
to 270
0.5 9.0 0.10 0.20 160 210

* M2001592 LT 745 W-W-D25 25 25 95 25 9 4 316 Ti

-------- 0.5 7.0 0.08 0.18 70 120
6 630 (F16PH)
* M2001600 LT 745 W-WL-D25 25 20 150 25 9 4
Ferritic Stainless
* M2001593 LT 745 W-W-D28 28 25 95 25 9 4
Steel
7 430 / 439 / 444 Annealed 0.5 9.0 0.08 0.20 150 230
* M2001594 LT 745 W-W-D30 30 25 95 25 9 4
Martensitic Annealed 0.5 9.0 0.08 0.20 130 210
8 410 / 420
* M2001595 LT 745 W-W-D32 32 25 95 26 9 5 Stainless Steel Treated 0.5 9.0 0.08 0.20 90 150
* M2001601 LT 745 W-WL-D32 32 25 150 26 9 5 EN - GJL 200
140
240
Grey Cast Iron 9 EN - GJL 250 0.5 9.0 0.10 0.25 150 220
to 230
EN - GJL 300 190
EN - GJS 400 210 200
Nodular Cast Iron 10 EN - GJS 600 260 0.5 9.0 0.10 0.22 100 160
EN - GJS 800 310 130
Inconel 625 25 35
Nickel Based Alloys 11 Inconel 718 -------- 0.5 5.0 0.08 0.15 28 38
Hastelloy C 40 65
Titanium Based TiAl 6 V4 0.18 35 60
Catalog Nr. Description D d H Ap z 12 -------- 0.5 5.0 0.08
Alloys T40 0.15 28 40

* M2001580 LT 745 M-W-D40/6 40 22 40 9 6 *For all material types and standards, see pages 240 to 245.

* M2001581 LT 745 M-W-D50/7 50 22 40 9 7

* M2001582 LT 745 M-W-D63/8 63 22 40 9 8
®
* M2001583 LT 745 M-W-D80/11 80 27 50 9 11
W = With coolant Screw set: VT 25 Key set: BT 08
* Non stock item - On special request.
148 149
APLX 100332 PDTR & Cutting Conditions APMT Shape

APLX 100340 PDTR

Group Brinell d.o.c [mm] feed [mm/tooth] Vc [m/min]
A Rectangular 85º

Material Group Material Examples*

No hardness min max min max min max Clearance Angle
APMT

Low Carbon Steel 1

Ck 15
9SMnPb28
150
180 0.5
9.0
9.0 0.10
0.38
0.25 180
300
260 P 11º

210 9.0 0.23 220 Tolerance

180 9.0 0.22 200

Alloy Steel 2
42 CrMo 4
100 Cr 6
230
280
0.5
9.0
9.0
0.08
0.22
0.18
130
180
160
M l ± 0.05 m ± 0.013
s ± 0.025

Milling
32 NiCrMo 14.5 0.5 0.08 100
320 9.0 0.18 140 Insert Type

T
220 7.0 0.18 130 Screw down clamping
X38 CrMoV 5 0.5 0.08 90
280 7.0 0.18 110 Chip breaker
High Alloy Steel 3 X210 CrW 12
320 7.0 0.16 95
X90 CrMoV 8 0.5 0.08 60
350 7.0 0.16 80

4
303 / 304 210
0.5 9.0 0.10 0.22 170 270 Insert Designation Grade l s P D Direction Catalog Nr. Page*
304 L to 250
Austenitic 230 APMT 0903 PDTR LT 30 9 3,18 90º 15º Right M0000663 153
5 316 / 316 L 0.5 9.0 0.10 0.20 160 210
Stainless Steel to 270
APMT 1135 PDTR LT 30 11 3,52 90º 15º Right M0001133 154
316 Ti
6 -------- 0.5 9.0 0.08 0.18 70 120
630 (F16PH) APMT 1604 PDTR LT 30 16 4,76 90º 15º Right M0001134 155
Ferritic Stainless
7 430 / 439 / 444 Annealed 0.5 9.0 0.08 0.20 150 230 * For Cutting data see
Steel Surfacing Insert Lead angle 90° relevant page
Martensitic Annealed 0.5 9.0 0.08 0.20 130 210
8 410 / 420
Stainless Steel Treated 0.5 9.0 0.08 0.20 90 150
EN - GJL 200 240
140
Grey Cast Iron 9 EN - GJL 250 0.5 9.0 0.10 0.25 150 220
to 230
EN - GJL 300 190
EN - GJS 400 210 200 Application Guide
Nodular Cast Iron 10 EN - GJS 600 260 0.5 9.0 0.10 0.22 100 160
EN - GJS 800 310 130
Slotting Shoulder Milling Surfacing
Inconel 625 25 35
Nickel Based Alloys 11 Inconel 718 -------- 0.5 5.0 0.08 0.15 28 38
Hastelloy C 40 65
Titanium Based TiAl 6 V4 0.18 35 60
12 -------- 0.5 5.0 0.08
Alloys T40 0.15 28 40
*For all material types and standards, see pages 240 to 245.

Swiss
Made Machining Recommendations Guide - please see page 6
150 151
APMT 1135 PDTR Milling
Milling bodies
bodies APMT 0903 PDTR Cutting
CuttingConditions
Conditions
Catalog Nr. Description D d L H Ap z
M2001652 LT 755 W-W-D10/1 10 16 100 25 9 1 Group Brinell d.o.c [mm] feed [mm/tooth] Vc [m/min]
Material Group Material Examples*
No hardness min max min max min max
M2001653 LT 755 W-W-D12/1 12 16 100 30 9 1 APMT

M2001654 LT 755 W-W-D16/2 16 16 120 30 9 2 150 8.5 0.25 300

Ck 15
Low Carbon Steel 1 180 0.5 8.5 0.10 0.25 180 260
M2001658 LT 755 W-WL-D16/2 16 16 160 30 9 2 9SMnPb28
210 8.5 0.25 220
M2001655 LT 755 W-W-D20/2 20 20 120 35 9 2 180 8.5 0.22 200
42 CrMo 4 0.5 0.08 130
M2001659 LT 755 W-WL-D20/2 20 20 150 35 9 2 230 8.5 0.22 180
Alloy Steel 2 100 Cr 6
M2001656 LT 755 W-W-D25/4 25 25 150 40 9 4 280 8.5 0.18 160
32 NiCrMo 14.5 0.5 0.08 100
320 8.5 0.18 140
M2001660 LT 755 W-WL-D25/4 25 25 200 40 9 4
220 7.0 0.18 130
M2001657 LT 755 W-W-D30/4 30 25 150 40 9 4 X38 CrMoV 5 0.5 0.08 90
280 7.0 0.18 110
High Alloy Steel 3 X210 CrW 12
M2001661 LT 755 W-WL-D30/4 30 25 200 40 9 4 320 7.0 0.16 95
X90 CrMoV 8 0.5 0.08 60
350 7.0 0.16 80
APMT 1604 PDTR 4
303 / 304 210 0.5 8.5 0.10 0.22 170 270
304 L to 250
Catalog Nr. Description D d L H Ap z
Austenitic 230
M2001662 LT 760 W-W-D25 25 25 150 50 15 2 5 316 / 316 L 0.5 8.5 0.10 0.20 160 210
Stainless Steel to 270
M2001665 LT 760 W-WL-D25 25 25 200 70 15 2 316 Ti
6 -------- 0.5 7.0 0.08 0.18 70 120
630 (F16PH)
M2001663 LT 760 W-W-D32 32 32 200 100 15 3
Ferritic Stainless
M2001666 LT 760 W-WL-D32 32 32 250 100 15 3 7 430 / 439 / 444 Annealed 0.5 8.5 0.08 0.22 150 230
Steel
M2001664 LT 760 W-W-D35 35 32 200 100 15 3 Martensitic Annealed 0.5 8.5 0.08 0.18 130 210
8 410 / 420
Stainless Steel Treated 0.5 8.5 0.08 0.18 90 150
M2001667 LT 760 W-W-D35 35 32 250 100 15 3
EN - GJL 200 240
140
Catalog Nr. Description D d H Ap z Grey Cast Iron 9 EN - GJL 250 0.5 8.5 0.10 0.28 150 220
to 230
EN - GJL 300 190
M2001668 LT 760 M-W-D50 50 22 40 15 5
EN - GJS 400 210 200
M2001669 LT 760 M-W-D63 63 22 40 15 6 Nodular Cast Iron 10 EN - GJS 600 260 0.5 8.5 0.10 0.25 100 160
M2001670 LT 760 M-W-D80 80 27 50 15 7 EN - GJS 800 310 130
Inconel 625 25 35
M2001671 LT 760 M-W-D100 100 32 50 15 8
Nickel Based Alloys 11 Inconel 718 -------- 0.5 5.0 0.08 0.15 28 38
M2001672 LT 760 M-W-D125 125 40 63 15 9 Hastelloy C 40 65
Titanium Based TiAl 6 V4 0.18 35 60
12 -------- 0.5 5.0 0.08
W = With coolant Screw set: VT 40 Key set: CT 15 Alloys T40 0.15 28 40
*For all material types and standards, see pages 240 to 245.

152 153
APMT 1135 PDTR Cutting Conditions APMT 1604 PDTR Cutting Conditions

Group Brinell d.o.c [mm] feed [mm/tooth] Vc [m/min] d.o.c [mm] feed [mm/tooth] Vc [m/min]
Material Group Material Examples* Group Brinell
No hardness Material Group Material Examples*
min max min max min max No hardness min max min max min max APMT
150 9.0 0.38 300 150 15.0 0.32 300
Ck 15 Ck 15
Low Carbon Steel 1 180 0.5 9.0 0.10 0.25 180 260 Low Carbon Steel 1 180 0.5 15.0 0.18 0.32 180 260
9SMnPb28 9SMnPb28
210 9.0 0.23 220 210 15.0 0.32 220
180 9.0 0.22 200 180 15.0 0.25 200
42 CrMo 4 0.5 0.08 130 42 CrMo 4 0.5 0.15 130
230 9.0 0.22 180 230 15.0 0.25 180
Alloy Steel 2 100 Cr 6 Alloy Steel 2 100 Cr 6
280 9.0 0.18 160 280 15.0 0.22 160
32 NiCrMo 14.5 0.5 0.08 100 32 NiCrMo 14.5 0.5 0.15 100
320 9.0 0.18 140 320 15.0 0.22 140
220 7.0 0.18 130 220 12.0 0.22 130
X38 CrMoV 5 0.5 0.08 90 X38 CrMoV 5 0.5 0.12 90
280 7.0 0.18 110 280 12.0 0.22 110
High Alloy Steel 3 X210 CrW 12 High Alloy Steel 3 X210 CrW 12
320 7.0 0.16 95 320 12.0 0.18 95
X90 CrMoV 8 0.5 0.08 60 X90 CrMoV 8 0.5 0.12 60
350 7.0 0.16 80 350 12.0 0.18 80
303 / 304 210 303 / 304 210
4 0.5 9.0 0.10 0.22 170 270 0.5 15.0 0.15 0.25 170 270
304 L to 250 4 304 L to 250
Austenitic 230 Austenitic 230
5 316 / 316 L 0.5 9.0 0.10 0.20 160 210 5 316 / 316 L 0.5 15.0 0.12 0.22 120 210
Stainless Steel to 270 Stainless Steel to 270
316 Ti 316 Ti
6 -------- 0.5 7.0 0.08 0.18 70 120 6 -------- 0.5 12.0 0.12 0.18 70 120
630 (F16PH) 630 (F16PH)
Ferritic Stainless Ferritic Stainless
7 430 / 439 / 444 Annealed 0.5 9.0 0.08 0.20 150 230 7 430 / 439 / 444 Annealed 0.5 15.0 0.15 0.25 150 230
Steel Steel
Martensitic Annealed 0.5 9.0 0.08 0.20 130 210 Martensitic Annealed 0.5 15.0 0.15 0.25 130 210
8 410 / 420 8 410 / 420
Stainless Steel Treated 0.5 9.0 0.08 0.20 90 150 Stainless Steel Treated 0.5 15.0 0.15 0.20 90 150
EN - GJL 200 240 EN - GJL 200 240
140 140
Grey Cast Iron 9 EN - GJL 250 0.5 9.0 0.10 0.25 150 220 Grey Cast Iron 9 EN - GJL 250 0.5 15.0 0.18 0.32 150 220
to 230 to 230
EN - GJL 300 190 EN - GJL 300 190
EN - GJS 400 210 200 EN - GJS 400 210 200
Nodular Cast Iron 10 EN - GJS 600 260 0.5 9.0 0.10 0.22 100 160 Nodular Cast Iron 10 EN - GJS 600 260 0.5 15.0 0.15 0.28 100 160
EN - GJS 800 310 130 EN - GJS 800 310 130
Inconel 625 25 35 Inconel 625 25 35
Nickel Based Alloys 11 Inconel 718 -------- 0.5 5.0 0.08 0.15 28 38 Nickel Based Alloys 11 Inconel 718 -------- 0.5 12.0 0.12 0.18 28 38
Hastelloy C 40 65 Hastelloy C 40 65
Titanium Based TiAl 6 V4 0.18 35 60 Titanium Based TiAl 6 V4 0.20 35 60
12 -------- 0.5 5.0 0.08 12 -------- 0.5 12.0 0.12
Alloys T40 0.15 28 40 Alloys T40 0.18 28 40
*For all material types and standards, see pages 240 to 245. *For all material types and standards, see pages 240 to 245.

® ®

154 155
ODMT Shape ODMT 060508 TN Milling bodies

O Octagonal 135 *Cutters only for ODMT 060508 TN

Catalog Nr. Description
D De L Ap H z
Clearance Angle
M2000711 LT 820 M-D80 80 90 27 4 50 5

D 15º M2000712
M2000713
LT 820 M-D100
LT 820 M-D125
100
125
110
135
32
40
4
4
50
63
6
7
ODMT

Tolerance
M2000714 LT 820 M-D160 160 170 40 4 63 9

M l ± 0.08 m ± 0.13
s ± 0.13 Screw set: C O6710 Key set: CT 15
Milling Insert Type

T Screw down clamping

Chip breaker

Insert Designation Grade l s r Direction Catalog Nr. Page*

ODMT 0504 ZZTR LT 30 5 4,76 0,8 Right M0000664 158

ODMT 060508 TN LT 30 6 5,56 0,8 Right M0001104 159

* For Cutting data see
Surfacing Insert Lead angle 45° relevant page

Application Guide

Surfacing Chamfering

Swiss
Made Machining Recommendations Guide - please see page 6
156 157
ODMT 0504 ZZTR Cutting Conditions ODMT 060508 TN Cutting Conditions

Group Brinell d.o.c [mm] feed [mm/tooth] Vc [m/min] Group Brinell d.o.c [mm] feed [mm/tooth] Vc [m/min]
Material Group Material Examples* Material Group Material Examples*
No hardness min max min max min max No hardness min max min max min max
150 3.5 0.52 350 150 4.0 0.52 350
Ck 15 Ck 15
Low Carbon Steel 1 180 0.5 3.5 0.15 0.52 190 300 Low Carbon Steel 1 180 0.5 4.0 0.23 0.52 190 300 ODMT
9SMnPb28 9SMnPb28
210 3.5 0.52 260 210 4.0 0.52 260
180 3.5 0.48 240 180 4.0 0.48 240
42 CrMo 4 0.5 0.15 150 42 CrMo 4 0.5 0.20 150
230 3.5 0.48 210 230 4.0 0.48 210
Alloy Steel 2 100 Cr 6 Alloy Steel 2 100 Cr 6
280 3.5 0.40 190 280 4.0 0.45 190
32 NiCrMo 14.5 0.5 0.15 130 32 NiCrMo 14.5 0.5 0.20 130
320 3.5 0.40 170 320 4.0 0.45 170
220 3.5 0.42 150 220 4.0 0.42 150
X38 CrMoV 5 0.5 0.12 90 X38 CrMoV 5 0.5 0.15 90
280 3.5 0.42 130 280 4.0 0.42 130
High Alloy Steel 3 X210 CrW 12 High Alloy Steel 3 X210 CrW 12
320 3.5 0.38 110 320 4.0 0.38 110
X90 CrMoV 8 0.5 0.12 60 X90 CrMoV 8 0.5 0.15 60
350 3.5 0.38 90 350 4.0 0.38 90
303 / 304 210 303 / 304 210
4 0.5 3.5 0.12 0.35 170 250 4 0.5 4.0 0.18 0.35 170 250
304 L to 250 304 L to 250
Austenitic 230 Austenitic 230
5 316 / 316 L 0.5 3.5 0.12 0.32 150 210 5 316 / 316 L 0.5 4.0 0.18 0.32 160 210
Stainless Steel to 270 Stainless Steel to 270
316 Ti 316 Ti
6 -------- 0.5 3.5 0.12 0.28 70 150 6 -------- 0.5 4.0 0.15 0.28 70 150
630 (F16PH) 630 (F16PH)
Ferritic Stainless Ferritic Stainless
7 430 / 439 / 444 Annealed 0.5 3.5 0.12 0.35 150 210 7 430 / 439 / 444 Annealed 0.5 4.0 0.21 0.38 150 210
Steel Steel
Martensitic Annealed 0.5 3.5 0.12 0.35 150 230 Martensitic Annealed 0.5 4.0 0.21 0.38 150 230
8 410 / 420 8 410 / 420
Stainless Steel Treated 0.5 3.5 0.12 0.28 90 170 Stainless Steel Treated 0.5 4.0 0.21 0.32 90 170
EN - GJL 200 300 EN - GJL 200 300
140 140
Grey Cast Iron 9 EN - GJL 250 0.5 3.5 0.15 0.60 170 250 Grey Cast Iron 9 EN - GJL 250 0.5 4.0 0.22 0.50 170 250
to 230 to 230
EN - GJL 300 210 EN - GJL 300 210
EN - GJS 400 210 210 EN - GJS 400 210 210
Nodular Cast Iron 10 EN - GJS 600 260 0.5 3.5 0.12 0.50 120 170 Nodular Cast Iron 10 EN - GJS 600 260 0.5 4.0 0.18 0.45 120 170
EN - GJS 800 310 150 EN - GJS 800 310 150
Inconel 625 25 35 Inconel 625 25 35
Nickel Based Alloys 11 Inconel 718 -------- 0.5 3.5 0.12 0.32 28 40 Nickel Based Alloys 11 Inconel 718 -------- 0.5 4.0 0.16 0.32 28 40
Hastelloy C 40 60 Hastelloy C 40 60
Titanium Based TiAl 6 V4 0.35 35 60 Titanium Based TiAl 6 V4 0.32 35 60
12 -------- 0.5 3.5 0.12 12 -------- 0.5 4.0 0.18
Alloys T40 0.28 28 40 Alloys T40 0.28 28 40
*For all material types and standards, see pages 240 to 245. *For all material types and standards, see pages 240 to 245.

® ®

158 159
ODMW Shape ODMW 060508 TN Milling bodies

O Octagonal 135
Catalog Nr. Description
D De L Ap H z
Clearance Angle
M2000711 LT 820 M-D80 80 90 27 4 50 5

D 15º M2000712
M2000713
LT 820 M-D100
LT 820 M-D125
100
125
110
135
32
40
4
4
50
63
6
7
Tolerance
M2000714 LT 820 M-D160 160 170 40 4 63 9 ODMW

M l ± 0.08 m ± 0.13
s ± 0.13 Screw set: C O6710 Key set: CT 15

Milling Insert Type

W Screw down clamping

Insert Designation Grade l s r Direction Catalog Nr. Page*

ODMW 060508 TN LT 30 6 5,56 0,8 Right M0000451 162

* For Cutting data see

Surfacing Insert Lead angle 45° relevant page

Application Guide

Surfacing Chamfering

Swiss
Made Machining Recommendations Guide - please see page 6
160 161
ODMW 060508 TN Cutting Conditions
OFER Shape

Material Group
Group
Material Examples*
Brinell d.o.c [mm] feed [mm/tooth] Vc [m/min]
O Octagonal 135

No hardness min max min max min max Clearance Angle

Low Carbon Steel 1

Ck 15
9SMnPb28
150
180 0.5
4.0
4.0 0.28
0.52
0.52
0.52
190
350
300 F 25º

210 4.0 260

Tolerance
180 4.0 0.48 240

E
42 CrMo 4 0.5 0.25 150 l ± 0.025 m ± 0.025
230 4.0 0.48 210
Alloy Steel 2 100 Cr 6 s ± 0.025
280 4.0 0.42 190 OFER

Milling
32 NiCrMo 14.5 0.5 0.25 130
320 4.0 0.42 170 Insert Type
220 150

R
4.0 0.38
X38 CrMoV 5 0.5 0.23 90 Screw down clamping
280 4.0 0.38 130
High Alloy Steel 3 X210 CrW 12 with chip breaker
320 4.0 0.32 110
X90 CrMoV 8 0.5 0.23 60
350 4.0 0.32 90
303 / 304 210 Insert Designation Grade l s r Direction Catalog Nr. Page*
4
304 L to 250
Austenitic 230
5 316 / 316 L OFER 070405 TN LT 30 7 4,76 0,8 Right M0000033 165
Stainless Steel to 270
316 Ti
6 -------- ODMW inserts are not recommended for stainless steels
630 (F16PH) * For Cutting data see
Surfacing Insert Lead angle 43° relevant page
Ferritic Stainless
7 430 / 439 / 444 Annealed
Steel
Martensitic Annealed
8 410 / 420
Stainless Steel Treated
EN - GJL 200 300
140
Grey Cast Iron 9 EN - GJL 250 0.5 4.0 0.25 0.60 170 250
to 230
EN - GJL 300 210
EN - GJS 400 210 210 Application Guide
Nodular Cast Iron 10 EN - GJS 600 260 0.5 4.0 0.23 0.50 120 170
EN - GJS 800 310 150
Inconel 625 Surfacing Chamfering
Nickel Based Alloys 11 Inconel 718 --------
Hastelloy C ODMW inserts are not recommended for exotic materials
Titanium Based TiAl 6 V4
12 --------
Alloys T40
*For all material types and standards, see pages 240 to 245.

Swiss
Made Machining Recommendations Guide - please see page 6
162 163
OFER 070405 TN Milling bodies OFER 070405 TN Cutting Conditions

Catalog Nr. Description D De d H Ap z d.o.c [mm] feed [mm/tooth] Vc [m/min]

Material Group Group Material Examples* Brinell
M2000508 LT 880 M-W-D63 63 73 22 40 5 4 No hardness min max min max min max

M2000510 LT 880 M-W-D80 80 90 27 50 5 5 150 5.0 0.32 350

Ck 15
Low Carbon Steel 1 180 0.5 5.0 0.18 0.32 190 300
M2000511 LT 880 M-W-D100 100 110 32 50 5 6 9SMnPb28
210 5.0 0.32 260
M2000512 LT 880 M-W-D125 125 135 40 63 5 8 180 5.0 0.30 240
42 CrMo 4 0.5 0.15 150
M2000513 LT 880 M-W-D160 160 170 40 63 5 10 230 5.0 0.30 210
Alloy Steel 2 100 Cr 6
280 5.0 0.30 190 OFER
32 NiCrMo 14.5 0.5 0.15 130
W = With coolant Screw set: CVB 88 Key set: ET 4 320 5.0 0.30 170
220 5.0 0.25 150
X38 CrMoV 5 0.5 0.12 90
280 5.0 0.25 130
High Alloy Steel 3 X210 CrW 12
320 3.5 0.25 110
X90 CrMoV 8 0.5 0.12 60
350 3.5 0.25 90
303 / 304 210 0.5 5.0
4 0.18 0.32 170 250
304 L to 250
Austenitic 230
5 316 / 316 L 0.5 5.0 0.15 0.28 160 210
Stainless Steel to 270
316 Ti
6 -------- 0.5 3.5 0.12 0.25 70 150
630 (F16PH)
Ferritic Stainless
7 430 / 439 / 444 Annealed 0.5 5.0 0.12 0.32 150 210
Steel
Martensitic Annealed 0.5 5.0 0.12 0.32 150 230
8 410 / 420
Stainless Steel Treated 0.5 5.0 0.12 0.25 90 170
EN - GJL 200 300
140
Grey Cast Iron 9 EN - GJL 250 0.5 5.0 0.15 0.40 170 250
to 230
EN - GJL 300 210
EN - GJS 400 210 210
Nodular Cast Iron 10 EN - GJS 600 260 0.5 5.0 0.12 0.32 120 170
EN - GJS 800 310 150
Inconel 625 25 35
Nickel Based Alloys 11 Inconel 718 -------- 0.5 3.5 0.12 0.28 28 40
Hastelloy C 40 60
Titanium Based TiAl 6 V4 0.28 35 60
12 -------- 0.5 3.5 0.12
Alloys T40 0.28 28 40
*For all material types and standards, see pages 240 to 245.

164 165
OFMT Shape OFMT 05T305 TN Milling bodies

O Octagonal 135
Catalog Nr. Description D De d H Ap z
Clearance Angle M2000501 LT 800 M-W-D32 32 39 16 40 3,5 3

F 25º M2000502
M2000503
LT 800 M-W-D40
LT 800 M-W-D50
40
50
47 16
57 22
40
40
3,5
3,5
3
4
Tolerance M2000504 LT 800 M-W-D63 63 70 22 40 3,5 5

M l ± 0.05 m ± 0.013
s ± 0.025
M2000505 LT 800 M-W-D80 80 87 27 50 3,5 6

Milling
M2000506 LT 800 M-W-D100 100 107 32 50 3,5 7
Insert Type
M2000507 LT 800 M-W-D125 125 132 40 63 3,5 8

T
OFMT
Screw down clamping
Chip breaker
OFMT 050405 TR
Catalog Nr. Description D De d H Ap z
Insert Designation Grade l s r Direction Catalog Nr. Page*
M2001602 LT 805 M-W-D32 32 39 16 40 3,5 3
OFMT 05T305 TN LT 30 5 3,97 0,8 Right M0000591 168
M2001603 LT 805 M-W-D40 40 47 16 40 3,5 3
OFMT 050405 TR LT 30 5 4,76 0,8 Right M0000034 168
M2001604 LT 805 M-W-D50 50 57 22 40 3,5 4
OFMT 070405 TN LT 30 7 4,76 0,8 Right M0000592 169 M2001605 LT 805 M-W-D63 63 70 22 40 3,5 5
* For Cutting data see M2001607 LT 805 M-W-D80 80 87 27 50 3,5 6
Surfacing Insert Lead angle 43° relevant page
M2001608 LT 805 M-W-D100 100 107 32 50 3,5 7
M2001609 LT 805 M-W-D125 125 132 40 63 3,5 8

OFMT 070405 TN
Application Guide Catalog Nr. Description D De d H Ap z

M2000707 LT 810 M-D80 80 92 27 50 5 6

Surfacing Chamfering M2000708 LT 810 M-D100 100 112 32 50 5 7
M2000709 LT 810 M-D125 125 137 40 63 5 8

W = With coolant Screw set: C O6710 Key set: CT 15

Swiss
Made Machining Recommendations Guide - please see page 6
166 167
OFMT 05T305 TN & Cutting Conditions OFMT 070405 TN Cutting Conditions
OFMT 050405 TR
Group Brinell d.o.c [mm] feed [mm/tooth] Vc [m/min] Group Material Examples* Brinell d.o.c [mm] feed [mm/tooth] Vc [m/min]
Material Group Material Examples* Material Group
No hardness min max min max min max No hardness min max min max min max
150 3.5 0.48 350 150 4.5 0.48 350
Ck 15 Ck 15
Low Carbon Steel 1 180 0.5 3.5 0.23 0.48 190 300 Low Carbon Steel 1 180 0.5 4.5 0.23 0.48 190 300
9SMnPb28 9SMnPb28
210 3.5 0.48 260 210 4.5 0.48 260
180 3.5 0.42 240 180 4.0 0.42 240
42 CrMo 4 0.5 0.21 150 42 CrMo 4 0.5 0.28 150
230 3.5 0.42 210 230 4.0 0.42 210
Alloy Steel 2 100 Cr 6 Alloy Steel 2 100 Cr 6
280 3.5 0.35 190 280 4.0 0.35 190
32 NiCrMo 14.5 0.5 0.21 130 32 NiCrMo 14.5 0.5 0.28 130
320 3.5 0.35 170 320 4.0 0.35 170
220 3.5 0.32 150 220 3.5 0.32 150 OFMT
X38 CrMoV 5 0.5 0.18 90 X38 CrMoV 5 0.5 0.15 90
280 3.5 0.32 130 280 3.5 0.32 130
High Alloy Steel 3 X210 CrW 12 High Alloy Steel 3 X210 CrW 12
320 3.5 0.28 110 320 3.5 0.28 110
X90 CrMoV 8 0.5 0.18 60 X90 CrMoV 8 0.5 0.15 60
350 3.5 0.28 90 350 3.5 0.28 90
303 / 304 210 303 / 304 210
4 0.5 3.5 0.22 0.35 170 250 4 0.5 4.5 0.22 0.35 170 250
304 L to 250 304 L to 250
Austenitic 230 Austenitic 230
5 316 / 316 L 0.5 3.5 0.18 0.32 160 210 5 316 / 316 L 0.5 4.0 0.18 0.32 160 210
Stainless Steel to 270 Stainless Steel to 270
316 Ti 316 Ti
6 -------- 0.5 3.5 0.15 0.28 70 150 6 -------- 0.5 3.5 0.15 0.28 70 150
630 (F16PH) 630 (F16PH)
Ferritic Stainless Ferritic Stainless
7 430 / 439 / 444 Annealed 0.5 3.5 0.18 0.35 150 210 7 430 / 439 / 444 Annealed 0.5 4.5 0.18 0.35 150 210
Steel Steel
Martensitic Annealed 0.5 3.5 0.18 0.35 150 230 Martensitic Annealed 0.5 4.5 0.18 0.35 150 230
8 410 / 420 8 410 / 420
Stainless Steel Treated 0.5 3.5 0.18 0.28 90 170 Stainless Steel Treated 0.5 4.5 0.18 0.28 90 170
EN - GJL 200 300 EN - GJL 200 300
140 140
Grey Cast Iron 9 EN - GJL 250 0.5 3.5 0.20 0.50 170 250 Grey Cast Iron 9 EN - GJL 250 0.5 4.5 0.20 0.50 170 250
to 230 to 230
EN - GJL 300 210 EN - GJL 300 210
EN - GJS 400 210 210 EN - GJS 400 210 210
Nodular Cast Iron 10 EN - GJS 600 260 0.5 3.5 0.18 0.48 120 170 Nodular Cast Iron 10 EN - GJS 600 260 0.5 4.0 0.18 0.48 120 170
EN - GJS 800 310 150 EN - GJS 800 310 150
Inconel 625 25 35 Inconel 625 25 35
Nickel Based Alloys 11 Inconel 718 -------- 0.5 3.5 0.15 0.30 28 40 Nickel Based Alloys 11 Inconel 718 -------- 0.5 3.5 0.15 0.30 28 40
Hastelloy C 40 60 Hastelloy C 40 60
Titanium Based TiAl 6 V4 0.35 35 60 Titanium Based TiAl 6 V4 0.35 35 60
12 -------- 0.5 3.5 0.15 12 -------- 0.5 3.5 0.15
Alloys T40 0.28 28 40 Alloys T40 0.28 28 40
*For all material types and standards, see pages 240 to 245. *For all material types and standards, see pages 240 to 245.

® ®

168 169
RDMT Shape RDMT 0602 MO Milling bodies

R Round Catalog Nr. Description D H L Ap z

Clearance Angle M2000676 LT 060 W-W-D16 16 25 150 3 2

D
M2000677 LT 060 W-W-D20 20 60 180 3 3
15º
M2000678 LT 060 W-W-D25 25 80 180 3 3
Tolerance
RDMT 0803 MO
M l ± 0.05
s ± 0.13 Catalog Nr. Description D H L Ap z

Milling Insert Type M2000679 LT 080 W-W-D20 20 42 180 4 2

T Screw down clamping

chip breaker
M2000680
M2000681
LT 080 W-W-D25
LT 080 W-W-D32
25
32
60
80
180
180
4
4
3
3
RDMT

Insert Designation Grade d s r Direction Catalog Nr. Page* RDMT 10T3 MO

Catalog Nr. Description D H L Ap z
RDMT 0602 MO LT 30 6 2,38 3 Neutral M0000035 172
M2000683 LT 100 W-W-D20 20 80 180 5 2
RDMT 0803 MO LT 30 8 3,18 4 Neutral M0000037 173
M2000684 LT 100 W-W-D25 25 80 180 5 3
RDMT 10T3 MO LT 30 10 3,97 5 Neutral M0000038 174 M2000685 LT 100 W-W-D32 32 105 212 5 3
RDMT 1204 MO LT 30 12 4,76 6 Neutral M0000039 175
* For Cutting data see
relevant page
RDMT 1204 MO
Catalog Nr. Description D H L Ap z

M2000687 LT 120 W-W-D40 40 110 170 6 4

Application Guide

Surfacing Copying Mold-Milling

RDMT 1204 MO
Catalog Nr. Description D d H Ap z

M2000691 LT 120 M-W-D40 40 16 40 6 4

M2000689 LT 120 M-W-D63 63 27 40 6 5
M2000690 LT 120 M-W-D80 80 32 50 6 6
M2000688 LT 120 M-W-D100 100 40 50 6 7
Swiss
Made Machining Recommendations Guide - please see page 6 W = With coolant
170 171
RDMT 0602 MO Cutting Conditions RDMT 0803 MO Cutting Conditions

Group Brinell d.o.c [mm] feed [mm/tooth] Vc [m/min] Group Brinell d.o.c [mm] feed [mm/tooth] Vc [m/min]
Material Group Material Examples* Material Group Material Examples*
No hardness min max min max min max No hardness min max min max min max
150 2.0 0.40 350 150 3.0 0.50 350
Ck 15 Ck 15
Low Carbon Steel 1 180 0.5 2.0 0.18 0.35 190 300 Low Carbon Steel 1 180 0.5 2.5 0.20 0.47 190 300
9SMnPb28 9SMnPb28
210 1.5 0.32 260 210 1.5 0.43 260
180 2.0 0.40 240 180 3.0 0.45 240
42 CrMo 4 0.5 0.15 150 42 CrMo 4 0.5 0.18 150
230 2.0 0.32 210 230 2.5 0.40 210
Alloy Steel 2 100 Cr 6 Alloy Steel 2 100 Cr 6
280 2.0 0.30 190 280 2.0 0.37 190
32 NiCrMo 14.5 0.5 0.13 130 32 NiCrMo 14.5 0.5 0.15 130
320 1.5 0.25 170 320 1.5 0.35 170
220 2.0 0.32 150 220 2.0 0.40 150
X38 CrMoV 5 0.5 0.13 90 X38 CrMoV 5 0.5 0.13 90
280 2.0 0.30 130 280 2.0 0.37 130
High Alloy Steel 3 X210 CrW 12 High Alloy Steel 3 X210 CrW 12
320 1.5 0.27 110 320 1.5 0.35 110 RDMT
X90 CrMoV 8 0.5 0.13 60 X90 CrMoV 8 0.5 0.13 60
350 1.5 0.25 90 350 1.5 0.32 90
303 / 304 210 303 / 304 210
4 0.5 2.0 0.14 0.28 170 250 4 0.5 3.0 0.14 0.35 170 250
304 L to 250 304 L to 250
Austenitic 230 Austenitic 230
5 316 / 316 L 0.5 2.0 0.13 0.25 160 210 5 316 / 316 L 0.5 2.5 0.13 0.32 160 210
Stainless Steel to 270 Stainless Steel to 270
316 Ti 316 Ti
6 -------- 0.5 1.5 0.13 0.22 70 150 6 -------- 0.5 2.0 0.13 0.30 70 150
630 (F16PH) 630 (F16PH)
Ferritic Stainless Ferritic Stainless
7 430 / 439 / 444 Annealed 0.5 2.0 0.15 0.25 150 210 7 430 / 439 / 444 Annealed 0.5 2.5 0.15 0.30 150 210
Steel Steel
Martensitic Annealed 0.5 2.0 0.15 0.25 150 230 Martensitic Annealed 0.5 2.5 0.15 0.30 150 230
8 410 / 420 8 410 / 420
Stainless Steel Treated 0.5 2.0 0.15 0.25 90 170 Stainless Steel Treated 0.5 2.5 0.15 0.30 90 170
EN - GJL 200 300 EN - GJL 200 300
140 140
Grey Cast Iron 9 EN - GJL 250 0.5 2.0 0.11 0.45 170 250 Grey Cast Iron 9 EN - GJL 250 0.5 3.0 0.11 0.50 170 250
to 230 to 230
EN - GJL 300 210 EN - GJL 300 210
EN - GJS 400 210 210 EN - GJS 400 210 210
Nodular Cast Iron 10 EN - GJS 600 260 0.5 2.0 0.11 0.35 120 170 Nodular Cast Iron 10 EN - GJS 600 260 0.5 2.5 0.11 0.45 120 170
EN - GJS 800 310 150 EN - GJS 800 310 150
Inconel 625 25 35 Inconel 625 25 35
Nickel Based Alloys 11 Inconel 718 -------- 0.5 1.5 0.13 0.23 28 40 Nickel Based Alloys 11 Inconel 718 -------- 0.5 2.0 0.13 0.27 28 40
Hastelloy C 40 60 Hastelloy C 40 60
Titanium Based TiAl 6 V4 0.25 35 60 Titanium Based TiAl 6 V4 0.32 35 60
12 -------- 0.5 1.5 0.13 12 -------- 0.5 2.0 0.13
Alloys T40 0.18 28 40 Alloys T40 0.25 28 40
*For all material types and standards, see pages 240 to 245. *For all material types and standards, see pages 240 to 245.

® ®

172 173
RDMT 10T3 MO Cutting Conditions RDMT 1204 MO Cutting Conditions

Group Brinell d.o.c [mm] feed [mm/tooth] Vc [m/min] Group Brinell d.o.c [mm] feed [mm/tooth] Vc [m/min]
Material Group Material Examples* Material Group Material Examples*
No hardness min max min max min max No hardness min max min max min max
150 3.0 0.58 350 150 4.0 0.70 350
Ck 15 Ck 15
Low Carbon Steel 1 180 0.5 2.5 0.23 0.52 190 300 Low Carbon Steel 1 180 0.5 3.5 0.27 0.65 190 300
9SMnPb28 9SMnPb28
210 2.0 0.45 260 210 3.0 0.50 260
180 3.0 0.52 240 180 4.0 0.65 240
42 CrMo 4 0.5 0.21 150 42 CrMo 4 0.5 0.25 150
230 2.5 0.47 210 230 3.5 0.57 210
Alloy Steel 2 100 Cr 6 Alloy Steel 2 100 Cr 6
280 2.0 0.43 190 280 3.0 0.52 190
32 NiCrMo 14.5 0.5 0.20 130 32 NiCrMo 14.5 0.5 0.23 130
320 2.0 0.40 170 320 3.0 0.50 170
220 2.5 0.47 150 220 3.5 0.57 150
X38 CrMoV 5 0.5 0.17 90 X38 CrMoV 5 0.5 0.20 90
280 2.5 0.43 130 280 3.0 0.52 130
High Alloy Steel 3 X210 CrW 12 High Alloy Steel 3 X210 CrW 12
320 2.0 0.40 110 320 2.5 0.50 110 RDMT
X90 CrMoV 8 0.5 0.17 60 X90 CrMoV 8 0.5 0.20 60
350 2.0 0.38 90 350 2.5 0.47 90
303 / 304 210 303 / 304 210
4 0.5 3.0 0.17 0.38 170 250 4 0.5 3.5 0.20 0.45 170 250
304 L to 250 304 L to 250
Austenitic 230 Austenitic 230
5 316 / 316 L 0.5 2.5 0.15 0.35 160 210 5 316 / 316 L 0.5 3.0 0.17 0.40 160 210
Stainless Steel to 270 Stainless Steel to 270
316 Ti 316 Ti
6 -------- 0.5 2.0 0.13 0.32 70 150 6 -------- 0.5 2.5 0.15 0.37 70 150
630 (F16PH) 630 (F16PH)
Ferritic Stainless Ferritic Stainless
7 430 / 439 / 444 Annealed 0.5 2.5 0.15 0.35 150 210 7 430 / 439 / 444 Annealed 0.5 3.0 0.17 0.40 150 210
Steel Steel
Martensitic Annealed 0.5 2.5 0.15 0.35 150 230 Martensitic Annealed 0.5 3.0 0.17 0.40 150 230
8 410 / 420 8 410 / 420
Stainless Steel Treated 0.5 2.5 0.15 0.35 90 170 Stainless Steel Treated 0.5 3.0 0.17 0.40 90 170
EN - GJL 200 300 EN - GJL 200 300
140 140
Grey Cast Iron 9 EN - GJL 250 0.5 3.0 0.18 0.60 170 250 Grey Cast Iron 9 EN - GJL 250 0.5 4.0 0.20 0.80 170 250
to 230 to 230
EN - GJL 300 210 EN - GJL 300 210
EN - GJS 400 210 210 EN - GJS 400 210 210
Nodular Cast Iron 10 EN - GJS 600 260 0.5 2.5 0.18 0.50 120 170 Nodular Cast Iron 10 EN - GJS 600 260 0.5 3.0 0.20 0.60 120 170
EN - GJS 800 310 150 EN - GJS 800 310 150
Inconel 625 25 35 Inconel 625 25 35
Nickel Based Alloys 11 Inconel 718 -------- 0.5 2.0 0.15 0.32 28 40 Nickel Based Alloys 11 Inconel 718 -------- 0.5 2.5 0.17 0.35 28 40
Hastelloy C 40 60 Hastelloy C 40 60
Titanium Based TiAl 6 V4 0.35 35 60 Titanium Based TiAl 6 V4 0.38 35 60
12 -------- 0.5 2.0 0.17 12 -------- 0.5 2.5 0.20
Alloys T40 0.27 28 40 Alloys T40 0.30 28 40
*For all material types and standards, see pages 240 to 245. *For all material types and standards, see pages 240 to 245.

® ®

174 175
RDMW Shape RDMW 10T3 MO Milling bodies

R Round
Catalog Nr. Description D H L Ap z
Clearance Angle M2000683 LT 100 W-W-D20 20 80 180 5 2

D 15º M2000684
M2000685
LT 100 W-W-D25
LT 100 W-W-D32
25
32
80
105
180
212
5
5
3
3
Tolerance

M l ± 0.05
s ± 0.13

Milling Insert Type

W Screw down clamping

no chip breaker

Insert Designation Grade d s r Direction Catalog Nr. Page* RDMW

RDMW 10T3 MO LT 30 10 3,97 5 Neutral M0001550 178

* For Cutting data see

relevant page

Application Guide

Surfacing Copying Mold-Milling

Swiss
Made Machining Recommendations Guide - please see page 6
176 177
RDMW 10T3 MO Cutting Conditions SDKT Shape

Material Group
Group
Material Examples*
Brinell d.o.c [mm] feed [mm/tooth] Vc [m/min]
S Square 90°

No hardness min max min max min max Clearance Angle

Low Carbon Steel 1

Ck 15
9SMnPb28
150
180
210
0.5
3.0
2.5
2.0
0.23
0.58
0.52
0.45
190
350
300
260
D 15º

Tolerance
180 3.0 0.52 240

K
42 CrMo 4 0.5 0.21 150 l ± 0.08 m ± 0.013
230 2.5 0.47 210
Alloy Steel 2 100 Cr 6 s ± 0.025
280 2.0 0.43 190

Milling
32 NiCrMo 14.5 0.5 0.20 130
320 2.0 0.40 170 Insert Type
220 2.5 150

T
0.47
X38 CrMoV 5 0.5 0.17 90 Screw down clamping
280 2.5 0.43 130
High Alloy Steel 3 X210 CrW 12 chip breaker
320 2.0 0.40 110
X90 CrMoV 8 0.5 0.17 60
350 2.0 0.38 90
303 / 304 210
4 0.5 3.0 0.17 0.38 170 250 Insert Designation Grade l s A E Direction Catalog Nr. Page*
304 L to 250
Austenitic 230 SDKT
5 316 / 316 L 0.5 2.5 0.15 0.35 160 210 SDKT 1204 AETN LT 30 12 4,76 45º 20º Neutral M0000171 181
Stainless Steel to 270
316 Ti
6 -------- 0.5 2.0 0.13 0.32 70 150
630 (F16PH) * For Cutting data see
Surfacing Insert Lead angle 45° relevant page
Ferritic Stainless
7 430 / 439 / 444 Annealed 0.5 2.5 0.15 0.35 150 210
Steel
Martensitic Annealed 0.5 2.5 0.15 0.35 150 230
8 410 / 420
Stainless Steel Treated 0.5 2.5 0.15 0.35 90 170
EN - GJL 200 300
140
Grey Cast Iron 9 EN - GJL 250 0.5 3.0 0.18 0.60 170 250
to 230
EN - GJL 300 210
EN - GJS 400 210 210 Application Guide
Nodular Cast Iron 10 EN - GJS 600 260 0.5 2.5 0.18 0.50 120 170
EN - GJS 800 310 150
Inconel 625 25 35 Surfacing Chamfering
Nickel Based Alloys 11 Inconel 718 -------- 0.5 2.0 0.15 0.32 28 40
Hastelloy C 40 60
Titanium Based TiAl 6 V4 0.35 35 60
12 -------- 0.5 2.0 0.17
Alloys T40 0.27 28 40
*For all material types and standards, see pages 240 to 245.

Swiss
Made Machining Recommendations Guide - please see page 6
178 179
SDKT 1204 AETN Milling bodies SDKT 1204 AETN Cutting Conditions

Catalog Nr. Description D de d H Ap z d.o.c [mm] feed [mm/tooth] Vc [m/min]

Material Group Group Material Examples* Brinell
M2000553 LT 670 M-W-D50 50 63 22 48 6 4 No hardness min max min max min max

M2000555 LT 670 M-W-D63 63 76 22 48 6 5 150 6.0 0.48 350

Ck 15
Low Carbon Steel 1 180 0.5 6.0 0.18 0.48 190 300
M2000556 LT 670 M-W-D80 80 93 27 50 6 6 9SMnPb28
210 6.0 0.48 260
M2000557 LT 670 M-W-D100 100 113 32 55 6 6 180 6.0 0.45 240
42 CrMo 4 0.5 0.15 150
M2000558 LT 670 M-W-D125 125 138 40 63 6 7 230 6.0 0.45 210
Alloy Steel 2 100 Cr 6
280 6.0 0.40 190
M2000559 LT 670 M-W-D160 160 173 40 63 6 8 32 NiCrMo 14.5 0.5 0.15 130
320 6.0 0.40 170
W = With coolant Screw set: VT 45 P Key set: CT 20 220 5.0 0.42 150
X38 CrMoV 5 0.5 0.12 90
280 5.0 0.42 130
High Alloy Steel 3 X210 CrW 12
320 5.0 0.38 110
X90 CrMoV 8 0.5 0.12 60
350 5.0 0.38 90
303 / 304 210
4 0.5 6.0 0.18 0.35 170 250
304 L to 250
Austenitic 230 SDKT
5 316 / 316 L 0.5 5.0 0.15 0.32 160 210
Stainless Steel to 270
316 Ti
6 -------- 0.5 4.0 0.12 0.28 70 150
630 (F16PH)
Ferritic Stainless
7 430 / 439 / 444 Annealed 0.5 6.0 0.18 0.35 150 210
Steel
Martensitic Annealed 0.5 6.0 0.15 0.35 150 230
8 410 / 420
Stainless Steel Treated 0.5 6.0 0.15 0.28 90 170
EN - GJL 200 300
140
Grey Cast Iron 9 EN - GJL 250 0.5 6.0 0.18 0.48 170 250
to 230
EN - GJL 300 210
EN - GJS 400 210 210
Nodular Cast Iron 10 EN - GJS 600 260 0.5 6.0 0.15 0.42 120 170
EN - GJS 800 310 150
Inconel 625 25 35
Nickel Based Alloys 11 Inconel 718 -------- 0.5 4.0 0.15 0.28 28 40
Hastelloy C 40 60
Titanium Based TiAl 6 V4 0.32 35 60
12 -------- 0.5 4.0 0.18
Alloys T40 0.28 28 40
*For all material types and standards, see pages 240 to 245.

180 181
SEKN Shape SEKN 1203 AFTN Milling bodies

S SEKN 1204 AFTN

90°
Square 90° - on special request
Catalog Nr. Description D De d H Ap z
Clearance Angle
M2000563 LT 550 M-D50 50 63 22 48 6 4
E 20°
M2000564 LT 550 M-D63 63 76 22 48 6 5

Tolerance M2000565 LT 550 M-D80 80 93 27 50 6 6

K l ± 0.08 m ± 0.013 M2000566 LT 550 M-D100 100 113 32 50 6 6

s ± 0.025 M2000567 LT 550 M-D125 125 138 40 63 6 7

Milling Insert Type M2000568 LT 550 M-D160 160 173 40 63 6 7

N Clamping
no chip breaker
M2000569
M2000570
LT 550 M-D200 200 213
LT 550 M-D250 250 263
60
60
63
63
6
6
10
13

Screw set: CVB 55 Key set: ET 4

Insert Designation Grade l s A F Direction Catalog Nr. Page*

SEKN 1203 AFTN LT 30 12 3,18 45º 25º Neutral M0000041 184

SEKN 1204 AFTN LT 30 12 4,76 45º 25º Neutral M0000042 184
SEKN
SEKN 1504 AFTN LT 30 15 4,76 45º 25º Neutral M0000450 185
* For Cutting data see
Surfacing Insert Lead angle 45° relevant page

Application Guide

Surfacing Chamfering

Swiss
Made Machining Recommendations Guide - please see page 6
182 183
SEKN 1203 AFTN Cutting Conditions SEKN 1504 AFTN Cutting Conditions
SEKN 1204 AFTN
Group Material Examples* Brinell d.o.c [mm] feed [mm/tooth] Vc [m/min] Group Brinell d.o.c [mm] feed [mm/tooth] Vc [m/min]
Material Group Material Group Material Examples*
No hardness min max min max min max No hardness min max min max min max
150 350 150 9.0 0.52 350
Ck 15 Ck 15
Low Carbon Steel 1 180 0.50 7.00 0.15 0.32 190 300 Low Carbon Steel 1 180 0.5 9.0 0.25 0.52 190 300
9SMnPb28 9SMnPb28
210 260 210 9.0 0.52 260
180 240 180 9.0 0.48 240
42 CrMo 4 150 42 CrMo 4 0.5 0.23 150
230 210 230 9.0 0.48 210
Alloy Steel 2 100 Cr 6 0.50 7.00 0.15 0.30 Alloy Steel 2 100 Cr 6
280 190 280 9.0 0.45 190
32 NiCrMo 14.5 130 32 NiCrMo 14.5 0.5 0.23 130
320 170 320 9.0 0.45 170
220 150 220 7.0 0.42 150
X38 CrMoV 5 90 X38 CrMoV 5 0.5 0.18 90
280 130 280 7.0 0.42 130
High Alloy Steel 3 X210 CrW 12 0.50 7.00 0.12 0.25 High Alloy Steel 3 X210 CrW 12
320 110 320 7.0 0.38 110
X90 CrMoV 8 60 X90 CrMoV 8 0.5 0.18 60
350 90 350 7.0 0.38 90
303 / 304 210 303 / 304 210
4 0.12 0.32 170 250 4 0.5 9.0 0.25 0.35 170 250
304 L to 250 304 L to 250
Austenitic 230 Austenitic 230
5 316 / 316 L 0.50 5.00 0.12 0.28 170 210 5 316 / 316 L 0.5 7.0 0.23 0.32 160 210
Stainless Steel to 270 Stainless Steel to 270
316 Ti 316 Ti SEKN
6 -------- 0.12 0.25 80 130 6 -------- 0.5 5.0 0.18 0.28 70 150
630 (F16PH) 630 (F16PH)
Ferritic Stainless Ferritic Stainless
7 430 / 439 / 444 Annealed 0.50 7.00 0.12 0.32 150 210 7 430 / 439 / 444 Annealed 0.5 9.0 0.23 0.38 150 210
Steel Steel
Martensitic Annealed 150 230 Martensitic Annealed 0.5 9.0 0.18 0.38 150 230
8 410 / 420 0.50 7.00 0.12 0.32 8 410 / 420
Stainless Steel Treated 90 170 Stainless Steel Treated 0.5 9.0 0.18 0.32 90 170
EN - GJL 200 300 EN - GJL 200 300
140 140
Grey Cast Iron 9 EN - GJL 250 0.50 7.00 0.15 0.40 170 250 Grey Cast Iron 9 EN - GJL 250 0.5 9.0 0.25 0.60 170 250
to 230 to 230
EN - GJL 300 210 EN - GJL 300 210
EN - GJS 400 210 210 EN - GJS 400 210 210
Nodular Cast Iron 10 EN - GJS 600 260 0.50 7.00 0.12 0.32 120 170 Nodular Cast Iron 10 EN - GJS 600 260 0.5 9.0 0.18 0.50 120 170
EN - GJS 800 310 150 EN - GJS 800 310 150
Inconel 625 35 Inconel 625 25 35
Nickel Based Alloys 11 Inconel 718 -------- 0.50 5.00 0.12 0.28 25 40 Nickel Based Alloys 11 Inconel 718 -------- 0.5 5.0 0.18 0.32 28 40
Hastelloy C 65 Hastelloy C 40 60
Titanium Based TiAl 6 V4 35 60 Titanium Based TiAl 6 V4 0.32 35 60
12 -------- 0.50 5.00 0.12 0.28 12 -------- 0.5 5.0 0.18
Alloys T40 28 40 Alloys T40 0.28 28 40
*For all material types and standards, see pages 240 to 245. *For all material types and standards, see pages 240 to 245.

® ®

184 185
SEKR Shape SEKR 1203 AFTN Milling bodies

S SEKR 1204 AFTN

90°
Square 90° - on special request
Catalog Nr. Description D De d H Ap z
Clearance Angle
M2000563 LT 550 M-D50 50 63 22 48 6 4
E 20°
M2000564 LT 550 M-D63 63 76 22 48 6 5

Tolerance M2000565 LT 550 M-D80 80 93 27 50 6 6

K l ± 0.08 m ± 0.013 M2000566 LT 550 M-D100 100 113 32 50 6 6

s ± 0.025 M2000567 LT 550 M-D125 125 138 40 63 6 7

Milling Insert Type M2000568 LT 550 M-D160 160 173 40 63 6 7

R Clamping
chip breaker
M2000569
M2000570
LT 550 M-D200 200 213
LT 550 M-D250 250 263
60
60
63
63
6
6
10
13

Screw set: CVB 55 Key set: ET 4

Insert Designation Grade l s A F Direction Catalog Nr. Page*

SEKR 1203 AFTN LT 30 12 3,18 45º 25º Neutral M0000043 188

SEKR 1204 AFTN LT 30 12 4,76 45º 25º Neutral M0000044 188
* For Cutting data see
Surfacing Insert Lead angle 45° relevant page
SEKR

Application Guide

Surfacing Chamfering

Swiss
Made Machining Recommendations Guide - please see page 6
186 187
SEKR 1203 AFTN Cutting Conditions
SEKT Shape
SEKR 1204 AFTN
S
90°
Square 90°
Group Brinell d.o.c [mm] feed [mm/tooth] Vc [m/min]
Material Group Material Examples*
No hardness min max min max min max Clearance Angle

Low Carbon Steel 1

Ck 15
9SMnPb28
150
180 0.5
6.0
6.0 0.18
0.32
0.32 190
350
300 E 20°

210 6.0 0.32 260

Tolerance
180 6.0 0.30 240

K
42 CrMo 4 0.5 0.15 150 l ± 0.08 m ± 0.013
230 6.0 0.30 210
Alloy Steel 2 100 Cr 6 s ± 0.025
280 6.0 0.30 190

Milling
32 NiCrMo 14.5 0.5 0.15 130
320 6.0 0.30 170 Insert Type

T
220 5.0 0.25 150
X38 CrMoV 5 0.5 0.12 90 Screw down clamping
280 5.0 0.25 130 chip breaker
High Alloy Steel 3 X210 CrW 12
320 5.0 0.25 110
X90 CrMoV 8 0.5 0.12 60
350 5.0 0.25 90
303 / 304 210 Insert Designation Grade l s A F Direction Catalog Nr. Page*
4 0.5 6.0 0.18 0.32 170 250
304 L to 250
Austenitic 230 SEKT 12T3 AGSN LT 30 12 3,97 45º 30º Neutral M0000455 191
5 316 / 316 L 0.5 5.0 0.15 0.28 160 210
Stainless Steel to 270
316 Ti
SEKT 1204 AFTN LT 30 12 4,76 45º 25º Neutral M0000045 191
6 -------- 0.5 4.0 0.12 0.25 70 150
630 (F16PH) * For Cutting data see
Surfacing Insert Lead angle 45° relevant page
Ferritic Stainless
7 430 / 439 / 444 Annealed 0.5 6.0 0.18 0.32 150 210
Steel
Martensitic Annealed 0.5 6.0 0.12 0.32 150 230 SEKT
8 410 / 420
Stainless Steel Treated 0.5 6.0 0.12 0.23 90 170
EN - GJL 200 300
140
Grey Cast Iron 9 EN - GJL 250 0.5 6.0 0.15 0.32 170 250
to 230
EN - GJL 300 210
EN - GJS 400 210 210 Application Guide
Nodular Cast Iron 10 EN - GJS 600 260 0.5 6.0 0.12 0.28 120 170
EN - GJS 800 310 150
Inconel 625 25 35 Surfacing Chamfering
Nickel Based Alloys 11 Inconel 718 -------- 0.5 4.0 0.12 0.23 28 40
Hastelloy C 40 60
Titanium Based TiAl 6 V4 0.28 35 60
12 -------- 0.5 4.0 0.12
Alloys T40 0.28 28 40
*For all material types and standards, see pages 240 to 245.

Swiss
Made Machining Recommendations Guide - please see page 6
188 189
SEKT 1204 AFTN Milling bodies SEKT 12T3 AGSN Cutting Conditions
SEKT 1204 AFTN
Catalog Nr. Description D De d H Ap z Group Brinell d.o.c [mm] feed [mm/tooth] Vc [m/min]
Material Group Material Examples*
No hardness min max min max min max
M2000546 LT 600 M-W-D40 40 53 16 40 6 3
M2000547 LT 600 M-W-D50 50 63 22 48 6 4 150 6.0 0.48 350
Ck 15
Low Carbon Steel 1 180 0.5 6.0 0.18 0.48 190 300
M2000548 LT 600 M-W-D63 63 76 22 48 6 5 9SMnPb28
210 6.0 0.48 260
M2000549 LT 600 M-W-D80 80 93 27 50 6 6 180 6.0 0.45 240
42 CrMo 4 0.5 0.15 150
M2000550 LT 600 M-W-D100 100 113 32 50 6 6 230 6.0 0.45 210
Alloy Steel 2 100 Cr 6
M2000551 LT 600 M-W-D125 125 138 40 63 6 7 280 6.0 0.40 190
32 NiCrMo 14.5 0.5 0.15 130
320 6.0 0.40 170
M2000552 LT 600 M-W-D160 160 173 40 63 6 8
220 5.0 0.42 150
X38 CrMoV 5 0.5 0.12 90
280 5.0 0.42 130
High Alloy Steel 3 X210 CrW 12
320 5.0 0.38 110
X90 CrMoV 8 0.5 0.12 60
350 5.0 0.38 90

SEKT 12T3 AGSN 4

303 / 304
304 L
210
to 250
0.5 6.0 0.18 0.35 170 250

Austenitic 230
Catalog Nr. Description D De d H Ap z 5 316 / 316 L 0.5 5.0 0.15 0.32 160 210
Stainless Steel to 270
M2001431 LT 610 M-W-D40 40 53 16 40 6 3 316 Ti
6 -------- 0.5 4.0 0.12 0.28 70 150
M2001382 LT 610 M-W-D50 50 63 22 48 6 4 630 (F16PH)
Ferritic Stainless
M2001383 LT 610 M-W-D63 63 76 22 48 6 5 7 430 / 439 / 444 Annealed 0.5 6.0 0.18 0.35 150 210
Steel
M2001384 LT 610 M-W-D80 80 93 27 50 6 6 Annealed 0.5 6.0 0.15 0.35 150
Martensitic 230 SEKT
8 410 / 420
M2001432 LT 610 M-W-D100 100 113 32 50 6 6 Stainless Steel Treated 0.5 6.0 0.15 0.28 90 170
M2001433 LT 610 M-W-D125 125 138 40 63 6 7 EN - GJL 200 300
140
Grey Cast Iron 9 EN - GJL 250 0.5 6.0 0.18 0.48 170 250
M2001434 LT 610 M-W-D160 160 173 40 63 6 8 to 230
EN - GJL 300 210
EN - GJS 400 210 210
W = With coolant Screw set: VT 50 Key set: CT 20 0.42
Nodular Cast Iron 10 EN - GJS 600 260 0.5 6.0 0.15 120 170
EN - GJS 800 310 150
Inconel 625 25 35
Nickel Based Alloys 11 Inconel 718 -------- 0.5 4.0 0.15 0.28 28 40
Hastelloy C 40 60
Titanium Based TiAl 6 V4 0.32 35 60
12 -------- 0.5 4.0 0.18
Alloys T40 0.28 28 40
*For all material types and standards, see pages 240 to 245.

190 191
SPKN Shape SPKN 1203 EDTR Milling bodies

S SPKN 1204 EDTR

90°
Square 90° - on special request
Catalog Nr. Description D De d H Ap z
Clearance Angle
M2000571 LT 750 M-D63 63 69 22 40 9 4
P 11º
M2000572 LT 750 M-D80 80 86 27 50 9 5

Tolerance M2000574 LT 750 M-D100 100 106 32 50 9 7

K l ± 0.08 m ± 0.013 M2000575 LT 750 M-D125 125 131 40 63 9 8

s ± 0.025 M2000576 LT 750 M-D160 160 166 40 63 9 10

Milling Insert Type M2000577 LT 750 M-D200 200 206 60 63 9 12

N Clamping
no chip breaker
M2000578 LT 750 M-D250 250 256 60 63 9 14

Screw set: CVB 55 Key set: ET 4

Insert Designation Grade l s E D Direction Catalog Nr. Page*

SPKN 1203 EDTR LT 30 12 3,18 75º 15º Right M0000046 194

SPKN 1204 EDTR LT 30 12 4,76 75º 15º Right M0000047 194
SPKN 1504 EDTR LT 30 15 4,76 75º 15º Right M0001673 195

* For Cutting data see

Surfacing Insert Lead angle 75° relevant page

SPKN

Application Guide

Surfacing

Swiss
Made Machining Recommendations Guide - please see page 6
192 193
SPKN 1203 EDTR Cutting Conditions SPKN 1504 EDTR Cutting Conditions
SPKN 1204 EDTR
Group Brinell d.o.c [mm] feed [mm/tooth] Vc [m/min] Group Brinell d.o.c [mm] feed [mm/tooth] Vc [m/min]
Material Group Material Examples* Material Group Material Examples*
No hardness min max min max min max No hardness min max min max min max
150 7.0 0.38 300 150 9.0 0.52 350
Ck 15 Ck 15
Low Carbon Steel 1 180 0.5 7.0 0.18 0.38 190 260 Low Carbon Steel 1 180 0.5 9.0 0.25 0.52 190 300
9SMnPb28 9SMnPb28
210 7.0 0.38 220 210 9.0 0.52 260
180 7.0 0.35 200 180 9.0 0.48 240
42 CrMo 4 0.5 0.15 150 42 CrMo 4 0.5 0.23 150
230 7.0 0.35 180 230 9.0 0.48 210
Alloy Steel 2 100 Cr 6 Alloy Steel 2 100 Cr 6
280 7.0 0.32 160 280 9.0 0.45 190
32 NiCrMo 14.5 0.5 0.15 130 32 NiCrMo 14.5 0.5 0.23 130
320 7.0 0.32 140 320 9.0 0.45 170
220 7.0 0.32 130 220 7.0 0.42 150
X38 CrMoV 5 0.5 0.12 90 X38 CrMoV 5 0.5 0.18 90
280 7.0 0.32 110 280 7.0 0.42 130
High Alloy Steel 3 X210 CrW 12 High Alloy Steel 3 X210 CrW 12
320 7.0 0.28 95 320 7.0 0.38 110
X90 CrMoV 8 0.5 0.12 60 X90 CrMoV 8 0.5 0.18 60
350 7.0 0.28 80 350 7.0 0.38 90
303 / 304 210 303 / 304 210
4 4 304 L to 250
304 L to 250
Austenitic 230 Austenitic 230
5 316 / 316 L 5 316 / 316 L
Stainless Steel to 270 Stainless Steel to 270
316 Ti 316 Ti
6 -------- SPKN inserts are not recommended for stainless steels. 6 -------- SPKN inserts are not recommended for stainless steels.
630 (F16PH) 630 (F16PH)
Ferritic Stainless Ferritic Stainless
7 430 / 439 / 444 Annealed 7 430 / 439 / 444 Annealed
Steel Steel
Martensitic Annealed Martensitic Annealed
8 410 / 420 8 410 / 420
Stainless Steel Treated Stainless Steel Treated
EN - GJL 200 240 EN - GJL 200 300 SPKN
140 140
Grey Cast Iron 9 EN - GJL 250 0.5 7.0 0.15 0.38 170 220 Grey Cast Iron 9 EN - GJL 250 0.5 9.0 0.25 0.60 170 250
to 230 to 230
EN - GJL 300 190 EN - GJL 300 210
EN - GJS 400 210 200 EN - GJS 400 210 210
Nodular Cast Iron 10 EN - GJS 600 260 0.5 7.0 0.12 0.30 120 160 Nodular Cast Iron 10 EN - GJS 600 260 0.5 9.0 0.18 0.50 120 170
EN - GJS 800 310 130 EN - GJS 800 310 150
Inconel 625 Inconel 625
Nickel Based Alloys 11 Inconel 718 -------- Nickel Based Alloys 11 Inconel 718 --------
Hastelloy C SPKN inserts are not recommended for exotic's materials. Hastelloy C SPKN inserts are not recommended for exotic's materials.
Titanium Based TiAl 6 V4 Titanium Based TiAl 6 V4
12 -------- 12 --------
Alloys T40 Alloys T40
*For all material types and standards, see pages 240 to 245. *For all material types and standards, see pages 240 to 245.

® ®

194 195
SPKR Shape SPKR 1203 EDTR
SPKR 1204 EDTR
Milling bodies

S
90° - on special request
Square 90°
Catalog Nr. Description D De d H Ap z
Clearance Angle
M2000571 LT 750 M-D63 63 69 22 40 9 4
P 11°
M2000572 LT 750 M-D80 80 86 27 50 9 5

Tolerance M2000574 LT 750 M-D100 100 106 32 50 9 7

K l ± 0.08 m ± 0.013 M2000575 LT 750 M-D125 125 131 40 63 9 8

s ± 0.025 M2000576 LT 750 M-D160 160 166 40 63 9 10

Milling Insert Type M2000577 LT 750 M-D200 200 206 60 63 9 12

R Clamping
chip breaker
M2000578 LT 750 M-D250 250 256 60 63 9

Screw set: CVB 55 Key set: ET 4

14

Insert Designation Grade l s E D Direction Catalog Nr. Page*

SPKR 1203 EDTR LT 30 12 3,18 75º 15º Right M0000048 198

SPKR 1204 EDTR LT 30 12 4,76 75º 15º Right M0000049 198
* For Cutting data see
Surfacing Insert Lead angle 75° relevant page

SPKR
Application Guide

Surfacing

Swiss
Made Machining Recommendations Guide - please see page 6
196 197
SPKR 1203 EDTR Cutting Conditions SPMT Shape

SPKR 1204 EDTR

S
90°
Square 90°
Group Brinell d.o.c [mm] feed [mm/tooth] Vc [m/min]
Material Group Material Examples*
No hardness min max min max min max Clearance Angle

Low Carbon Steel 1

Ck 15
9SMnPb28
150
180 0.5
7.0
7.0 0.15
0.32
0.32 190
300
260 P 11º

210 7.0 0.32 220 Tolerance

180 7.0 0.30 200

Alloy Steel 2
42 CrMo 4
100 Cr 6
230
280
0.5
7.0
7.0
0.15
0.30
0.28
150
180
160
M l ± 0.08 m ± 0.013
s ± 0.025

Milling
32 NiCrMo 14.5 0.5 0.15 130
320 7.0 0.28 140 Insert Type

T
220 5.0 0.28 130 Clamping
X38 CrMoV 5 0.5 0.12 90
280 5.0 0.28 110 no chip breaker
High Alloy Steel 3 X210 CrW 12
320 5.0 0.25 95
X90 CrMoV 8 0.5 0.12 60
350 5.0 0.25 80

4
303 / 304 210 0.5 5.0 0.18 0.25 170 270 Insert Designation Grade l s r Direction Catalog Nr. Page*
304 L to 250
Austenitic
5 316 / 316 L
230
0.5 5.0 0.15 0.20 160 210 SPMT 12T308 LT 30 12 3,18 75º Nutral M0001226 200
Stainless Steel to 270
316 Ti
6 -------- SPKR inserts are not recommended for stainless Duplex type * For Cutting data see
630 (F16PH)
relevant page
Ferritic Stainless
7 430 / 439 / 444 Annealed 0.5 5.0 0.12 0.25 150 230
Steel
Martensitic Annealed 0.5 5.0 0.12 0.25 150 210
8 410 / 420
Stainless Steel Treated 0.5 5.0 0.12 0.23 90 150
EN - GJL 200 240
140
Grey Cast Iron 9 EN - GJL 250 0.5 7.0 0.15 0.32 170 220
to 230
EN - GJL 300 190
EN - GJS 400 210 200 Application Guide
Nodular Cast Iron 10 EN - GJS 600 260 0.5 5.0 0.12 0.27 120 160 SPMT
EN - GJS 800 310 130
Inconel 625 Slotting Shoulder Milling Surfacing
Nickel Based Alloys 11 Inconel 718 --------
Hastelloy C SPKR inserts are not recommended for exotic's materials
Titanium Based TiAl 6 V4
12 --------
Alloys T40
*For all material types and standards, see pages 240 to 245.

Swiss
Made Machining Recommendations Guide - please see page 6
198 199
SPMT 12T308 Cutting
Cutting Conditions
Conditions SPUN Shape

S
90°
Square 90°
Group Brinell d.o.c [mm] feed [mm/tooth] Vc [m/min]
Material Group Material Examples*
No hardness min max min max min max Clearance Angle

Low Carbon Steel 1

Ck 15
9SMnPb28
150
180 0.5
7.0
7.0 0.18
0.38
0.38 190
300
260 P 11°

210 7.0 0.38 220

Tolerance
180 7.0 0.35 200

U
42 CrMo 4 0.5 0.15 150 l ± 0.13 m ± 0.2
230 7.0 0.35 180
Alloy Steel 2 100 Cr 6 s ± 0.13
280 7.0 0.32 160

Milling
32 NiCrMo 14.5 0.5 0.15 130
320 7.0 0.32 140 Insert Type

N
220 7.0 0.32 130
X38 CrMoV 5 0.5 0.12 90 Clamping
280 7.0 0.32 110 no chip breaker
High Alloy Steel 3 X210 CrW 12
320 7.0 0.28 95
X90 CrMoV 8 0.5 0.12 60
350 7.0 0.28 80
303 / 304 210 Insert Designation Grade l s r Direction Catalog Nr. Page*
4 0.5 7.0 0.18 0.30 170 250
304 L to 250
Austenitic 230 SPUN 120308 LT 30 12 3,18 0,8 Neutral M0000050 203
5 316 / 316 L 0.5 7.0 0.15 0.30 160 210
Stainless Steel to 270
316 Ti
6 -------- 0.5 7.0 0.12 0.28 70 150
630 (F16PH) * For Cutting data see
relevant page
Ferritic Stainless
7 430 / 439 / 444 Annealed 0.5 7.0 0.18 0.35 150 210
Steel
Martensitic Annealed 0.5 7.0 0.15 0.30 150 230
8 410 / 420
Stainless Steel Treated 0.5 7.0 0.15 0.30 90 170
EN - GJL 200 240
140
Grey Cast Iron 9 EN - GJL 250 0.5 7.0 0.15 0.38 170 220
to 230
EN - GJL 300 190
EN - GJS 400 210 200 Application Guide
Nodular Cast Iron 10 EN - GJS 600 260 0.5 7.0 0.12 0.30 120 160
EN - GJS 800 310 130
Inconel 625 25 35 Surfacing Chamfering SPUN
Nickel Based Alloys 11 Inconel 718 -------- 0.5 5.0 0.15 0.28 28 40
Hastelloy C 40 60
Titanium Based TiAl 6 V4 0.32 35 60
12 -------- 0.5 5.0 0.18
Alloys T40 0.28 28 40
*For all material types and standards, see pages 240 to 245.

Swiss
Made Machining Recommendations Guide - please see page 6
200 201
SPUN 120308 Milling bodies SPUN 120308 Cutting Conditions

Catalog Nr. Description D De d H Ap z

Group Brinell d.o.c [mm] feed [mm/tooth] Vc [m/min]
Material Group Material Examples*
M2000571 LT 750 M-D63 63 69 22 40 9 4 No hardness min max min max min max
M2000572 LT 750 M-D80 80 86 27 50 9 5 150 7.0 0.32 300
Ck 15
Low Carbon Steel 1 180 0.5 7.0 0.18 0.32 180 260
M2000574 LT 750 M-D100 100 106 32 50 9 7 9SMnPb28
210 7.0 0.32 220
M2000575 LT 750 M-D125 125 131 40 63 9 8 180 7.0 0.28 200
42 CrMo 4 0.5 0.15 130
M2000576 LT 750 M-D160 160 166 40 63 9 10 230 7.0 0.28 180
Alloy Steel 2 100 Cr 6
280 7.0 0.25 160
M2000577 LT 750 M-D200 200 206 60 63 9 12 32 NiCrMo 14.5 0.5 0.15 100
320 7.0 0.25 140
M2000578 LT 750 M-D250 250 256 60 63 9 14 220 5.0 0.27 130
X38 CrMoV 5 0.5 0.12 90
280 5.0 0.27 110
Screw set: CVB 55 Key set: ET 4 High Alloy Steel 3 X210 CrW 12
320 5.0 0.23 95
X90 CrMoV 8 0.5 0.12 60
350 5.0 0.23 80
303 / 304 210
4 304 L to 250
Austenitic 230
5 316 / 316 L
Stainless Steel to 270
316 Ti
6 -------- SPUN inserts are not recommended for stainless steels.
630 (F16PH)
Ferritic Stainless
7 430 / 439 / 444 Annealed
Steel
Martensitic Annealed
8 410 / 420
Stainless Steel Treated
EN - GJL 200 240
140
Grey Cast Iron 9 EN - GJL 250 0.5 7.0 0.15 0.35 150 220
to 230
EN - GJL 300 190
EN - GJS 400 210 200
Nodular Cast Iron 10 EN - GJS 600 260 0.5 5.0 0.12 0.28 100 160
EN - GJS 800 310 130
Inconel 625 SPUN
Nickel Based Alloys 11 Inconel 718 --------
Hastelloy C SPUN inserts are not recommended for exotic materials.
Titanium Based TiAl 6 V4
12 --------
Alloys T40
*For all material types and standards, see pages 240 to 245.

202 203
TPKN Shape TPKN 1603 PDTR Milling bodies

T Triangle 60°

Clearance Angle Catalog Nr. Description D d H Ap z

P 11° M2000699
M2000700
LT 310 M-D63
LT 310 M-D80
63
80
22
27
50
50
14
14
6
6
Tolerance
M2000701 LT 310 M-D100 100 32 50 14 7

K l ± 0.05 m ± 0.013
s ± 0.025
M2000702 LT 310 M-D125 125 40 63 14 8

Milling Insert Type TPKN 2204 PDTR

N Clamping
no chip breaker Catalog Nr. Description D d H Ap z

M2000703 LT 320 M-D80 80 27 50 20 5

Insert Designation Grade l s P D Direction Catalog Nr. Page* M2000704 LT 320 M-D100 100 32 50 20 6
M2000705 LT 320 M-D125 125 40 63 20 7
TPKN 1603 PDTR LT 30 16 3,18 90º 15º Right M0000051 206 M2000706 LT 320 M-D160 160 40 63 20 9
TPKN 2204 PDTR LT 30 22 4,76 90º 15º Right M0000052 207
* For Cutting data see
relevant page

Application Guide

Slotting Shoulder Milling Surfacing

TPKN

Swiss
Made Machining Recommendations Guide - please see page 6
204 205
TPKN 1603 PDTR Cutting Conditions TPKN 2204 PDTR Cutting Conditions

Group Brinell d.o.c [mm] feed [mm/tooth] Vc [m/min] Group Brinell d.o.c [mm] feed [mm/tooth] Vc [m/min]
Material Group Material Examples* Material Group Material Examples*
No hardness No hardness min max min max min max
min max min max min max
150 12.0 0.25 300 150 18.0 0.28 300
Ck 15 Ck 15
Low Carbon Steel 1 180 0.5 12.0 0.15 0.25 180 260 Low Carbon Steel 1 180 0.5 18.0 0.18 0.28 180 260
9SMnPb28 9SMnPb28
210 12.0 0.25 220 210 18.0 0.28 220
180 7.0 0.23 200 180 18.0 0.23 200
42 CrMo 4 0.5 0.12 130 42 CrMo 4 0.5 0.15 130
230 7.0 0.23 180 230 18.0 0.23 180
Alloy Steel 2 100 Cr 6 Alloy Steel 2 100 Cr 6
280 7.0 0.22 160 280 14.0 0.23 160
32 NiCrMo 14.5 0.5 0.12 100 32 NiCrMo 14.5 0.5 0.15 100
320 7.0 0.22 140 320 14.0 0.23 140
220 7.0 0.18 130 220 12.0 0.18 130
X38 CrMoV 5 0.5 0.12 90 X38 CrMoV 5 0.5 0.12 90
280 7.0 0.18 110 280 12.0 0.18 110
High Alloy Steel 3 X210 CrW 12 High Alloy Steel 3 X210 CrW 12
320 TPKN 1603… inserts are not recommanded for steels 320 12.0 0.18 95
X90 CrMoV 8 X90 CrMoV 8 0.5 0.12 60
350 with high resistance 350 12.0 0.18 80
303 / 304 210 303 / 304 210
4 4
304 L to 250 304 L to 250
Austenitic 230 Austenitic 230
5 316 / 316 L 5 316 / 316 L
Stainless Steel to 270 Stainless Steel to 270
316 Ti 316 Ti
6 -------- TPKN 1603… inserts are not recommande for 6 -------- TPKN inserts are not recommanded for stainless steels.
630 (F16PH) 630 (F16PH)
stainless steels
Ferritic Stainless Ferritic Stainless
7 430 / 439 / 444 Annealed 7 430 / 439 / 444 Annealed
Steel Steel
Martensitic Annealed Martensitic Annealed
8 410 / 420 8 410 / 420
Stainless Steel Treated Stainless Steel Treated
EN - GJL 200 240 EN - GJL 200 240
140 140
Grey Cast Iron 9 EN - GJL 250 0.5 12.0 0.15 0.25 150 220 Grey Cast Iron 9 EN - GJL 250 0.5 18.0 0.18 0.28 150 220
to 230 to 230
EN - GJL 300 190 EN - GJL 300 190
EN - GJS 400 210 200 EN - GJS 400 210 200
Nodular Cast Iron 10 EN - GJS 600 260 0.5 12.0 0.12 0.21 100 160 Nodular Cast Iron 10 EN - GJS 600 260 0.5 14.0 0.15 0.23 100 160
EN - GJS 800 310 130 EN - GJS 800 310 130
Inconel 625 Inconel 625
Nickel Based Alloys 11 Inconel 718 -------- Nickel Based Alloys 11 Inconel 718 --------
TPKN 1603… inserts are not recommanded for Hastelloy C TPKN
Hastelloy C TPKN inserts are not recommanded for Exotic materials.
exotic materials
Titanium Based TiAl 6 V4 Titanium Based TiAl 6 V4
12 -------- 12 --------
Alloys T40 Alloys T40
*For all material types and standards, see pages 240 to 245. *For all material types and standards, see pages 240 to 245.

® ®

206 207
TPKR Shape Milling bodies

T Triangle 60°
TPKR 1603 PDTR
Clearance Angle Catalog Nr. Description D d H Ap z

P 11° M2000699
M2000700
LT 310 M-D63
LT 310 M-D80
63
80
22
27
50
50
14
14
6
6
Tolerance
M2000701 LT 310 M-D100 100 32 50 14 7

K l ± 0.05 m ± 0.013
s ± 0.025
M2000702 LT 310 M-D125 125 40 63 14 8

Milling Insert Type

TPKR 2204 PDTR
R Clamping
chip breaker Catalog Nr. Description D d H Ap z

M2000703 LT 320 M-D80 80 27 50 20 5

Insert Designation Grade l s P D Direction Catalog Nr. Page* M2000704 LT 320 M-D100 100 32 50 20 6
M2000705 LT 320 M-D125 125 40 63 20 7
TPKR 1603 PDTR LT 30 16 3,18 90º 15º Right M0000053 210 M2000706 LT 320 M-D160 160 40 63 20 9
TPKR 2204 PDTR LT 30 22 4,76 90º 15º Right M0000983 211
* For Cutting data see
relevant page

Application Guide

Slotting Shoulder Milling Surfacing

TPKR

Swiss
Made Machining Recommendations Guide - please see page 6
208 209
TPKR 1603 PDTR Cutting Conditions TPKR 2204 PDTR Cutting Conditions

Group Material Examples* Brinell d.o.c [mm] feed [mm/tooth] Vc [m/min] Group Material Examples* Brinell d.o.c [mm] feed [mm/tooth] Vc [m/min]
Material Group Material Group
No hardness min max min max min max No hardness min max min max min max
150 12.0 0.22 300 150 18.0 0.25 300
Ck 15 Ck 15
Low Carbon Steel 1 180 0.5 12.0 0.15 0.22 180 260 Low Carbon Steel 1 180 0.5 18.0 0.18 0.40 180 260
9SMnPb28 9SMnPb28
210 12.0 0.22 220 210 18.0 0.35 220
180 12.0 0.18 200 180 18.0 0.23 200
42 CrMo 4 0.5 0.15 130 42 CrMo 4 0.5 0.15 130
230 9.0 0.18 180 230 18.0 0.23 180
Alloy Steel 2 100 Cr 6 Alloy Steel 2 100 Cr 6
280 12.0 0.18 160 280 14.0 0.20 160
32 NiCrMo 14.5 0.5 0.15 100 32 NiCrMo 14.5 0.5 0.15 100
320 9.0 0.18 140 320 14.0 0.20 140
220 220
X38 CrMoV 5 X38 CrMoV 5
280 TPKR inserts are not recommended for steels 280 TPKR inserts are not recommended for steels
High Alloy Steel 3 X210 CrW 12 High Alloy Steel 3 X210 CrW 12
320 with high resistance 320 with high resistance
X90 CrMoV 8 X90 CrMoV 8
350 350
303 / 304 210 303 / 304 210
4 0.5 9.0 0.12 0.21 170 270 4 0.5 14.0 0.18 0.25 170 270
304 L to 250 304 L to 250
Austenitic 230 Austenitic 230
5 316 / 316 L 0.5 9.0 0.12 0.18 160 210 5 316 / 316 L 0.5 14.0 0.18 0.23 160 210
Stainless Steel to 270 Stainless Steel to 270
316 Ti TPKR inserts are not recommended for stainless 316 Ti TPKR inserts are not recommended for stainless
6 -------- 6 --------
630 (F16PH) Duples type 630 (F16PH) Duples type
Ferritic Stainless Ferritic Stainless
7 430 / 439 / 444 Annealed 0.5 5.0 0.12 0.23 150 230 7 430 / 439 / 444 Annealed 0.5 14.0 0.18 0.28 150 230
Steel Steel
Martensitic Annealed 0.5 5.0 0.12 0.23 130 210 Martensitic Annealed 0.5 14.0 0.18 0.28 130 210
8 410 / 420 8 410 / 420
Stainless Steel Treated 0.5 5.0 0.12 0.18 90 150 Stainless Steel Treated 0.5 14.0 0.18 0.23 90 150
EN - GJL 200 240 EN - GJL 200 240
140 140
Grey Cast Iron 9 EN - GJL 250 0.5 7.0 0.15 0.23 150 220 Grey Cast Iron 9 EN - GJL 250 0.5 18.0 0.18 0.25 150 220
to 230 to 230
EN - GJL 300 190 EN - GJL 300 190
EN - GJS 400 210 200 EN - GJS 400 210 200
Nodular Cast Iron 10 EN - GJS 600 260 0.5 7.0 0.12 0.18 100 160 Nodular Cast Iron 10 EN - GJS 600 260 0.5 18.0 0.18 0.20 100 160
EN - GJS 800 310 130 EN - GJS 800 310 130
Inconel 625 Inconel 625
Nickel Based Alloys 11 Inconel 718 -------- Nickel Based Alloys 11 Inconel 718 --------
Hastelloy C TPKR inserts are not recommanded for exotic materials Hastelloy C TPKR inserts are not recommanded for exotic materials
Titanium Based TiAl 6 V4 Titanium Based TiAl 6 V4
12 -------- 12 --------
Alloys T40 Alloys T40 TPKR
*For all material types and standards, see pages 240 to 245. *For all material types and standards, see pages 240 to 245.

® ®

210 211
TPUN Shape TPUN 160308 Milling bodies

T Triangle 60°
Catalog Nr. Description D d H Ap z
Clearance Angle M2000699 LT 310 M-D63 63 22 50 12 6

P 11° M2000700
M2000701
LT 310 M-D80
LT 310 M-D100
80
100
27
32
50
50
12
12
6
7
Tolerance M2000702 LT 310 M-D125 125 40 63 12 8

U l ± 0.05 m ± 0.13
s ± 0.13

Milling Insert Type

N Clamping
no chip breaker

Insert Designation Grade l s r Direction Catalog Nr. Page*

TPUN 160308 LT 30 16 3,18 0,8 Neutral M0000054 214

* For Cutting data see

relevant page

Application Guide

Slotting Shoulder Milling Surfacing

TPUN

Swiss
Made Machining Recommendations Guide - please see page 6
212 213
 Alu-Milling
TPUN 160308 Milling bodies

Group Brinell d.o.c [mm] feed [mm/tooth] Vc [m/min]

Material Group Material Examples*
No hardness min max min max min max
150 12.0 0.32 300
Ck 15
Low Carbon Steel 1 180 0.5 12.0 0.12 0.32 190 260
9SMnPb28
210 12.0 0.32 220
LT-05 Milling
180 7.0 0.18 200
42 CrMo 4 0.5 0.12 130
230 7.0 0.18 180
Alloy Steel 2 100 Cr 6
280 7.0 0.18 160
32 NiCrMo 14.5 0.5 0.12 100
320 7.0 0.18 140
220
X38 CrMoV 5
280 TPUN inserts are not recommended for high
High Alloy Steel 3 X210 CrW 12
320 resistance steels.
X90 CrMoV 8
350
303 / 304 210
4
304 L to 250
Austenitic 230
5 316 / 316 L
Stainless Steel to 270
316 Ti TPUN inserts are not recommended for stainless steels.
6 --------
630 (F16PH)
Ferritic Stainless
7 430 / 439 / 444 Annealed
Steel
Martensitic Annealed
8 410 / 420
Stainless Steel Treated
EN - GJL 200 240
140
Grey Cast Iron 9 EN - GJL 250 0.5 12.0 0.12 0.22 150 220
to 230
EN - GJL 300 190
EN - GJS 400 210 200 Lamina's new and unique line of Milling inserts
Nodular Cast Iron 10 EN - GJS 600 260 0.5 12.0 0.12 0.18 100 160
for Aluminum and soft material machining.
EN - GJS 800 310 130
Inconel 625 Based on revolutionary geometry and our
Nickel Based Alloys 11 Inconel 718 -------- unique coated grade, LT-05.
Hastelloy C TPUN inserts are not recommended for exotic materials.
Titanium Based TiAl 6 V4
12 --------
Alloys T40 Pages 216 to 219

Alu-Line

214 215
APGT Shape APGT 1003 Alu Cutting Conditions

A 85º
Aluminium
Group Material Examples* Brinell
No hardness min
d.o.c [mm]
max
feed [mm/tooth]
min max
Vc [m/min]
min max
Clearance Angle Si < 4% 13 AlMgSi 1 ---- 0.12 0.20 400 1200
Aluminum 0.3 9.0

P
4% < Si < 8% 13 AlSi 6 Cu 4 ---- 0.10 0.18 250 600
11°
Si > 8% 14 AlSi 12 ---- Recommended to use APLX 1003 PDTR - LT-30
Cutting conditions for APLX 1003 PDTR for high Si Aluminium
Tolerance
Si > 8% 14 AISi 12 ---- 0.5 9.0 0.08 0.20 200 400

G
d ± 0.05 m ± 0.08
s ± 0.13
APGT 1604 Alu
Aluminium Insert Type
Group Material Examples* Brinell d.o.c [mm] feed [mm/tooth] Vc [m/min]

T
Aluminium

Milling
Pin / Top clamp No hardness min max min max min max
Double sided
Si < 4% 13 AlMgSi 1 ---- 0.15 0.32 400 1200
Aluminum 0.5 15.5
4% < Si < 8% 13 AlSi 6 Cu 4 ---- 0.12 0.25 250 600
Si > 8% 14 AlSi 12 ---- Recommended to use APKT 1604 PDTR - LT-30
Insert Designation Grade l s r Catalog Nr. Page*
Cutting conditions for APKT 1604 PDTR for high Si Aluminium

APGT 1003 Alu LT 05 M0001007 217 Si > 8% 14 AISi 12 ---- 0.5 16.0 0.15 0.25 200 400
10 3,18 0,4
APGT 1604 Alu LT 05 16 4,76 0,4 M0000963 217

* For Cutting data see

relevant page

Application Guide

-Low cutting forces, related to the advanced geometrical design.

-Excellent toughness & wear resistance characteristics.

Milling bodies
APGT 10 - see cutters of APLX 10 (page 147)
APGT 16 - see cutters of APKT 16 (page 142) *For all material types and standards, see pages 240 to 245. Alu-Line
®

Swiss
Made Machining Recommendations Guide - please see page 6
216 217
SEGT Shape SEGT 12T3 Alu Machining
Cutting Conditions
Conditions

S
90°
90° Group Material Examples* Brinell d.o.c [mm] feed [mm/tooth] Vc [m/min]
Aluminium
No hardness min max min max min max
Clearance Angle Si < 4% 13 AlMgSi 1 ---- 0.15 0.40 400 1200
Aluminum 0.3 7.0

E
4% < Si < 8% 13 AlSi 6 Cu 4 ---- 0.12 0.35 250 600
20°
Si > 8% 14 AlSi 12 ---- Recommended to use SEKT 12T3 AFTN - LT-30
Cutting conditions for SEKT 12T3 AFTN for high Si Aluminium
Tolerance
Si > 8% 14 AISi 12 ---- 0.5 7.0 0.20 0.45 200 400

G
d ± 0.05 m ± 0.08
s ± 0.13
SEGT 1204 Alu
Aluminium Insert Type
Group Material Examples* Brinell d.o.c [mm] feed [mm/tooth] Vc [m/min]

T
Aluminium

Milling
Pin / Top clamp No hardness min max min max min max
Double sided
Si < 4% 13 AlMgSi 1 ---- 0.15 0.40 400 1200
Aluminum 0.3 7.0
4% < Si < 8% 13 AlSi 6 Cu 4 ---- 0.12 0.35 250 600
Insert Designation Grade l s r Catalog Nr. Page* Si > 8% 14 AlSi 12 ---- Recommended to use SEKT 1204 AFTN - LT-30
Cutting conditions for SEKT 1204 AFTN for high Si Aluminium
SEGT 12T3 Alu LT 05 12 3,97 0,4 M0001009 219 Si > 8% 14 AISi 12 ---- 0.5 7.0 0.20 0.45 200 400

SEGT 1204 Alu LT 05 12 4,76 0,8 M0001008 219

* For Cutting data see

relevant page

Application Guide

-Low cutting forces, related to the advanced geometrical design.

-Excellent toughness & wear resistance characteristics.

Milling bodies
SEGT 12 - see cutters of SEKT 12 (page 190)
*For all material types and standards, see pages 240 to 245. Alu-Line
®

Swiss
Made Machining Recommendations Guide - please see page 6
218 219
 Only
one grade Drilling
LT-30 Drilling
The LAMINA multi-purpose inserts
can handle most materials with:

LT30
Only one grade in Milling

Steel Stainless Steel Cast Iron Super Alloys

True all-purpose inserts Multi-Material

for real productivity Drilling Inserts
Pages 222 to 226

Drilling

220 221
WCMX Shape WCMX 040208 NN Cutting Conditions

W 80° Diamond

Material Group
Group
Material Examples*
Brinell feed [mm/rev] Vc [m/min]
Clearance Angle No hardness min max min max

C 7° Positive rake
Low Carbon Steel 1
Ck 15
9SMnPb28
150
180 0.05 0.10 180
270
230
210 200
Tolerance
180 230

M d ± 0.05 m ± 0.08 42 CrMo 4 0.12 120

230 190
s ± 0.13 Alloy Steel 2 100 Cr 6 0.05
280 170

Drilling
32 NiCrMo 14.5 0.13 120
Insert Type 320 150
220 170

X Special
High Alloy Steel 3
X38 CrMoV 5
X210 CrW 12
280
320
0.07
0.13 70
150
130
X90 CrMoV 8 0.11 70
350 100

Insert Designation Grade l s r Direction Catalog Nr. Page* 303 / 304

4 Annealed 0.05 0.11 170 230
304 L

WCMX 040208 NN LT 30 4 2,38 0,8 Neutral M3001122 223 Austenitic

5 316 / 316 L Annealed 0.07 0.12 120 210
Stainless Steel
WCMX 050308 NN LT 30 5 3,18 0,8 Neutral M3001121 224 316 Ti
6 Annealed 0.08 0.12 70 120
WCMX 06T308 NN LT 30 6 3,97 0,8 Neutral M3000953 225 630 (F16PH)
Ferritic Stainless
WCMX 080412 NN LT 30 8 4,76 1,2 Neutral M3000954 226
Steel
7 430 / 439 / 444 Annealed 0.07 0.11 150 210

* For Cutting data see Martensitic Annealed 150 210

relevant page 8 410 / 420 0.07 0.11
Stainless Steel Treated 120 170
EN - GJL 200 230
140
Grey Cast Iron 9 EN - GJL 250 0.10 0.14 150 210
to 230
EN - GJL 300 170
Application Guide EN - GJS 400 210 200
Nodular Cast Iron 10 EN - GJS 600 260 0.10 0.14 120 170
EN - GJS 800 310 150
Inconel 625
Nickel Based Alloys 11 Inconel 718 -------- 0.05 0.10 25 35
Hastelloy C
Titanium Based TiAl 6 V4 0.10 35 60
12 -------- 0.05
Alloys T40 0.10 28 40
*For all material types and standards, see pages 240 to 245.

Drilling

Machining Recommendations Guide - please see page 6

222 223
WCMX 050308 NN Cutting Conditions WCMX 06T308 NN Cutting Conditions

Group Material Examples* Brinell feed [mm/rev] Vc [m/min] Group Brinell feed [mm/rev] Vc [m/min]
Material Group Material Group Material Examples*
No hardness min max min max No hardness min max min max
150 270 150 270
Ck 15 Ck 15
Low Carbon Steel 1 180 0.05 0.10 180 230 Low Carbon Steel 1 180 0.06 0.12 180 230
9SMnPb28 9SMnPb28
210 200 210 200
180 230 180 230
42 CrMo 4 0.14 120 42 CrMo 4 0.16 120
230 190 230 190
Alloy Steel 2 100 Cr 6 0.05 Alloy Steel 2 100 Cr 6 0.06
280 170 280 170
32 NiCrMo 14.5 0.16 120 32 NiCrMo 14.5 0.18 120
320 150 320 150
220 170 220 170
X38 CrMoV 5 0.16 70 X38 CrMoV 5 0.18 70
280 150 280 150
High Alloy Steel 3 X210 CrW 12 0.07 High Alloy Steel 3 X210 CrW 12 0.08
320 130 320 130
X90 CrMoV 8 0.13 70 X90 CrMoV 8 0.15 70
350 100 350 100
303 / 304 303 / 304
4 Annealed 0.05 0.11 170 230 4 Annealed 0.06 0.12 170 230
304 L 304 L
Austenitic Austenitic Annealed
5 316 / 316 L Annealed 0.07 0.12 120 210 5 316 / 316 L 0.08 0.14 120 210
Stainless Steel Stainless Steel
316 Ti 316 Ti
6 Annealed 0.08 0.14 70 120 6 Annealed 0.10 0.16 70 120
630 (F16PH) 630 (F16PH)
Ferritic Stainless Ferritic Stainless
7 430 / 439 / 444 Annealed 0.07 0.12 150 210 7 430 / 439 / 444 Annealed 0.08 0.14 150 210
Steel Steel
Martensitic Annealed 150 210 Martensitic Annealed 150 210
8 410 / 420 0.07 0.12 8 410 / 420 0.08 0.14
Stainless Steel Treated 120 170 Stainless Steel Treated 120 170
EN - GJL 200 230 EN - GJL 200 230
140 140
Grey Cast Iron 9 EN - GJL 250 0.10 0.18 150 210 Grey Cast Iron 9 EN - GJL 250 0.10 0.22 150 210
to 230 to 230
EN - GJL 300 170 EN - GJL 300 170
EN - GJS 400 210 200 EN - GJS 400 210 200
Nodular Cast Iron 10 EN - GJS 600 260 0.10 0.16 120 170 Nodular Cast Iron 10 EN - GJS 600 260 0.10 0.18 120 170
EN - GJS 800 310 150 EN - GJS 800 310 150
Inconel 625 Inconel 625
Nickel Based Alloys 11 Inconel 718 -------- 0.05 0.11 25 35 Nickel Based Alloys 11 Inconel 718 -------- 0.06 0.12 25 35
Hastelloy C Hastelloy C
Titanium Based TiAl 6 V4 0.11 35 60 Titanium Based TiAl 6 V4 0.12 35 60
12 -------- 0.05 12 -------- 0.06
Alloys T40 0.10 28 40 Alloys T40 0.10 28 40
*For all material types and standards, see pages 240 to 245. *For all material types and standards, see pages 240 to 245.

® ®

Drilling

224 225
 SHORT/

LT - Solid Mill
WCMX 080412 NN Cutting Conditions LONG

BALL-
NOSE
Group Brinell feed [mm/rev] Vc [m/min]
Material Group Material Examples*
No hardness min max min max
150 270
The Lamina, Multi-Material, SHORT

Ck 15
Low Carbon Steel 1
9SMnPb28
180 0.10 0.18 180 230 Solid Carbide Milling Line SHORT/
210 200 LONG

42 CrMo 4
180
0.22 120
230 LT - 40 One grade for all materials
230 190 BALL-
Alloy Steel 2 100 Cr 6 0.12 NOSE
280 170
32 NiCrMo 14.5
320
0.25 120
150 The advantages of LT - Solid Mill line: Index Group LONG/
220 170 X-LONG
X38 CrMoV 5 0.25 70 • Newly developed grade LT-40, is made 2 flute short 30º SC410C
280 150 from fine grain powder and coated with SC410F
High Alloy Steel 3 X210 CrW 12 0.14
320 130 specially developed PVD coating, to LONG
X90 CrMoV 8 0.22 70
350 100 provide high hardness and at the same 2 flute long 30º SC415C
303 / 304 time high toughness. SC415F ROUGH
4 Annealed 0.10 0.18 170 230 • Special production processes allow for 45°
304 L
improved wear resistance and smoother 2 flute long 30º SC420C
Austenitic Annealed ball nose SC420F
5 316 / 316 L 0.11 0.23 120 210 machining.
Stainless Steel
• One grade for all materials.
316 Ti 3 flute short 30º SC425C
6 Annealed 0.12 0.28 70 120 SC425F
630 (F16PH)
Ferritic Stainless 4 flute short 30º SC430C
7 430 / 439 / 444 Annealed 0.12 0.25 150 210 What does our LT - Solid Mill line offer?
Steel SC430F
Martensitic Annealed 150 210
8 410 / 420 0.12 0.25
Stainless Steel Treated 120 170 • Excellent performance at dry cutting 4 flute long 30º SC435C
EN - GJL 200 230
conditions. SC435F
Grey Cast Iron 9 EN - GJL 250
140
0.15 0.28 150 210
• Excellent performance on hardened steel
to 230 (HRc 65). 4 flute long 30º SC440C
EN - GJL 300 170 ball nose SC440F
• Optimized geometry for machining tough
EN - GJS 400 210 200 materials.
Nodular Cast Iron 10 EN - GJS 600 260 0.12 0.23 120 170 • Top performance on a large range of 6,8 flute long 45º SC445C
EN - GJS 800 310 150 materials. SC445F
Inconel 625 • Extended tool life at regular and extreme 6 flute SC450C
Nickel Based Alloys 11 Inconel 718 -------- 0.12 0.18 25 35 conditions. extra long 45º SC450F
Hastelloy C • Superior surface finish.

Solid Mill
• Fast chip ejection. 6,8 flute long 45º SC455C
Titanium Based TiAl 6 V4 0.18 35 60
12 -------- 0.12 positive rake SC455F
Alloys T40 0.16 28 40

*For all material types and standards, see pages 240 to 245. Multi flute SC460C
rougher 20º SC460F

Multi flute SC465C

® rougher 45º SC465F

Machining
Recommendations

Solid-Mill
226 227
 SHORT/
Solid Carbide Solid Carbide LONG

BALL-
NOSE

D1: Mill Diameter D2: Shank Diameter L1: Length of cut L2: Overall length D1: Mill Diameter D2: Shank Diameter L1: Length of cut L2: Overall length

2 FLUTE, SHORT LENGTH, 30° HELIX 2 FLUTE, LONG LENGTH, 30º HELIX, BALL NOSE
SC410C Cylindrical SC420C Cylindrical ball nose
D1 Tolerance D2 Tolerance L1 L2 D1 Tolerance D2 Tolerance L1 L2
Catalog Nr. Product designation Catalog Nr. Product designation e8 µm h6 µm
e8 µm h6 µm
M4000723 2 flute 2mm short 30º cyl. 2.0 -14 -28 4,0 0 -6 6,0 40,0 M4000755 2 flute 2mm long 30º B.N.cyl. 2.0 -14 -28 6,0 0 -6 5,0 50,0
M4000724 2 flute 3mm short 30º cyl. 3.0 -14 -28 6,0 0 -6 8,0 45,0 M4000756 2 flute 3mm long 30º B.N.cyl. 3.0 -14 -28 6,0 0 -6 8,0 60,0
M4000725 2 flute 4mm short 30º cyl. 4.0 -20 -38 6,0 0 -8 11,0 45,0 M4000757 2 flute 4mm long 30º B.N.cyl. 4.0 -20 -38 6,0 0 -8 8,0 70,0
M4000726 2 flute 5mm short 30º cyl. 5.0 -20 -38 6,0 0 -8 13,0 50,0 M4000758 2 flute 5mm long 30º B.N.cyl. 5.0 -20 -38 6,0 0 -8 10,0 80,0
M4000727 2 flute 6mm short 30º cyl. 6.0 -20 -38 6,0 0 -8 13,0 50,0 M4000759 2 flute 6mm long 30º B.N.cyl. 6.0 -20 -38 6,0 0 -8 12,0 90,0
M4000728 2 flute 8mm short 30º cyl. 8.0 -25 -47 8,0 0 -9 19,0 60,0 M4000760 2 flute 8mm long 30º B.N.cyl. 8.0 -25 -47 8,0 0 -9 14,0 100,0
M4000729 2 flute 10mm short 30º cyl. 10.0 -25 -47 10,0 0 -9 22,0 70,0 M4000761 2 flute 10mm long 30º B.N.cyl. 10.0 -25 -47 10,0 0 -9 18,0 100,0
M4000730 2 flute 12mm short 30º cyl. 12.0 -32 -59 12,0 0 -11 26,0 75,0 M4000762 2 flute 1 2.0
12mm long 30º B.N.cyl. -32 -59 12,0 0 -11 22,0 110,0
M4000731 2 flute 16mm short 30º cyl. 16.0 -32 -59 16,0 0 -11 32,0 100,0 M4000763 2 flute 16mm long 30º B.N.cyl. 16.0 -32 -59 16,0 0 -11 30,0 140,0
M4000732 2 flute 20mm short 30º cyl. 20.0 -40 -73 20,0 0 -13 38,0 105,0 M4000764 2 flute 20mm long 30º B.N.cyl. 20.0 -40 -73 20,0 0 -13 38,0 160,0

2 FLUTE, LONG LENGTH, 30° HELIX

SC415C Cylindrical
D1 Tolerance D2 Tolerance L1 L2
Catalog Nr. Product designation e8 µm h6 µm
M4000743 2 flute 6mm long 30º cyl. 6.0 -20 -38 6,0 0 -8 20,0 60,0
M4000744 2 flute 8mm long 30º cyl. 8.0 -25 -47 8,0 0 -9 25,0 70,0
M4000745 2 flute 10mm long 30º cyl. 10.0 -25 -47 10,0 0 -9 30,0 90,0
M4000746 2 flute 12mm long 30º cyl. 12.0 -32 -59 12,0 0 -11 30,0 90,0
M4000747 2 flute 16mm long 30º cyl. 16.0 -32 -59 16,0 0 -11 50,0 110,0
M4000748 2 flute 20mm long 30º cyl. 20.0 -40 -73 20,0 0 -13 55,0 110,0

Application: Application:

For full machining recommendations - see pages 236 - 238 For full machining recommendations - see pages 236 - 238
228 229
 Solid Carbide Solid Carbide

SHORT

D1: Mill Diameter D2: Shank Diameter L1: Length of cut L2: Overall length D1: Mill Diameter D2: Shank Diameter L1: Length of cut L2: Overall length SHORT/
LONG

3 FLUTE, SHORT LENGTH, 30° HELIX 4 FLUTE, SHORT LENGTH, 30° HELIX
SC425C Cylindrical SC430C Cylindrical
D1 Tolerance D2 Tolerance L1 L2 D1 Tolerance D2 Tolerance L1 L2
Catalog Nr. Product designation e8 µm h6 µm Catalog Nr. Product designation e8 µm h6 µm

M4000775 3 flute 3mm short 30º cyl. 3.0 -14 -28 6,0 0 -6 10,0 50,0 M4000793 4 flute 2mm short 30º cyl. 2.0 -14 -28 6,0 0 -6 6,0 40,0
M4000776 3 flute 4mm short 30º cyl. 4.0 -20 -38 6,0 0 -8 12,0 50,0 M4000794 4 flute 3mm short 30º cyl. 3.0 -14 -28 6,0 0 -6 8,0 45,0
M4000777 3 flute 5mm short 30º cyl. 5.0 -20 -38 6,0 0 -8 14,0 57,0 M4000795 4 flute 4mm short 30º cyl. 4.0 -20 -38 6,0 0 -8 11,0 45,0
M4000778 3 flute 6mm short 30º cyl. 6.0 -20 -38 6,0 0 -8 16,0 57,0 M4000796 4 flute 5mm short 30º cyl. 5.0 -20 -38 6,0 0 -8 13,0 50,0
M4000779 3 flute 8mm short 30º cyl. 8.0 -25 -47 8,0 0 -9 20,0 63,0 M4000797 4 flute 6mm short 30º cyl. 6.0 -20 -38 6,0 0 -8 13,0 50,0
M4000780 3 flute 10mm short 30º cyl. 10.0 -25 -47 10,0 0 -9 22,0 72,0 M4000798 4 flute 8mm short 30º cyl. 8.0 -25 -47 8,0 0 -9 19,0 60,0
M4000781 3 flute 12mm short 30º cyl. 12.0 -32 -59 12,0 0 -11 25,0 83,0 M4000799 4 flute 10mm short 30º cyl. 10.0 -25 -47 10,0 0 -9 22,0 70,0
M4000782 3 flute 16mm short 30º cyl. 16.0 -32 -59 16,0 0 -11 32,0 92,0 M4000800 4 flute 12mm short 30º cyl. 12.0 -32 -59 12,0 0 -11 26,0 75,0
M4000783 3 flute 20mm short 30º cyl. 20.0 -40 -73 20,0 0 -13 38,0 105,0 M4000801 4 flute 16mm short 30º cyl. 16.0 -32 -59 16,0 0 -11 32,0 100,0
M4000802 4 flute 20mm short 30º cyl. 20.0 -40 -73 20,0 0 -13 38,0 105,0

4 FLUTE, LONG LENGTH, 30° HELIX

SC425F Flat SC435C Cylindrical
D1 Tolerance D2 Tolerance L1 L2 D1 Tolerance D2 Tolerance L1 L2
Catalog Nr. Product designation Catalog Nr. Product designation e8 µm h6 µm
e8 µm h6 µm
M4000784 3 flute 3mm short 30º flat 3.0 -14 -28 6,0 0 -6 10,0 50,0 M4000921 4 flute 2 mm long 30º cyl. 2,0 -14 -28 6,0 0 -6 8,0 40,0
M4000785 3 flute 4mm short 30º flat 4.0 -20 -38 6,0 0 -8 12,0 50,0 M4000922 4 flute 3 mm long 30º cyl. 3,0 -20 -38 6,0 0 -8 12,0 50,0
M4000786 3 flute 5mm short 30º flat 5.0 -20 -38 6,0 0 -8 14,0 57,0 M4000923 4 flute 4 mm long 30º cyl. 4,0 -20 -38 6,0 0 -8 15,0 50,0
M4000787 3 flute 6mm short 30º flat 6.0 -20 -38 6,0 0 -8 16,0 57,0 M4000924 4 flute 5 mm long 30º cyl. 5,0 -20 -38 6,0 0 -8 20,0 60,0
M4000788 3 flute 8mm short 30º flat 8.0 -25 -47 8,0 0 -9 20,0 63,0 M4000813 4 flute 6 mm long 30º cyl. 6.0 -20 -38 6,0 0 -8 20,0 60,0
M4000789 3 flute 10mm short 30º flat 10.0 -25 -47 10,0 0 -9 22,0 72,0 M4000814 4 flute 8 mm long 30º cyl. 8.0 -25 -47 8,0 0 -9 25,0 70,0
M4000790 3 flute 12mm short 30º flat 12.0 -32 -59 12,0 0 -11 25,0 83,0 M4000815 4 flute 10 mm long 30º cyl. 10.0 -25 -47 10,0 0 -9 30,0 90,0
M4000791 3 flute 16mm short 30º flat 16.0 -32 -59 16,0 0 -11 32,0 92,0 M4000816 4 flute 12 mm long 30º cyl. 12.0 -32 -59 12,0 0 -11 30,0 90,0
M4000792 3 flute 20mm short 30º flat 20.0 -40 -73 20,0 0 -13 38,0 105,0 M4000817 4 flute 16 mm long 30º cyl. 16.0 -32 -59 16,0 0 -11 50,0 110,0
M4000818 4 flute 20 mm long 30º cyl. 20.0 -40 -73 20,0 0 -13 55,0 110,0

Application: Application:

For full machining recommendations - see pages 236 - 238 For full machining recommendations - see pages 236 - 238
230 231
 Solid Carbide Solid Carbide

D1: Mill Diameter D2: Shank Diameter L1: Length of cut L2: Overall length D1: Mill Diameter D2: Shank Diameter L1: Length of cut L2: Overall length

4 FLUTE, LONG LENGTH, 30° HELIX, BALL NOSE 6,8 FLUTE, LONG LENGTH, 45° HELIX BALL-
NOSE
SC440C Cylindrical ball nose SC445C Cylindrical
D1 Tolerance D2 Tolerance L1 L2 D1 Tolerance D2 Tolerance L1 L2 LONG/
Catalog Nr. Product designation e8 µm h6 µm Catalog Nr. Product designation e8 µm h6 µm X-LONG

M4000825 4 flute 2mm long 30º B.N. cyl. 2.0 -14 -28 6,0 0 -6 5,0 50,0 M4000845 6 flute 6mm long 45º cyl. 6.0 -20 -38 6,0 0 -8 13,0 57,0
M4000826 4 flute 3mm long 30º B.N. cyl. 3.0 -14 -28 6,0 0 -6 8,0 60,0 M4000846 6 flute 8mm long 45º cyl. 8.0 -25 -47 8,0 0 -9 19,0 63,0
M4000827 4 flute 4mm long 30º B.N. cyl. 4.0 -20 -38 6,0 0 -8 8,0 70,0 M4000847 6 flute 10mm long 45º cyl. 10.0 -25 -47 10,0 0 -9 22,0 72,0
M4000828 4 flute 5mm long 30º B.N. cyl. 5.0 -20 -38 6,0 0 -8 10,0 80,0 M4000848 6 flute 12mm long 45º cyl. 12.0 -32 -59 12,0 0 -11 26,0 83,0
M4000829 4 flute 6mm long 30º B.N. cyl. 6.0 -20 -38 6,0 0 -8 12,0 90,0 M4000849 6 flute 16mm long 45º cyl. 16.0 -32 -59 16,0 0 -11 32,0 92,0
M4000830 4 flute 8mm long 30º B.N. cyl. 8.0 -25 -47 8,0 0 -9 14,0 100,0 M4000850 8 flute 20mm long 45º cyl. 20.0 -40 -73 20,0 0 -13 38,0 104,0
M4000831 4 flute 10mm long 30º B.N. cyl. 10.0 -25 -47 10,0 0 -9 18,0 100,0
M4000832 4 flute 12mm long 30º B.N. cyl. 12.0 -32 -59 12,0 0 -11 22,0 110,0
M4000833 4 flute 16mm long 30º B.N. cyl. 16.0 -32 -59 16,0 0 -11 30,0 140,0
M4000834 4 flute 20mm long 30º B.N. cyl. 20.0 -40 -73 20,0 0 -13 38,0 160,0

6 FLUTE, EXTRA LONG LENGTH, 45° HELIX

SC450C Cylindrical
D1 Tolerance D2 Tolerance L1 L2
Catalog Nr. Product designation e8 µm h6 µm
M4000857 6 flute 6mm X-long 45º cyl. 6.0 -20 -38 6,0 0 -8 26,0 70,0
M4000858 6 flute 8mm X-long 45º cyl. 8.0 -25 -47 8,0 0 -9 36,0 90,0
M4000859 6 flute 10mm X-long 45º cyl. 10.0 -25 -47 10,0 0 -9 46,0 100,0
M4000860 6 flute 12mm X-long 45º cyl. 12.0 -32 -59 12,0 0 -11 56,0 110,0
M4000861 6 flute 16mm X-long 45º cyl. 16.0 -32 -59 16,0 0 -11 66,0 130,0
M4000862 6 flute 20mm X-long 45º cyl. 20.0 -40 -73 20,0 0 -13 76,0 140,0

Application:

Application:

Recommended for finishing soft material (depth of cut under 1.0 mm)
Recommended for all operations on hard material
For full machining recommendations - see pages 236 - 238 For full machining recommendations - see pages 236 - 238

232 233
 Solid Carbide Solid Carbide

D1: Mill Diameter D2: Shank Diameter L1: Length of cut L2: Overall length D1: Mill Diameter D2: Shank Diameter L1: Length of cut L2: Overall length

6,8 FLUTE, LONG LENGTH, 45° HELIX, MULTI-FLUTE, ROUGHING, LONG REACH, 45° HELIX
POSITIVE RAKE ANGLE
SC455C Cylindrical PR SC465C Cylindrical
D1 Tolerance D2 Tolerance L1 L2 D1 Tolerance D2 Tolerance L1 L2
Catalog Nr. Product designation Catalog Nr. Product designation e8 µm h6 µm
e8 µm h6 µm LONG
M4000869 6 flute 6mm long 45º cyl. 6.0 -20 -38 6,0 0 -8 13,0 57,0 M4000893 3 flute 6mm rougher 45º L.R. Cyl. 6.0 -20 -38 6,0 0 -8 16,0 57,0
M4000870 6 flute 8mm long 45º cyl. 8.0 -25 -47 8,0 0 -9 19,0 63,0 M4000894 3 flute 8mm rougher 45º L.R. Cyl. 8.0 -25 -47 8,0 0 -9 16,0 63,0
ROUGH
M4000871 6 flute 10mm long 45º cyl. 10.0 -25 -47 10,0 0 -9 22,0 72,0 M4000895 4 flute 10mm rougher 45º L.R. Cyl. 10.0 -25 -47 10,0 0 -9 22,0 72,0 45°

M4000872 6 flute 12mm long 45º cyl. 12.0 -32 -59 12,0 0 -11 26,0 83,0 M4000896 4 flute 12mm rougher 45º L.R. Cyl. 12.0 -32 -59 12,0 0 -11 26,0 83,0
M4000873 6 flute 16mm long 45º cyl. 16.0 -32 -59 16,0 0 -11 32,0 92,0 M4000897 5 flute 16mm rougher 45º L.R. Cyl. 16.0 -32 -59 16,0 0 -11 32,0 92,0
M4000874 8 flute 20mm long 45º cyl. 20.0 -40 -73 20,0 0 -13 38,0 104,0 M4000898 6 flute 20mm rougher 45º L.R. Cyl. 20.0 -40 -73 20,0 0 -13 38,0 104,0

SC455F Flat SC465F Flat

D1 Tolerance D2 Tolerance L1 L2 D1 Tolerance D2 Tolerance L1 L2
Catalog Nr. Product designation e8 µm h6 µm Catalog Nr. Product designation
e8 µm h6 µm
M4000875 6 flute 6mm long 45º flat 6.0 -20 -38 6,0 0 -8 13,0 57,0 M4000899 3 flute 6mm rougher 45º L.R. flat 6.0 -20 -38 6,0 0 -8 16,0 57,0
M4000876 6 flute 8mm long 45º flat 8.0 -25 -47 8,0 0 -9 19,0 63,0 M4000900 3 flute 8mm rougher 45º L.R. flat 8.0 -25 -47 8,0 0 -9 16,0 63,0
M4000877 6 flute 10mm long 45º flat 10.0 -25 -47 10,0 0 -9 22,0 72,0 M4000901 4 flute 10mm rougher 45º L.R. flat 10.0 -25 -47 10,0 0 -9 22,0 72,0
M4000878 6 flute 12mm long 45º flat 12.0 -32 -59 12,0 0 -11 26,0 83,0 M4000902 4 flute 12mm rougher 45º L.R. flat 12.0 -32 -59 12,0 0 -11 26,0 83,0
M4000879 6 flute 16mm long 45º flat 16.0 -32 -59 16,0 0 -11 32,0 92,0 M4000903 5 flute 16mm rougher 45º L.R. flat 16.0 -32 -59 16,0 0 -11 32,0 92,0
M4000880 8 flute 20mm long 45º flat 20.0 -40 -73 20,0 0 -13 38,0 104,0 M4000904 6 flute 20mm rougher 45º L.R. flat 20.0 -40 -73 20,0 0 -13 38,0 104,0

Solid Mill
Application:

Application:
Recommended for all operations on soft material

For full machining recommendations - see pages 236 - 238 For full machining recommendations - see pages 236 - 238

234 235
 Solid Carbide machining recommendations Solid Carbide machining recommendations
As a simple starting point, we recommend to use the
Cutting speed table Icons following cutting conditions.
Group Material Examples* Brinell Vc [m/min] Profiling Finishing Semi Finishing Roughing
Material Group
No hardness min max Feed per Tooth Width Depth Feed per Tooth Width Feed per Tooth Width
Profiling - Finishing Depth Depth

Solid Carbide machining recommendations

of Cut of Cut of Cut of Cut of Cut of Cut
150 250 300
XC12 Tool Diameter (mm) min max mm mm min max mm mm min max mm mm
Low Carbon Steel 1 180 200 270
S 250 Pb 2 0.006 0.025 0.25 2.00 0.025 0.040 0.50 2.00 0.012 0.025 1.00 2.00
210 160 250
3 0.012 0.040 0.38 3.00 0.040 0.050 0.75 3.00 0.025 0.040 1.50 3.00
180 160 250
42 CrMo 4 4 0.016 0.048 0.50 4.00 0.040 0.050 1.00 4.00 0.025 0.040 2.00 4.00
230
Alloy Steel 2 100 Cr 6 140 180 5 0.050 5.00 0.070 5.00 0.040 0.065 2.50 5.00
280 Slotting 0.020 0.63 0.050 1.25
32 NiCrMo 14.5 6 0.060 6.00 0.090 6.00 0.040 0.075 3.00 6.00
320 120 170 0.025 0.75 0.050 1.50
220 140 180
8 0.030 0.075 1.00 8.00 0.065 0.120 2.00 8.00 0.050 0.100 4.00 8.00
X38 CrMoV 5 10 0.032 0.080 1.25 10.00 0.065 0.120 2.50 10.00 0.050 0.100 5.00 10.00
280 120 140
High Alloy Steel 3 X210 CrW 12 12 0.040 0.100 1.50 12.00 0.065 0.130 3.00 12.00 0.065 0.120 6.00 12.00
320 100 140
X90 CrMoV 8 16 0.048 0.120 2.00 16.00 0.075 0.140 4.00 16.00 0.080 0.130 8.00 16.00
350 90 120
Plunge - Slot 20 0.050 0.150 2.50 20.00 0.090 0.170 5.00 20.00 0.090 0.160 10.00 20.00
303 / 304 210
4 80 100
304 L to 250
Austenitic 230
5 316 / 316 L 80 100
Stainless Steel to 270 Slotting Finishing Semi Finishing Roughing
316 Ti Feed per Tooth Width Depth Feed per Tooth Width Depth Feed per Tooth Width Depth
6 -------- 70 90
630 (F16PH) of Cut of Cut of Cut of Cut of Cut of Cut
Ferritic Stainless Profiling - Roughing Tool Diameter (mm) min max mm mm min max mm mm min max mm mm
7 430 / 439 / 444 Annealed 80 100
Steel 2 0.012 0.020 2.00 2.00 0.016 0.040 2.00 2.00
Martensitic Annealed 3 0.016 0.030 3.00 3.00 0.024 0.048 3.00 3.00
8 410 / 420 100 140
Stainless Steel Treated 4 0.020 0.032 4.00 4.00 0.032 0.050 4.00 4.00
EN - GJL 200 200 250 5 0.040 5.00 5.00 0.040 0.070 5.00 5.00
140 0.020
Grey Cast Iron 9 EN - GJL 250 6 0.048 6.00 6.00 0.048 0.085 6.00 6.00
to 230 160 200 0.024
EN - GJL 300 Contour - Finishing 8 0.032 0.050 8.00 8.00 0.050 0.100 8.00 8.00
EN - GJS 400 210 160 200 10 0.035 0.055 10.00 10.00 0.060 0.110 10.00 10.00
Nodular Cast Iron 10 EN - GJS 600 260 140 160 12 0.040 0.060 12.00 12.00 0.065 0.120 12.00 12.00
EN - GJS 800 310 120 140 16 0.045 0.075 16.00 16.00 0.080 0.130 16.00 16.00
Inconel 625 -------- 20 0.048 0.080 20.00 20.00 0.090 0.160 20.00 20.00
40 60
Nickel Based Alloys 11 Inconel 718 --------
Hastelloy C -------- 40 60
Plunge - Slot Contouring
Titanium Based TiAl 6 V4 -------- 50 100
12 contouring
Alloys T40 -------- 40 80 Finishing Semi Finishing Roughing
Al99,5 -------- Feed per Tooth Width Depth Feed per Tooth Width Depth Feed per Tooth Width Depth
Aluminium alloys 13 AlCuMgPb -------- 400 500 of Cut of Cut of Cut of Cut of Cut of Cut
Si < 4% Tool Diameter (mm) min max mm mm min max mm mm min max mm mm
AlZnMgCu1,5 --------
Contour - Slotting 2 0.032 0.045 0.25 2.00 0.032 0.045 0.50 2.00
Aluminium alloys G/AlSi6Cu4 --------
13 200 250 3 0.036 0.050 0.38 3.00 0.036 0.050 0.75 3.00
Si 4-8% G/AlSi8Cu3Fe --------
4 0.040 0.055 0.50 4.00 0.040 0.055 1.00 4.00
"Aluminium alloys G/AlSi12 --------
14 160 200 5 0.045 0.065 0.63 5.00 0.045 0.065 1.25 5.00
Si > 8%" G/AlSi12CuFe --------
6 0.050 0.070 0.75 6.00 0.050 0.070 1.50 6.00
MgMn 2 -------- 8 0.080 8.00
Magnesium alloys 15 160 200 0.060 1.00 0.060 0.080 2.00 8.00
MgAl9Zn -------- Profiling thin material 10 0.070 0.100 1.25 10.00 0.070 0.100 2.50 10.00
16 CuZn39Pb2 M558 -------- 400 500 12 0.080 0.120 1.50 12.00 0.080 0.120 3.00 12.00
16 0.100 0.150 2.00 16.00 0.100 0.150 4.00 16.00
user
CuSn6/8 --------
Copper alloys 17
CuSn7ZnPb --------
200 250
20 0.120 0.200 2.50 20.00 0.120 0.200 5.00 20.00 guid
18 CuAl19Ni -------- 160 200

236 237
 Solid Carbide machining recommendations

Formulas
Solid Carbide machining recommendations

rpm = sfm * 3.82 / tool diameter

terial
rpm = (m/min * 1000) / (3.14 * tool diameter)

feed per min = feed per tooth * number of teeth * rpm

Machining tips

Reference
1. For profiling-finishing cut - use 4 or 6 flute mill.
2. For slotting - use 3 flute mill for semi-roughing and higher feed rate.
Use a roughing mill for maximum chip removal. Use a 2 flute mill for long
chips (soft material).
3. For plunge-slot operation - use 3 flute mill for higher feed rate and 2 flute
mill for soft material.

List
4. For profiling-roughing cut - use roughing mill for rapid material removal
and higher feed rate.
5. For contour-finishing - use 2 or 4 ball nose mill.
6. For slot-contouring - use 2 flute ball nose for maximum chip removal.
Use 4 flute ball nose for finishing.
7. For profiling thin material - use 6 flute mill.
8. Climb milling is preferred in CNC machines.
9. For Aluminium machining use 6, 8 flute positive rake mill for finishing and a 2
flute short mill for slotting.

Pages 240 to 245

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238 239
Lamina Material Groups Standard Lamina Material Groups
Material Material
group number DIN AFNOR BS UNI JIS AISI/SAE group number DIN AFNOR BS UNI JIS AISI/SAE
Low Carbon Steel Alloy Steel
1 1.0036 US137-3 - - FE 37BFU - - 2 1.7015 15 Cr 3 15 C 2 523 M15 - SCr 415(H) 5015 / 5115
1 1.0401 C15 CC12 080M15 C15 / C16 S15C 1015 2 1.7033 34 Cr 4 32 C 4 530 A32 34 CR 4 (KB) SCr 430(H) 5132
1 1.0402 C22 CC20 050A20 C20 / C21 S20C / S22C 1020 2 1.7035 41 Cr 4 42 C 4 530 M40 - SCr 440(H)(M) 5140
1 1.0501 C35 CC35 060A35 C35 S35C / S35CM 1035 2 1.7045 41 Cr 4 41 C 4 530 A40 41 Cr 4 SCr 440 5140
1 1.0503 C45 CC45 080M46 C45 S45C / S45CM 1045 2 1.7147 20 MnCr 5 20 MC 5 - 20 MnCr 5 SMnC 420H 5120
1 1.0715 9 SMn 28 S250 230M07 CF 9 SMn 28 SUM22 1213 2 1.7176 55 Cr 3 55 C 3 527 A60 55 Cr 3 SUP9(A) 5155 / 5160
1 1.0718 9 SMnPb 28 S 250Pb - CF 9 SMnPb 28 SUM22L/SUM23L 12L3 2 1.7218 25 CrMo 4 25 CD 4 708 A25 25 CrMo 4(KB) SCM 420/SCM 430 4130
1 1.0722 10 SPb 20 - - - - - 2 1.7220 34 CrMo 4 35 CD 4 708 A37 35 CrMo 4 SCCr M3/SCM 435H 4137 / 4135
1 1.0725 15 SMn 13 - - - - - 2 1.7223 41 CrMo 4 42 CD 4TS 708 M40 41 CrMo 4 SCM 440 4140 / 4142
1 1.0726 35 S 20 - - - - - 2 1.7225 42 CrMo 4 42 CD 4 708 M40 42 CrMo 4 SCM 440(H) / SNB 74140 / 4142
1 1.0756 35 SPb 20 - - - - - 2 1.7227 42 CrMoS 4 - - - - -
1 1.076 38 SMn 28 - - - - - 2 1.7228 50 CrMo 4 50 CD 4 708 A47 - SCM 445(H) 4150
1 1.0762 44 SMn 28 - - - - - 2 1.7242 16 CrMo 4 - - 18 CrMo 4 SCM 418(H) -
1 1.0763 44 SMnPb 28 - - - - - 2 1.7262 15 CrMo 5 12 CD 4 - - SCM 415(H) -
1 1.0764 36 SMn 14 - - - - - 2 1.7264 20 CrMo 5 18 CD 4 - - SCM 421 / SCM 420H -
1 1.0765 36 SMnPb 14 - - - - - 2 1.7335 13 CrMo 4 4 15 CD 3.5 / 4.5 1502 620 540 14 CrMo 3 SFVAF12 A182 A387 Gr.12
1 1.1121 Ck 10 XC 10 040 A10 2 C 10 S9 CK / S 10 C 1010 2 1.7337 16 CrMo 4 4 15 CD 4 5 - 18 CrMo 4 5 KW - A 387 Gr 12 CI2
1 1.1133 20 Mn 5 20 M 5 120 M19 20 Mn 7 SMnC 420 1022 / 1518 2 1.7361 32 CrMo 12 30 CD 12 722 M24 32 CrMo 12 - - 1
1 1.1141 Ck 15 XC 12 080 M15 C16 S15 / S15CK 1015 2 1.2067 102 Cr 6 Y 100 C 6 (BL3) - SUJ 2 L1 / L3
1 1.1157 40 Mn 4 40 M 5 150 M36 - - 1035 / 1041 2 1.2080 X210 Cr 12 Z200 C 12 BD3 X205 Cr 12KU SKD 1 D3
1 1.1158 C25E (CK 25) XC 25 070M25 C25 S25C / S28C 1025 1 2 1.2210 115 CrV 3 100 C 3 - 107 CrV3 KU - L2
1 1.1166 35 Mn 5 - - - SMn 433H 1536 2 1.2241 51 CrV 4 - - - - -
1 1.1170 28 Mn 6 20 M 5 (150 M8) C 28 Mn SCMn 1 1330
1 High Alloy Steel
1.1173 30 Mn 5 35 M 5 (150 M28) - SMn 433H / SCMn 2 1306 / 1330
1 1.1181 C35E (CK 35) XC 32 080 A35 C 35 S 35C 1035 / 1038 3 1.2311 40 CrMnMo 7 - - 35 CrMo 8 KU - -
1 1.1183 Cf 35 XC 38TS 080 A35 C36 / C38 S35C / S35CM 1035 3 1.2343 X38 CrMoV 5 1 Z38 CDV 5 BH11 X37 CrMoV51 KU SKD 6 H 11
1 1.1191 C45E (Ck 45) XC 45 080 M46 / 060 A47 C45 S45C / S48C / S45CM1045 3 1.2344 X40 CrMoV 5 1 Z40 CDV 5 BH13 X40 CrMoV 511KU SKD 61 H 13
3 1.2363 X100 CrMoV 5 1 Z100 CDV 5 BA2 X100 CrMoV 5 1KU SKD 12 A2
Alloy Steel 1.2365 X32 CrMoV 3 3 32 DCV 12 28 BH10 30 CrMoV 12 27KU - H10
3
2 1.0050 St 50-2 - - FE 50 SS50 / SS490 - 3 1.2379 X155 CrVMo 12 1 Z160 CDV 12 BD2 X155 CrVMo121 KU SKD 11 D2
2 1.0060 St 60-2 - - FE 60-2 SM570 / SM58 - 3 1.2419 105 WCr 6 105 WC 13 - 107 WCr 5 KU SKS 31 / SKS 2 / SKS 3 -
2 1.0070 St 70-2 - - FE 70-2 FE70-2 - 3 1.2436 X210 CrW 12 Z210 CW 12 1 - X215 CrW 12 1 KU SKD 2 -
2 1.0535 C55 - 070M55 C55 S55C / S55CM 1055 3 1.2510 100 MnCrW 4 90 MWCV 5 BO1 95 MnWCr 5KU BO 1 O1
2 1.0601 C60 CC55 080A62 C60 S58C 1060 3 1.2542 45 WCrV 7 45 WCV 20 BS1 45 WCrV 8 KU - S1
2 1.1203 C55E (CK 55) XC 55 060 A57 / 070 M55 C50 S55C / S55CM 1055 3 1.2550 60 WCrV 7 55 WC 20 BS1 58 WCr 9 KU - S1
2 1.1213 Cf 53 XC 48TS 060A52 C53 S50C / S50CM 1050 3 1.2567 30 WCrV 17 2 Z32 WCV 5 - X30 WCrV 5 3 KU SKD 4 -
1.1221 C60E (CK 60) XC 60 060 A62 C60 S58C / S60CM 1060 / 1064 3 1.2581 ~X30 WCrV 9 3 Z30 WCV 9 BH21 X30 WCrV 9 3 KU SKD 5 H 21
2
2 1.1525 C 80 W1 C 90 E2U - C 80 KU - W 108 3 1.2601 X165 CrMoV 12 - - X165 CrMoW 12 KU - -
2 1.1545 C 105 W1 C 105 E2U - C 100 KU SK3 / SUP4 W110 3 1.2606 X37 CrMoW 5 1 Z35 CWDV 5 BH12 X35 CrMoW 05 KU SKD 62 H 12
2 - W 112 3 1.2713 55 NiCrMoV 6 55 NCDV 7 BH 244/5 - SKT 4 L6
1.1563 C 125 W C 120 E3U C 120 KU SK2
2 1.1573 C 135 W C 140 E3U - C 140 KU - - 3 1.2721 50 NiCr 13 - - - - -
2 1.1625 C 80 W2 - BW 1B - SK5 / SK6 W1 3 1.2762 75 CrMoNiW 6 7 - - - - -
2 1.1750 C 75 W - BW 1A - - W1 3 1.2842 90 MnCrV 8 90 MV 8 BO2 88 MnV 8 KU - O2
2 1.2330 35 CrMo 4 34 CD 4 708 A37 / (BP20) 35 CrMo 4 - 4135 / P20 3 1.2885 X32 CrMoCoV 3 3 3 - BH 10A - - (H10A)
2 1.2332 47 CrMo 4 - - 40 CrMo 4 - 4142 3 1.3202 S 12-1-4-5 - BT15 HS12-1-5-5 - T15
2 1.5415 15 Mo 3 15 D 3 1501-240 16 Mo3 KW STBA12 / STFA12 ASTM A204 GrA 3 1.3207 S 10-4-3-10 Z130 WKCDV 10 10 4 4 3 BT42 HS10-4-3-10 SKH 57 -
2 1.5423 16 Mo 5 - 1503-245-420 16 Mo5 SB 450M / SB 480M4520 3 1.3243 S 6-5-2-5 Z90 KCV 6 5 5 4 2 334 HS 6-5-2-5 SKH 55 -
2 1.5622 14 Ni 6 16 N 6 - 14 Ni 6 SL9N590 ASTM A350LF5 3 1.3246 S 7-4-2-5 Z110 WKCDV 7 5 4 4 2 - HS 7-4-2-5 - M 41
2 - - 3140 - 3 1.3247 S 2-10-1-8 Z110 DKCWV 9 8 4 2 1 BM42 HS2-9-1-8 SKH 59 M 42
1.5711 40 NiCr 6 38 NC 6
2 1.5713 13 NiCr 6 10 NC 6 - - 3115 - 3 1.3249 S 2-9-8 - (BM34) - - M33 / M34
2 1.5732 14 NiCr 10 14 NC 11 - 16 NiCr 11 SNC 415(H) 3415 3 1.3343 S 6-5-2 Z 85 WDCV 6 5 4 2 BM2 HS 6-5-2-5 SKH 51 M2
2 1.5752 14 NiCr14 12 NC 15 655 M13 - SNC 815(H) 3415 / 3310 3 1.3344 S 6-5-3 Z130 WDCV 6 5 4 4 - - SKH 52 / SKH 53 M2 Class 2
2 1.5919 15 CrNi 6 - - - - 3115 3 1.3346 S 2-9-1 Z85 DCWV 8 4 2 1 BM1 - - H41 / M1
2 1.7003 38 Cr 2 38 C 2 120 M36 38 Cr 2 - 3 1.3401 G-X120 Mn 12 Z120 M 12 BW10 - - A128 75
2 1.7006 46 Cr 2 42 C 2 - 45 Cr 2 - 5045 / 5046 3 1.3501 100 Cr 2 100 C 2 - - - E 50100

® ®

240 241
 Lamina Material Groups Lamina Material Groups
Material Material
group number DIN AFNOR BS UNI JIS AISI/SAE group number DIN AFNOR BS UNI JIS AISI/SAE

High Alloy Steel Austentic stainless Steel

3 1.3505 100 Cr 6 100 C 6 534 A99 100 Cr 6 SUJ2 / SUJ4 52100 4 1.4567 X3 CrNiCu 18.9.4 - 304 Cu X3 CrNiCu 18.9.4 XM7 304Cu
3 1.4086 G-X120 Cr 29 - 452 C11 - - - 4 1.4568 X7 CrNiAl 17 7 Z CNA 17 7 301 S81 - - -
3 1.4125 X105 CrMo 17 Z100 CD 17 - - SUS 440C 440C 4 1.4570 X8 CrNiCuS 18.9.2 - 303 Cu X8 CrNiCuS 18.9.2 SUS 303Cu 303Cu
3 1.4871 X53 CrMnNiN 21 9 Z53 CMN 21 9 Az 349 S54 X53 CrMnNiN 21 9 SUH 35 / SUH 36 EV8
3 - X20 CrMoV 12 1 - -
Austentic stainless Steel
1.4922 X20 CrMoV 12 1 -
3 1.5662 X8 Ni 9 - 1502-502-650 X10 Ni 9 SL 9N53 / 60 A353 5 1.4401 X2 CrNiMo 17 12 2 Z6 CND 17 11 2 316 S13 / 316 S31 X5 CrNiMo 17 12 SUS 316 316
3 1.5680 X12 Ni 5 Z18 N 5 - - SL 5N 590 2515 2517 5 1.4404 X2 CrNiMo 17 12 2 Z2 CND 17 12 2 316 S11 / 316 S13 X2 CrNiMo 17 12 SUS 316L 316L
3 1.5710 36 NiCr 6 35 NC 6 640 A35 - SNC 236 3135 5 1.4406 X2 CrNiMoN 17 11 2 Z3 CND 17 11 Az 316 S61 / 316 S63 X2 CrNiMoN 17 12 SUS 316LN 316LN
3 1.5736 36 NiCr 10 30 NC 11 - - SNC 631(H) 3435 5 1.4408 G-X 5 CrNiMo 19 11 2- 316 C16 / (LT196) / A - SCS14 CF-8M
3 1.5755 31 NiCr 14 18 NC 13 653 M 31 - SNC 836 - 5 1.4429 X2 CrNiMoN 17 13 3 Z2 CND 17 12 Az 316 S63 X2 CrNiMoN 17 13 (SUS 316LN) 316LN
3 1.5864 35 NiCr 18 - - - - - 5 1.4435 X2 CrNiMo 18 14 3 Z2 CND 17 12 3 316 S11 / 316 S31 X2 CrNiMo 17 13 SUS 316L 316L
3 1.6511 36 CrNiMo 4 40 NCD 3 817 M37 38 NiCrMo 4(KB) - 9840 4340 5 1.4436 X3 CrNiMo 17 13 3 Z6 CND 18 12 3 316 S19 / 316 S33 / LW X5 CrNiMo 17 13 SUS 316 316
3 1.6523 21 NiCrMo 2 20 NCD 2 805 M20 20 NiCrMo 2 SNCM 220(H) 8620 5 1.4438 X2 CrNiMo 18 15 4 Z2 CND 19 15 4 317 S12 X2 CrNiMo 18 16 SUS 317L 317L
3 1.6546 40 NiCrMo 22 - 311-TYPE 7 40 NiCrMo 2(KB) SNCM 240 8740 5 1.4449 X3 CrNiMo 18 12 3 - 317 S16 X5 CrNiMo 18 15 SUS 317 317
3 1.6562 40 NiCrMo 8 4 - 817 M40 40 NiCrMo 7(KB) - 1
E 4340
3 1.6565 40 NiCrMo 6 - SNCM 439 4340 / 9850
Austentic and duplex stainless Steel
817 A37 / 818 M40 -
3 1.6580 30 CrNiMo 8 30 CND 8 823 M30 30 NiCrMo 8 SNCM 431 - 6 1.4057 X17 CrNi 16.2 Z15 CN 16 2 431 S29 X16 CrNi 16 SUS 431 431
3 1.6582 34 CrNiMo 6 35 NCD 6 817 M40 34 CrNiMo 6 SNCM 447 4340 / 4337 6 1.4313 X3 CrNiMo 13 4 Z4 CND 13 4 425 C11 - SCS 5 -
3 1.6587 17 CrNiMo 6 18 NCD 6 820 A16 - - - 6 1.4319 X3 CrNiN 17 8 - 301 S26 / 302 S26 - SUS 302 302
3 1.6657 14 NiCrMo 34 16 NCD 13 832 M13 15 NiCrMo 13 - 9310 6 1.434 G-X40 CrNi 27 4 - - - - -
3 1.6746 32 NICrMo 14 5 35 NCD 14 - - - - 6 1.4362 X2 CrNiN 23 4 Z2 CN 23 04 AZ - - - S32304
3 1.6747 30 NiCrMo 16 6 35 NCD 16 835 M30 - - - 6 1.4410 X2 CrNiMoN 25 7 4 - - - - -
3 1.6773 36 NiCrMo 16 - - - - - 6 1.4417 X2 CrNiMoSi 19 5 - - - - S31500
3 1.7102 54 SiCr 6 54 SC 6 - - - 401 6 1.4460 X8 CrNiMoN 27 5 2 Z5 CND 27 5 Az - - SUS 329J1 329
3 1.7108 60 SiCr 7 60 SC 7 - 60 SiCr 8 - 9262 6 1.4462 X2 CrNiMoN 22 5 3 Z23CND 22 5 3 Az 318 S13 - SUS 329J3L -
3 1.7131 16 MnCr 5 16 MC 5 527 M17 / 590 H17 16 MnCr 5 - 5115 6 1.4500 G-X7 NiCrMoCuNb 25 20 23 NCDU 25 20M - - - -
3 1.7238 49 CrMo 4 - - - - - 6 1.4510 X3 CrTi 17 Z4 CT 17 - X6 CrTi 17 SUS 430LX 430 Ti / 439
3 1.7362 12 CrMo 19 5 Z 10 CD 5 5 3606-625 16 CrMo 20 5 SFVAF5A / SFVAF5B - 6 1.4511 X3 CrNb 17 Z4 CNb 17 - X6 CrNb 17 SUS 430LX -
3 1.7380 10 CrMo 9 10 10 CD 9 10 3606-622 12 CrMo 9 10 SFVAF22A:B / SCMV4 A 182 F11/A 387 Gr.22 6 1.4521 X2 CrMoTi 18 2 - - - SUS 444 443 / 444
3 1.7561 42 CrV 6 - - - - - 6 1.4539 X1 NiCrMoCuN 25 20 3 Z2 NCDU 25 20 - - - 904L / UNS N08904
3 1.7701 51 CrMoV 4 51 CDV 4 - 51 CrMoV 4 - - 6 1.4541 X10 CrNiMoTi 18 10 Z6 CNT 18 10 321 S12 / 321 S51 X6 CrNiTi 18 11 SUS 321 321
3 1.7715 14 MoV 6 3 - 1503-660-440 - - - 6 1.4542 X5 CrNiCuNb 16 4 Z7 CNU 17 4 - - SUS 630 / SCS24 630
3 1.7733 24 CrMoV 5 5 20 CDV 6 - 21 CrMoV 5 11 - - 6 1.4546 X5 CrNiNb 18 10 - 347 SD31 X6 CrNiNb 18 11 - 348
3 1.7755 GS-45 CrMoV 10 4 - - - - - 6 1.455 X6 CrNiNb 18 10 Z6 CNNb 18 10 347 S20 / 347 S31 X6 CrNiNb 18 11 SUS 347 347 / 348
3 1.8070 21 CrMoV 5 11 - - 35 NiCr 9 - - 6 1.4552 G-X5 CrNiNb 19 11 Z4 CNNb 18 10M 347 C17 - SCS 21 -
3 1.8159 50 CrV 4 51 CV 4 735 A51 50 CrV 4 SUP 10 6145 / 6150 6 1.4558 X2 NiCrAITi 32 20 - NA15 - - N 08800
3 1.8507 34 CrAlMo 5 30 CAD 6.12 - 34 CrAlMo 7 - A 355 CI.D 6 1.4562 X1 NiCrMoCu 32 28 7 - - - - N 08031
3 1.8509 41 CrAIMo 7 40 CAD 6 12 905 M39 41 CrAIMo 7 SACM 645 / SACM 1 A 355 Cl.A / E71400 6 1.4563 X1 NiCrMoCuN 31 27 4 Z 1 NCDU 31 27 - - - N 08028
3 1.8515 31 CrMo 12 30 DC 12 722 M24 30 CrMo 12 - - 6 1.4571 X6 CrNiMoTi 17 12 2 Z6 CNDT 17 12 320 S18 / 320 S31 X6 CrNiMoTi 17 12 SUS 316Ti 316Ti
3 1.8519 31 CrMoV 9 - - - - - 6 1.4580 X6 CrNiMoNb 17 12 2 Z6 CNDNb 17 12 318 S17 X6 CrNiMoNb17 12 - (316 Cb)
3 1.8523 39 CrMoV 13 9 - 897 M39 36 CrMoV 12 - - 6 1.4581 G-X5 CrNiMoNb 19 11 2 Z4 CNDNb 18 12M 318 C17 / ANC4C G-X 6 CrNiMoNb 20 11 - -
1.8550 34 CrAlNi 7 30 CAD 6 12 905 M31 - - - 6 1.4583 X10 CrNiMoNb 18 12 - - X6 CrNiMoNb 17 13 - 318
6 1.4585 G-X7 CrNiMoCuNb 18-18 - X6 CrNiMoSi 17 12 - -
Austentic stainless Steel 6 1.4747 X80 CrNiSi 20 Z80 CNS 20 2 443 S65 X80 CrNiSi 20 SUH 4 HNV6
4 1.4005 X12 CrS 13 Z11 CF 13 416 S21 X12 CrS 13 SUS 416 416 6 1.4821 X20 CrNiSi 25 4 Z20 CNS 25 04 - - - -
4 1.4104 X14 CrMoS 17 Z13 CF 17 441 S29 X10 CrS 17 SUS 430F 430F 6 1.4823 G-X40 CrNiSi 27 4 - - - - -
4 1.4113 x6 CrMoS 17 1 Z8 CD 17 01 434 S17 X8 CrMo 17 SUS 434 434 6 1.4828 X15 CrNiSi 20 12 Z17 CNS 20 12 309 S24 X16 CrNi 23 14 SUH 309 309
4 1.4301 X5 CrNi 18 9 Z6 CN 18 9 304 S15 / LW21 / LWCF X5 CrNi 18 10 SUS 304 304 / 304H 6 1.4833 X12 CrNi 22.13 Z15 CN 24 13 309 S13 X6 CrNi 23 14 - 309S
4 1.4303 X4 CrNi 18 12 Z5 CN 18 11FF 305 S17 / 305 S19 X7 CrNi 18 10 SUS 305 / SUS 305J1 305 / 308 6 1.4837 G-X40 CrNiSi 25 12 - 309 C30 G-X40 CrNiSi 25 12 SCH 17 / SCH 13A -
4 1.4305 X8 CrNiS18 9 Z8 CNF 18 9 303 S22 / 303 S31 X10 CrNiS 18 9 SUS 303 303 6 1.4841 X15 CrNiSi 25 20 Z15 CNS 25 20 314 S25 X15 CrNiSi 25 20 SUH 310 310 / 314
4 1.4306 X2 CrNi 18 9 Z2 CN 18 9 304 S11 / LW20 / LWCF X3 CrNi 18 11 SUS 304L / SCS19 304L 6 1.4845 X12 CrNi 25 21 Z12 CN 25 20 310 S24 X6 CrNi 25 20 SUS 310 310
4 1.4308 G-X5 CrNi 19 10 Z6 CN 18 10M 304 C15 / (LT196) - SCS 13 CF8 6 1.4848 G-X40 CrNiSi 25 20 - 310 C40 / 310 C45 G-X40 CrNiSi 26 20 SCH 21 / SCH 22 HK
4 1.4310 X10 CrNi 18 8 Z12 CN 17 8 301 S21 / 301 S22 X12 CrNi 18 07 SUS 301 301 6 1.4864 X 12 NiCrSi 35 16 Z12 NCS 33 16 NA17 - SUH 330 330
4 1.4311 X2 CrNiN 18 10 Z2 CN 18 7 Az 304 S61 X2 CrNiN 18 10 SUS 304LN 304LN 6 1.4865 G-X40 NiCrSi 38 18 - 330 C11 / 330 C40 G-X50 NiCrSi 39 19 SCH 15 / SCH 16 -
4 1.4312 G-X10 CrNi 18 8 Z10 CN18 9M 302 C25 / ANC3A - SCS 12 / SCS 13A - 6 1.4873 X45 CrNiW 18 9 Z45 CNW 18 9 - X45 CrNiW 18 9 SUH 31 -

® ®

242 243
 Lamina Material Groups Lamina Material Groups
Material Material
group number DIN AFNOR BS UNI JIS AISI/SAE group number DIN AFNOR BS UNI JIS AISI/SAE
6.Austentic and duplex stainless Steel
Austentic
7.Ferritic
andstainless
duplex stainless
Steel 8.Martensitic
Steel stainless Steel Nodular cast Iron
6 1.4876 X10 NiCrAlTi 32 20 Z10 NC 32 21 NA15(H) - NCF 800(TP) B163 10 0.8170 GTS-70 M870-2 P690/2 - - 90001
6 1.4878 X12 CrNiTi 18 9 Z6 CNT 18 10 321 S51 (X6 CrNiTi 18 11) SUS 321 321
6
Nickel based Alloys
1.4882 X50 CrMnNiNbN 21 9Z50 CMNNb 21 9 - - - -
6 1.4958 X5 NiCrAITi 31 20 - - - - - 11 2.4360 NiCu 30 Fe NU 30 NA13 - Monel 400 Monel 400
6 1.4977 X40 CoCrNi 20 20 Z42 CNKDWNb - - - - 11 2.4375 NiCu 30 AI ND 30 AT NA18 - Monel K-500 Monel K-500
11 2.4610 NiMo 16Cr 16Ti - - - Hastelloy C-4 Hastelloy C-4
Ferritic stainless Steel
11 2.4630 NiCr 20 Ti NC 20 T HR 5, 203-4 - Nimonic 75 Nimonic 75
7 1.4000 X6 Cr 13 Z6 C 13 403 S17 X6Cr 13 SUS 403 / SUS 410S 403 / 410S / 429 11 2.4642 NiCr 29 Fe NC 30 Fe - - Inconel 690 Inconel 690
7 1.4001 X7 Cr 14 Z8 C 13FF 403 S17 X6 Cr 13 SUS 403 / SUS 401S 403 / 401S / 429 11 2.4668 NiCr 19 FeNbMo NC 19 Fe Nb - - Inconel 718 Inconel 718
7 1.4002 X6 CrAI 13 Z8 CA 12 405 S17 X6 CrAI 13 SUS 405 405 11 2.4669 NiCr 15 Fe7TiAI NC 15 TNb A - - Inconel X-750 Inconel X-750
7 1.4008 G-X 7 CrNiMo 12 1 Z12 CN 13M 410 C21 GX12 Cr 13 - - 11 2.4685 G-NiMo 28 - - - Hastelloy B Hastelloy B
7 1.4016 X8 Cr 17 Z8 C 17 430 S17 / 430 S18 X8 Cr 17 SUS 430 430 11 2.4694 NiCr 16 Fe 7 TiAI - - - Inconel 751 Inconel 751
7 1.4742 X10 CrAl 18 Z12 CAS 18 430 S15 X8 Cr 17 SUH 21 - 1 11 2.4810 G-NiMo 30 - - - Hastelloy C Hastelloy C
7 1.4762 X10 CrAl 24 Z10 CAS 24 - X16 Cr 26 (SUH 446) -446 11 2.4856 NiCr 22Mo 9Nb NC 22 FeDNb NA21 - Inconel 625 Inconel 625
11 2.4858 NiCr 21 Mo NC 21 FeDU NA16 - Incoloy 825 Incoloy 825
Martensitic stainless Steel
Titanium based Alloys
8 1.2083 X42 Cr 13 Z40 C 14 - - SUS 420J2 420
8 1.4006 X12 Cr 13 Z10 C 13 410 S21 / 410 C21 X12 Cr 13 SUS 410 410 12 3.7025 Ti 1 - 2TA1 - - R 50250 / Titan Grade 2

8 1.4011 G-X 12 Cr 12 - ANC1A - - CA-15 12 3.7115 TiAI 5 Sn 2 - - - - -

8 1.4021 X20 Cr 13 Z20 C 13 420 S37 X20 Cr 13 SUS 420J1 420 12 3.7124 TiCu 2 - 2TA21-24 - - -
8 1.4024 X15 Cr 13 Z15 C 13 420 S29 - SUS 410J1 410 12 3.7145 TiA I6 Sn 2 Zr 4 Mo 2 S - - - - R 54620
8 1.4027 G-X20 Cr 14 Z20 C 13M 420 C24 / 420 C29 - SCS 2 - 12 3.7165 TiAI 6 V 4 TA 6 V TA 10-13; TA28 - - R 56400 / Titan Grade 5
8 1.4028 X30 Cr 13 Z30 C 13 420 S45 (G) X 30 Cr 13 SUS 420J2 420F 12 3.7175 TiAI 6 V 6 Sn 2 - - - - -
8 1.4031 X39 Cr 13 Z40 C 14 - X40 Cr 13 SUS 420J2 - 12 3.7185 TiAI 4 Mo 4 Sn 2 - TA 45-51; TA 57 - - -
8 1.4034 X46 Cr 13 Z44 C 14 (420 S45) X40 Cr 14 - - 12 3.7195 TiAI 3 V 2.5 - - - - -
8 1.4531 X40 CrSiMo 10 2 Z40 CSD 10 - - SUH 3 - 12 3.7225 TI-35A 0.2PD - TP1 - - R 52250 / Titan Grade 1

8 1.4718 X45 CrSi 9 3 Z45 CS 9 401 S45 X45 CrSi 8 SUH 1 HNV3 12 3.7235 Ti-50A 0.2PD - - - - Titan Grade 7
8 1.4720 X20 CrMo13 - - - - -
8 - SUS 405
Cobalt based Alloys
1.4724 X10 CrAl 13 Z10 C 13 X10 CrAl 12 405
--- Stellite 6 Stellite 6 - - - VF2
Gray cast Iron --- Stellite 7 Stellite 7 - - - -
9 0.6010 EN-GJL 100 / GG 10 Ft 10D - G 10 FC 100 CLASS 20 ---- Stellite 12 Stellite 12 - - - VF7
9 0.6015 EN-GJL 150 / GG 15 Ft 15D GRADE 150 G 15 FC 150 CLASS 25 ----- Stellite F Stellite F - - - -
9 0.6020 EN-GJL 200 / GG 20 Ft 20D GRADE 220 G 20 FC 200 CLASS 30
0.6025 EN-GJL 250 / GG 25 Ft 25D GRADE 260 G 25 FC 250 CLASS 35 Bronze
9
9 0.6030 EN-GJL 300 / GG 30 Ft 30D GRADE 300 G 30 FC 300 CLASS 45 13 2.0966 CuAl10 Ni5 Fe4 CuAl9 Ni5 Fe3 M1 CA 104 - - CDA / C63000
9 0.6035 EN-GJL 350 / GG 35 Ft 35D GRADE 350 G 35 FC 350 CLASS 50 13 2.1052 CuSn12 Ni - 1400 PB2 - - CDA / C 91700
9 0.6040 EN-GJL 400 / GG 40 Ft 40D GRADE 400 - - CLASS 55 13 2.1090 CuSn7 ZNPb U-E7 Z5 Pb4 BS 1400 - - CDA / C 93200
2.1176 CuPb10 SN U PB8 1400 LB2 - - CDA / C 94400
Nodular cast Iron 13

10 0.7033 EN-GJS 350/GGG 35.3- - - - -

Aluminium with low Silicon
10 0.7040 EN-GJS 400/GGG 40 FCS 400-12 SNG420/12 GGG 40 FCD 400 60-40-18 14 3.1255 AlCuSiMn A-U4SG - - - -
10 0.7043 EN-GJS400-15/GGG 40.3 FCS 370-17 SNG370/17 - - - 14 3.1325 AlCuMg 1 A-U4G - - - -
10 0.7050 EN-GJS 500/GGG 50 FCS 500-7 SNG500/7 GGG 50 FCD 500 80-55-06 14 3.1645 AlCuMgPb A-U4Pb - - - -
10 0.7060 EN-GJS 6007/GGG 60 FCS 600-3 SNG600/3 GGG 60 FCD 600 - 14 3.2153 G-AlSi7 Cu3 - - - - -
10 0.7070 EN-GJS 700/GGG 70 FCS 700-2 SNG700/2 GGG 70 FCD 700 1000-70-03 14 3.2315 AlMgSi 1 A-SGM0,7 - - - -
10 0.8035 GTW-35 MB35-7 W340/3 - - - 14 3.3355 AlMg5 - - - - -
10 0.8040 GTW-40 MB40-10 W410/4 GMB40 - - 14 3.3535 AlMg 3 A-G3M - - - -
10 0.8045 GTW-45 - - GMB45 - -
10
Aluminium with high Silicon
0.8055 GTW-55 - - - - -
10 0.8065 GTW-65 - - - - - 15 3.2573 G-AlSi9 - - - - -
10 0.8135 GTS-35 MN35-10 B340/12 - FCMW 330 32510 15 3.2581 G-AlSi12 - - - - -
10 0.8145 GTS-45 - P440/7 - FCMW 370 40010 15 3.2583 G-AlSi12 Cu - - - - -
10 0.8155 GTS-55 MP50-5 PS10/4 - FCMP 490 50005
10 0.8165 GTS-65 MP60-3 P570/3 - FCMP 540 70003
2
® 2 ®

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Insert reference table Standard Insert reference table Standard
Look up your existing insert designation in the left column - the compatible Lamina insert is shown in the right Look up your existing insert designation in the left column - the compatible Lamina insert is shown in the right
column. Lamina Milling grade LT-30 will replace the grade of the insert being used. column. Lamina Milling grade LT-30 will replace the grade of the insert being used.

Reference Insert Lamina Insert Reference Insert Lamina Insert Reference Insert Lamina Insert Reference Insert Lamina Insert
A APKT 160408E APKT 1604 PDTR OFEX 05T305TN-M08 OFMT 05T305 TR SEET 1204 AFER SEKT 1204 AFTN
APCR 1003 PDFR-P APLX 1003 PDTR APKT 160408R APKT 1604 PDTR OFEX 05T305TN-ME07 OFMT 05T305 TR SEEX 1203AFTN-M13 SEKN 1203 AFTN
APCT 1003 PDR-HM APLX 1003 PDTR APKT 160408TR-D15 APKT 1604 PDTR OFMR 0704 AER-76 OFER 070405TN SEHN 1203 AFEN SEKN 1203 AFTN
APCT 160408FR APKT 1604 PDTR APKT 1604PDTR-M14 APKT 1604 PDTR OFMR 0704 AER-M OFER 070405TN SEHN 1204 AFEN SEKN 1204 AFTN
APET 100 305ER APLX 1003 PDTR APKT 1604PDTR-ME14 APKT 1604 PDTR OFMR 0704 AETN OFER 070405TN SEHN1504 AFSN SEKN 1504 AFTN
APET 100 308ER APLX 100308 PDTR APKX 1604PDR-ME11 APMT 1604 PDTR OFMR 070405TR-ME13 OFER 070405TN SEHT 1204 AFN SEKT 1204 AFTN
APET 160404 HS APKT 1604 PDTR APKX 1604PDR-ME12 APMT 1604 PDTR OFMT 050405TR-M14 OFMT 050405TR SEKN 1203 AFEN SEKN 1203 AFTN
APET 160408ER APKT 1604 PDTR APMT 1604 PDER APKT 1604 PDTR OFMT 050405TR-ME12 OFMT 050405TR SEKN 1203 AFFN SEKN 1203 AFTN
APET 160408HS APKT 1604 PDTR APMT 160408-M APMT 1604 PDTR OFMT 05T3 AFN-HR OFMT 05T305 TR SEKN 1203 AFSN SEKN 1203 AFTN
APET 160408TR APKT 1604 PDTR APMW 1604 PDTR APKT 1604 PDTR OFMT 05T3 TN-ML OFMT 05T305 TR SEKN 1203 AFTN SEKN 1203 AFTN
APEX 1604 PDFR APKT 1604 PDTR APMX 160408TR-M14 APKT 1604 PDTR OFMT 05T305 TN-76 OFMT 05T305 TR SEKN 1204 AFTN SEKN 1204 AFTN
APEX 160408FR-E07 APMT 1604 PDTR APMX 160408TR-ME11 APMT 1604 PDTR OFMT 070405TN-M15 OFMT 070405 TR SEKN 1504 AFEN D66 SEKN 1504 AFTN
APEX 160408FR-E08 APMT 1604 PDTR APPT 160408 PDER GD APKT 1604 PDTR OFMT 070405 TN-ME13 OFMT070405 TR SEKN 1504 AFSN SEKN 1504 AFTN
APFT 1604 PDR APKT 1604 PDTR APPT 160408 PDSR GD APKT 1604 PDTR SEKR 1203 AFEN SEKR 1203 AFTN
R SEKR 1203 AFEN-U SEKR 1203 AFTN
APFT 1604 PDTR APKT 1604 PDTR
H R245-12T3 E-KL SEKT 12T3 AFTN SEKR 1204 AFSN 6GP SEKR 1204 AFTN
APFT 1604PDR-M12 APKT 1604 PDTR
APFT 1604PDTR-D15 APKT 1604 PDTR HM90 APCR 100304 PDFRDP APLX 1003 PDTR R245-12T3 E-ML SEKT 12T3 AFTN SEKT 1204 AFER SEKT 1204 AFTN
APFT 1604PDTR-E08 APKT 1604 PDTR HM90 APCR 100304 PDFR-P APLX 1003 PDTR R245-12T3 E-PL SEKT 12T3 AFTN SELT 1204 EN SEKT 1204 AFTN
APFW 1604 PDER APKT 1604 PDTR HM90 APKT 1003 PDR APLX 1003 PDTR R245-12T3 K-MM SEKT 12T3 AFTN SEMN 1203 AFN SEKN 1203 AFTN
APFW 1604 PDTR APKT 1604 PDTR HM90 APKT 1003 PDTR-8M APLX 1003 PDTR R245-12T3 M-KH SEKT 12T3 AFTN SEMR 1203 AFSN SEKR 1203 AFTN
APHT 1604 PDER APKT 1604 PDTR HM90 APKT 100304 PDR APLX 1003 PDTR R245-12T3 M-KL SEKT 12T3 AFTN SEMR 1203 AFTN SEKR 1203 AFTN
APHT 1604 PDFR APKT 1604 PDTR R245-12T3 M-KM SEKT 12T3 AFTN SEMT 13T3 AGSN-JH SEKT 12T3 AFTN
O R245-12T3 M-PH SEKT 12T3 AFTN SEMT 13T3 AGSN-IM SEKT 12T3 AFTN
APHT 1604 PDTR APKT 1604 PDTR
APHW 100304 PDER APLX 1003 PDTR ODET 0605 APEN ODMT 060508 TN R245-12T3 M-PL SEKT 12T3 AFTN SENN 1203 AFEN SEKN 1203 AFTN
APHW 100308 PDER APLX 100308 PDTR ODMT 0605 APEN ODMT 060508 TN R245-12T3 M-PM SEKT 12T3 AFTN SENN 1204 AFEN SEKN 1204 AFTN
APHW 1604 PDER APKT 1604 PDTR ODMW 060508 ODMW 060508 TN r290-12T308 SPMT 12T308 SENN 1504 AFTN SEKN 1504 AFTN
APHW 1604 PDSR APKT 1604 PDTR ODMW 060508T ODMW 060508 TN SEPN 1203 AFEN 6GN SEKN 1203 AFTN
APHW 160408 PDER APKT 1604 PDTR ODPT 060508 ENGPW ODMT 060508 TN S SEPN 1204 AFEN 6GN SEKN 1204 AFTN
APKR 1003 PDR-HM APLX 1003 PDTR ODPW 060508 ENGN ODMW 060508 TN SDCW 1204 AEEN SDKT 1204 AETN SEPN 1504 AFEN 6GN SEKN 1504 AFTN
APKT 100 304ER APLX 1003 PDTR OFCN 0704 TN-EMR OFER 070405 TN SDCW 1204 AEFN SDKT 1204 AETN SPER 1203 AFEN 6GB SEKR 1203 AFTN
APKT 100 305ER APLX 1003 PDTR OFCN 0704 TN-MR OFER 070405 TN SDCW 1204 AETN SDKT 1204 AETN SPER 1204 AFEN 6GB SEKR 1204 AFTN
APKT 1003 PDER APLX 1003 PDTR OFCR 0704 TN-EML OFER 070405 TN SDGT 1204 AFFN SDKT 1204 AETN SEPT 13T3 AGEN GD SEKT 12T3 AFTN
APKT 1003 PDFR APLX 1003 PDTR OFCT 05T3 AFFN-P OFMT 05T305 TR SDHT 1204 AEEN SDKT 1204 AETN SMKN 1203 E2 R SPKN 1203 EDTR
APKT 1003PDRB APLX 1003 PDTR OFCT 05T3 TN-EM OFMT 05T305 TR SDHT 1204 AETN SDKT 1204 AETN SMKN 1204 E2 R SPKN 1204 EDTR
APKT 1003 PDR-HM APLX 1003 PDTR OFCT 05T3 TN-M OFMT 05T305 TR SDKT 1204 AEEN SDKT 1204 AETN SPCN 1203 SFR SPKN 1203 EDTR
APKT 1003 PDR-HM90 APLX 1003 PDTR OFEN 070405TN-D18 OFER 070405 TN SDMT 1204 AFPN P63 SDKT 1204 AETN SPEN 1203 EDR SPKN 1203 EDTR
APKT 1003 PDRJ APLX 1003 PDTR OFER 070405N-E07 OFER 070405 TN SEAN 1203 AFEN 6LN SEKN 1203 AFTN SPER 1204 ENGB SPKR 1204 EDTR
APKT 1003 PDTR-76 APLX 1003 PDTR OFER 070405N-M10 OFER 070405 TN SEAN 1204 AFEN 6LN SEKN 1204 AFTN
OFER 070405TN-M16 OFER 070405 TN SEAN 1504 AFEN 6LN SEKN 1504 AFTN
T
APKT 1003 PDTR-RM APLX 1003 PDTR
APKT 100308 PDTR-RM APLX 100308 PDTR OFER 070405TN-ME10 OFER 070405 TN SECN 1203 AFFN SEKN 1203 AFTN TPCN 160308 TPUN 160308
APKT 1003PDTR-8M APLX 1003 PDTR OFER 070405TN-ME15 OFER 070405 TN SEEN 1203 AFEN SEKN 1203 AFTN TPKN 1603 PP-R-42 TPK 1603 PDTR
APKT 1604 PDER APLX 1003 PDTR OFET 070405TN-M16 OFMT 070405 TR SEEN 1504 AFEN SEKN 1504 AFTN TPKN 2204 P2R TPKN 2204 PDTR
APKT 1604 PDER-M61 APKT 1604 PDTR OFET 070405TN-ME10 OFMT 070405 TR SEER 1203 AZ-WL SEKR 1203 AFTN TPMN 160308 TPUN 160308
APKT 1604 PDRB APKT 1604 PDTR OFET 070405TN-ME15 OFMT 070405 TR SEER 1203 AZ-WM SEKR 1203 AFTN
APKT 1604 PDR-HM APKT 1604 PDTR OFEX 05T305N-E04 OFMT 05T305 TR SEER1204 AFEN SEKR 1204 AFTN
APKT 1604 PDTR APKT 1604 PDTR OFEX 05T305N-M05 OFMT 05T305 TR SEER 1204 AFER SEKR 1204 AFTN
APKT 160404R APKT 1604 PDTR OFEX 05T305TN-D09 OFMT 05T305 TR SEET 13T3 AGEN-JL SEKT 12T3 AFTN

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