Pages • Multi-Mat® Concept • Lamina Multi-Mat® full ... - Tikontools
Pages • Multi-Mat® Concept • Lamina Multi-Mat® full ... - Tikontools
Pages • Multi-Mat® Concept • Lamina Multi-Mat® full ... - Tikontools
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TNMG 160408 R<br />
Material Group<br />
Low Carbon<br />
Steel<br />
Group Material Brinell<br />
No Examples*<br />
1<br />
Ck 15<br />
9SMnPb28<br />
42 CrMo 4<br />
Alloy Steel 2 100 Cr 6<br />
High Alloy<br />
Steel<br />
32 NiCrMo 14.5<br />
X38 CrMoV 5<br />
3 X210 CrW 12<br />
4<br />
X90 CrMoV 8<br />
hardness<br />
HB<br />
303 / 304 210<br />
304 L to 250<br />
Austenitic<br />
230<br />
5 316 / 316 L<br />
Stainless Steel to 270<br />
Ferritic<br />
Stainless Steel<br />
6<br />
316 Ti<br />
630 (F16PH)<br />
*For all material types and standards, see pages 240 to 245.<br />
Machining Conditions<br />
d.o.c [mm] feed [mm/rev] A max Vc [m/min] Optimal cutting<br />
[mm<br />
min max min max<br />
2 conditions<br />
]<br />
min max d.o.c feed<br />
150 5.0 0.50 2.50 330<br />
180 0.50 4.0 0.18 0.48 1.92 180 280 1 to 2.5 0.30<br />
210 4.0 0.42 1.68 250<br />
180 4.0 0.45 1.80 280<br />
0.15<br />
230<br />
4.0 0.42 1.68<br />
250<br />
0.50<br />
120<br />
280 3.0 0.40 1.20 210<br />
0.12<br />
320 3.0 0.37 0.90 180<br />
220 3.0 0.37 1.11 190<br />
280<br />
3.0 0.35 1.05<br />
150<br />
0.50<br />
0.12<br />
70<br />
320 3.0 0.32 0.69 130<br />
350 3.0 0.30 0.90 100<br />
0.50 3.0<br />
--------- 3.0<br />
7 430 / 439 / 444 Annealed 0.50 3.0<br />
®<br />
1 to 2.5 0.30<br />
1 to 2 0.26<br />
4.0 0.18 0.23 0.92 170 270 1 to 3 0.22<br />
0.15<br />
0.12<br />
0.21 0.63 160 210 1 to 2.5 0.19<br />
0.18 0.54 70 150 1 to 2 0.17<br />
0.22 0.66 170 250 1 to 2.5 0.19<br />
Martensitic<br />
Annealed<br />
170 250<br />
8 410 / 420 0.50 3.0 0.15 0.22 0.66<br />
Stainless Steel Treated 120 190<br />
0.15<br />
1 to 2.5 0.19<br />
EN - GJL 200<br />
2.00 250<br />
140<br />
Grey Cast Iron 9 EN - GJL 250<br />
0.50 5.0 0.12 0.40 2.00 170 230 1 to 3 0.28<br />
to 230<br />
EN - GJL 300 2.00 210<br />
Nodular Cast<br />
Iron<br />
Nickel Based<br />
Alloys<br />
Titanium Based<br />
Alloys<br />
EN - GJS 400 210 1.4 230<br />
10 EN - GJS 600 260 0.50 4.0<br />
0.35 1.4 120 190 1 to 2.5 0.26<br />
EN - GJS 800 310 1.4 150<br />
Inconel 625 0.66 25 35<br />
11 Inconel 718 -------- 0.50 3.0 0.12 0.22 0.66<br />
12<br />
Insert designation<br />
TNMG 60408 R<br />
Hastello y C 0.66 40 65<br />
0.10<br />
40 0.5 to 2 0.18<br />
TiAl 6 V4<br />
0.23 0.69 35 60 0.5 to 2 0.19<br />
-------- 0.50 3.0 0.12<br />
T40 0.21 0.63 28 40 0.5 to 2 0.19<br />
Super Finishing Finishing Semi Finishing Roughing Interrupted Cut<br />
2 3 4 2 3 4 2 3 4 2 3 4 2 3 4<br />
28<br />
TNMP Shape<br />
Turning<br />
Application Guide<br />
Insert designation<br />
TNMP 60408 NN<br />
Not recommended<br />
2 Acceptable<br />
3 Recommended<br />
4 Excellent<br />
T<br />
Clearance Angle<br />
N<br />
Tolerance<br />
M<br />
Insert Type<br />
P<br />
Triangle 60°<br />
0° No rake<br />
l ± 0.05 m ± 0.08<br />
s ± 0.13<br />
Pin / Top clamp<br />
Double sided<br />
Insert Designation Grade l s r Catalog Nr. Page*<br />
TNMP 60408 NN LT 10<br />
NN: All purpose, high positive chip breaker<br />
16 4,76 0,8<br />
T0000492 78<br />
* For Cutting data see<br />
relevant page<br />
Super Finishing Finishing Semi Finishing Roughing Interrupted Cut<br />
2 3 4 2 3 4 2 3 4 2 3 4 2 3 4<br />
Swiss<br />
Made Machining Recommendations Guide - please see page 6<br />
76 77<br />
TNMP