4 Flute – Single End – Square End

Metric
Series
4 Flute – Single End – Square End
1M
16M
www.sgstool.com
1M
1XLM
TOLERANCES
d1=+0,000–0,05
d2=h6
Series 1M
4-Flute End Mills – Square End –
Micrograin Solid Carbide – 30° Right
Hand Spiral – Right Hand Cutting –
Center Cutting
Serie 1M
Fresas de 4 filos – Punta plana
– Carburo sólido con micrograno
– Hélice a derecha 30° – Corte a
derecha – Corte al Centro
Cutting
Diameter
d1
mm
Length
of Cut
l2
mm
Overall
Length
l1
mm
Shank
Diameter
d2
mm
Uncoated
1
2
38
3
41605
49136
49157
49178
16M
1
4
38
3
40105
48500
48522
48543
1M
1,5
3
38
3
41609
49137
49158
49179
16M
1,5
4,5
38
3
40109
48501
48523
48544
1M
2
4
38
3
41613
49138
49159
49180
16M
2
6,3
38
3
40113
48502
48524
48545
1M
2,5
5
38
3
41617
49139
49160
49181
16M
2,5
9,5
38
3
40117
48503
48525
48546
1M
EDP No.
Ti-NAMITE Ti-NAMITE-C Ti-NAMITE-A
(TiN)
(TiCN)
(AlTiN)
EDP No.
EDP No.
EDP No.
Series
Number
Série 1M
3
6
38
3
41621
49140
49161
49182
16M
Fraises 4 dents – Bout plat –
Carbure monobloc, micrograin –
Hélice à droite, 30° – Coupe à droite
– Coupe au centre
3
12
38
3
40121
48504
48526
48547
1M
3,5
7
50
4
41625
49141
49162
49183
16M
3,5
12
50
4
40125
48505
48527
48548
1M
86
3
25
75
3
43101
49388
49401
49414
1XLM
4
8
50
4
41629
49142
49163
49184
16M
4
14
50
4
40129
48506
48528
48549
1M
4
25
75
4
43103
49389
49402
49415
1XLM
4,5
9,5
50
4,5
41633
49143
49164
49185
16M
4,5
16
50
6
40133
48507
48529
48550
1M
5
10
50
5
41637
49144
49165
49186
16M
5
16
50
6
40137
48508
48530
48551
1M
5
25
75
5
43107
49391
49404
49417
1XLM
6
12
50
6
41641
49145
49166
49187
16M
6
19
50
6
40141
48509
48531
48552
1M
6
25
75
6
43105
49390
49403
49416
1XLM
7
12
50
8
41645
49146
49167
49188
16M
7
19
63
8
40145
48510
48532
48553
1M
8
12
50
8
41649
49147
49168
49189
16M
8
20
63
8
40149
48511
48533
48554
1M
8
25
75
8
43115
49392
49405
49418
1XLM
9
14
50
9
41653
49148
49169
49190
16M
9
22
75
10
40153
48512
48534
48555
1M
10
16
50
10
41657
49149
49170
49191
16M
10
22
75
10
40157
48513
48535
48556
1M
continued on next page
1M
Metric
Series
4 Flute – Single End – Square End
16M
www.sgstool.com
1M
1XLM
TOLERANCES
d1=+0,000–0,05
d2=h6
Cutting
Diameter
d1
mm
Length
of Cut
l2
mm
Overall
Length
l1
mm
Shank
Diameter
d2
mm
Uncoated
10
38
100
10
43125
49393
49406
49419
1XLM
11
19
63
12
41661
49150
49171
49192
16M
11
25
75
12
40161
48514
48536
48557
1M
12
19
63
12
40165
49151
49172
49193
16M
12
25
75
12
41665
48515
48537
48558
1M
12
50
100
12
43135
49394
49407
49420
1XLM
12
75
150
12
43145
49395
49408
49421
1XLM
14
32
89
14
40169
48516
48538
48559
1M
14
75
150
14
43155
49396
49409
49422
1XLM
16
32
89
16
40173
48517
48539
48560
1M
16
75
150
16
43165
49397
49410
49423
1XLM
18
38
100
18
40177
48518
48540
48561
1M
18
75
150
18
43175
49398
49411
49424
1XLM
20
38
100
20
40181
48519
48541
48562
1M
20
75
150
20
43185
49399
49412
49425
1XLM
25
38
100
25
40185
48520
48542
48563
1M
25
75
150
25
43195
49400
49413
49426
1XLM
EDP No.
Ti-NAMITE Ti-NAMITE-C Ti-NAMITE-A
(TiN)
(TiCN)
(AlTiN)
EDP No.
EDP No.
EDP No.
Series
Number
265–266
87
Metric
Series
4 Flute – Single End – Ball End
1MB
1MB
www.sgstool.com
1XLMB
TOLERANCES
d1=+0,000–0,05
d2=h6
Series 1MB
4 Flute End Mills – Ball End –
Micrograin Solid Carbide – 30° Right
Hand Spiral – Right Hand Cutting
– Center Cutting
Serie 1MB
Fresas de 4 filos – Punta radial
o esférica – Carburo sólido con
micrograno – Hélice a derecha 30°
– Corte a derecha - Corte al centro
Série 1MB
Fraise 4 dents – Bout
hémisphérique – Carbure
monobloc, micrograin – Hélice à
droite, 30° – Coupe à droite - Coupe
au centre
265–266
90
Uncoated
Cutting
Diameter
d1
mm
1
1,5
2
2,5
3
3
3,5
4
4
4,5
5
5
6
6
7
8
8
9
10
10
11
12
12
12
14
14
16
16
18
18
20
20
25
25
Length
of Cut
l2
mm
4
4,5
6,3
9,5
12
25
12
14
25
16
16
25
19
25
19
20
25
22
22
38
25
25
50
75
32
75
32
75
38
75
38
75
38
75
Overall
Length
l1
mm
38
38
38
38
38
75
50
50
75
50
50
75
50
75
63
63
75
75
75
100
75
75
100
150
89
150
89
150
100
150
100
150
100
150
Shank
Diameter
d2
mm
3
3
3
3
3
3
4
4
4
6
6
5
6
6
8
8
8
10
10
10
12
12
12
12
14
14
16
16
18
18
20
20
25
25
EDP No.
Ti-NAMITE
(TiN)
EDP No.
Ti-NAMITE-C
(TiCN)
EDP No.
Ti-NAMITE-A
(AlTiN)
EDP No.
Series
Number
40106
40110
40114
40118
40122
43102
40126
40130
43104
40134
40138
43108
40142
43106
40146
40150
43116
40154
40158
43126
40162
41666
43136
43146
40170
43156
40174
43166
40178
43176
40182
43186
40186
43196
48564
48565
48566
48567
48568
49505
48569
48570
49506
48571
48572
49508
48573
49507
48574
48575
49509
48576
48577
49510
48578
48579
49511
49512
48580
49513
48581
49514
48582
49515
48583
49516
48584
49517
48586
48587
48588
48589
48590
49518
48591
48592
49519
48593
48594
49521
48595
49520
48596
48597
49522
48598
48599
49523
48600
48601
49524
49525
48602
49526
48603
49527
48604
49528
48605
49529
48606
49530
48607
48608
48609
48610
48611
49531
48612
48613
49532
48614
48615
49534
48616
49533
48617
48618
49535
48619
48620
49536
48621
48622
49537
49538
48623
49539
48624
49540
48625
49541
48626
49542
48627
49543
1MB
1MB
1MB
1MB
1MB
1XLMB
1MB
1MB
1XLMB
1MB
1MB
1XLMB
1MB
1XLMB
1MB
1MB
1XLMB
1MB
1MB
1XLMB
1MB
1MB
1XLMB
1XLMB
1MB
1XLMB
1MB
1XLMB
1MB
1XLMB
1MB
1XLMB
1MB
1XLMB
Metric
Series
3M
2 Flute – Single End – Square End
17M
www.sgstool.com
3M
59M
TOLERANCES
d1=+0,000–0,05
d2=h6
Cutting
Diameter
d1
mm
1
1
1,5
1,5
2
2
2,5
2,5
3
3
3
3
3,5
3,5
4
4
4
4
4,5
4,5
5
5
5
6
6
6
6
7
7
8
8
8
8
9
9
Length
of Cut
l2
mm
2
4
3
4,5
4
6,3
5
9,5
6
9
12
25
7
12
8
12
14
25
9,5
16
10
16
25
12
15
19
25
12
19
12
20
20
25
14
22
Overall
Length
l1
mm
38
38
38
38
38
38
38
38
38
60
38
75
50
50
50
70
50
75
50
50
50
50
75
50
80
50
75
50
63
50
63
90
75
50
75
continued on next page
3XLM
Shank
Diameter
d2
mm
3
3
3
3
3
3
3
3
3
6
3
3
4
4
4
6
4
4
4,5
6
5
6
5
6
6
6
6
8
8
8
8
8
8
9
10
Uncoated
EDP No.
Ti-NAMITE
(TiN)
EDP No.
Ti-NAMITE-C
(TiCN)
EDP No.
Ti-NAMITE-A
(AlTiN)
EDP No.
Series
Number
41705
40305
41709
40309
41713
40313
41717
40317
41721
43910
40321
43301
41725
40325
41729
43911
40329
43303
41733
40333
41737
40337
43307
41741
43912
40341
43305
41745
40345
41749
40349
43913
43315
41753
40353
49262
48628
49263
48629
49264
48630
49265
48631
49266
43920
48632
49427
49267
48633
49268
43921
48634
49428
49269
48635
49270
48636
49430
49271
43922
48637
49429
49272
48638
49273
48639
43923
49431
49274
48640
49283
48650
49284
48651
49285
48652
49286
48653
49287
43930
48654
49440
49288
48655
49289
43931
48656
49441
49290
48657
49291
48658
49443
49292
43932
48659
49442
49293
48660
49294
48661
43933
49444
49295
48662
49304
48671
49305
48672
49306
48673
49307
48674
49308
43950
48675
49453
49309
48676
49310
43951
48677
49454
49311
48678
49312
48679
49456
49313
43952
48680
49455
49314
48681
49315
48682
43953
49457
49316
48683
17M
3M
17M
3M
17M
3M
17M
3M
17M
59M
3M
3XLM
17M
3M
17M
59M
3M
3XLM
17M
3M
17M
3M
3XLM
17M
59M
3M
3XLM
17M
3M
17M
3M
59M
3XLM
17M
3M
263–266
95
3M
Metric
Series
2 Flute – Single End – Square End
17M
www.sgstool.com
3M
59M
3XLM
Series 3M
2-Flute End Mills – Square End
Micrograin Solid Carbide
30° Right Hand Spiral – Right Hand
Cutting – Center Cutting
Serie 3M
Fresas de 2 filos – Punta plana
Carburo sólido con micrograno
Hélice a derecha 30° – Corte a
derecha – Corte al centro.
Série 3M
Fraises 2 dents – Bout plat
Carbure monobloc, micrograin
Hélice à droite, 30° – Coupe à droite
– Coupe au centre
265–266
96
Cutting
Diameter
d1
mm
10
10
10
10
11
11
12
12
12
12
12
14
14
14
16
16
16
18
18
18
20
20
20
25
25
Length
of Cut
l2
mm
16
22
25
38
19
25
19
25
30
50
75
32
35
75
32
40
75
38
40
75
38
45
75
38
75
Overall
Length
l1
mm
50
75
100
100
63
75
63
75
110
100
150
89
120
150
89
120
150
100
130
150
100
130
150
100
150
Shank
Diameter
d2
mm
10
10
10
10
12
12
12
12
12
12
12
14
16
14
16
16
16
18
20
18
20
20
20
25
25
Uncoated
EDP No.
41757
40357
43914
43325
41761
40361
41765
40365
43915
43335
43345
40369
43916
43355
40373
43917
43365
40377
43918
43375
40381
43919
43385
40385
43395
TOLERANCES
d1=+0,000–0,05
d2=h6
Ti-NAMITE Ti-NAMITE-C Ti-NAMITE-A
(TiN)
(TiCN)
(AlTiN)
Series
EDP No.
EDP No.
EDP No. Number
49275
48641
43924
49432
49276
48642
49277
48643
43925
49433
49434
48644
43926
49435
48645
43927
49436
48646
43928
49437
48647
43929
49438
48648
49439
49296
48663
43934
49445
49297
48664
49298
48665
43935
49446
49447
48666
43936
49448
48667
43937
49449
48668
43938
49450
48669
43939
49451
48670
49452
49317
48684
43954
49458
49318
48685
49319
48686
43955
49459
49460
48687
43956
49461
48688
43957
49462
48689
43958
49463
48690
43959
49464
48691
49465
17M
3M
59M
3XLM
17M
3M
17M
3M
59M
3XLM
3XLM
3M
59M
3XLM
3M
59M
3XLM
3M
59M
3XLM
3M
59M
3XLM
3M
3XLM
Metric
Series
4 Flute – Single End – Square End
1M
16M
www.sgstool.com
1M
1XLM
TOLERANCES
d1=+0,000–0,05
d2=h6
Series 1M
4-Flute End Mills – Square End –
Micrograin Solid Carbide – 30° Right
Hand Spiral – Right Hand Cutting –
Center Cutting
Serie 1M
Fresas de 4 filos – Punta plana
– Carburo sólido con micrograno
– Hélice a derecha 30° – Corte a
derecha – Corte al Centro
Cutting
Diameter
d1
mm
Length
of Cut
l2
mm
Overall
Length
l1
mm
Shank
Diameter
d2
mm
Uncoated
1
2
38
3
41605
49136
49157
49178
16M
1
4
38
3
40105
48500
48522
48543
1M
1,5
3
38
3
41609
49137
49158
49179
16M
1,5
4,5
38
3
40109
48501
48523
48544
1M
2
4
38
3
41613
49138
49159
49180
16M
2
6,3
38
3
40113
48502
48524
48545
1M
2,5
5
38
3
41617
49139
49160
49181
16M
2,5
9,5
38
3
40117
48503
48525
48546
1M
EDP No.
Ti-NAMITE Ti-NAMITE-C Ti-NAMITE-A
(TiN)
(TiCN)
(AlTiN)
EDP No.
EDP No.
EDP No.
Series
Number
Série 1M
3
6
38
3
41621
49140
49161
49182
16M
Fraises 4 dents – Bout plat –
Carbure monobloc, micrograin –
Hélice à droite, 30° – Coupe à droite
– Coupe au centre
3
12
38
3
40121
48504
48526
48547
1M
3,5
7
50
4
41625
49141
49162
49183
16M
3,5
12
50
4
40125
48505
48527
48548
1M
86
3
25
75
3
43101
49388
49401
49414
1XLM
4
8
50
4
41629
49142
49163
49184
16M
4
14
50
4
40129
48506
48528
48549
1M
4
25
75
4
43103
49389
49402
49415
1XLM
4,5
9,5
50
4,5
41633
49143
49164
49185
16M
4,5
16
50
6
40133
48507
48529
48550
1M
5
10
50
5
41637
49144
49165
49186
16M
5
16
50
6
40137
48508
48530
48551
1M
5
25
75
5
43107
49391
49404
49417
1XLM
6
12
50
6
41641
49145
49166
49187
16M
6
19
50
6
40141
48509
48531
48552
1M
6
25
75
6
43105
49390
49403
49416
1XLM
7
12
50
8
41645
49146
49167
49188
16M
7
19
63
8
40145
48510
48532
48553
1M
8
12
50
8
41649
49147
49168
49189
16M
8
20
63
8
40149
48511
48533
48554
1M
8
25
75
8
43115
49392
49405
49418
1XLM
9
14
50
9
41653
49148
49169
49190
16M
9
22
75
10
40153
48512
48534
48555
1M
10
16
50
10
41657
49149
49170
49191
16M
10
22
75
10
40157
48513
48535
48556
1M
continued on next page
3M
Metric
Series
2 Flute – Single End – Square End
17M
www.sgstool.com
3M
59M
3XLM
Series 3M
2-Flute End Mills – Square End
Micrograin Solid Carbide
30° Right Hand Spiral – Right Hand
Cutting – Center Cutting
Serie 3M
Fresas de 2 filos – Punta plana
Carburo sólido con micrograno
Hélice a derecha 30° – Corte a
derecha – Corte al centro.
Série 3M
Fraises 2 dents – Bout plat
Carbure monobloc, micrograin
Hélice à droite, 30° – Coupe à droite
– Coupe au centre
265–266
96
Cutting
Diameter
d1
mm
10
10
10
10
11
11
12
12
12
12
12
14
14
14
16
16
16
18
18
18
20
20
20
25
25
Length
of Cut
l2
mm
16
22
25
38
19
25
19
25
30
50
75
32
35
75
32
40
75
38
40
75
38
45
75
38
75
Overall
Length
l1
mm
50
75
100
100
63
75
63
75
110
100
150
89
120
150
89
120
150
100
130
150
100
130
150
100
150
Shank
Diameter
d2
mm
10
10
10
10
12
12
12
12
12
12
12
14
16
14
16
16
16
18
20
18
20
20
20
25
25
Uncoated
EDP No.
41757
40357
43914
43325
41761
40361
41765
40365
43915
43335
43345
40369
43916
43355
40373
43917
43365
40377
43918
43375
40381
43919
43385
40385
43395
TOLERANCES
d1=+0,000–0,05
d2=h6
Ti-NAMITE Ti-NAMITE-C Ti-NAMITE-A
(TiN)
(TiCN)
(AlTiN)
Series
EDP No.
EDP No.
EDP No. Number
49275
48641
43924
49432
49276
48642
49277
48643
43925
49433
49434
48644
43926
49435
48645
43927
49436
48646
43928
49437
48647
43929
49438
48648
49439
49296
48663
43934
49445
49297
48664
49298
48665
43935
49446
49447
48666
43936
49448
48667
43937
49449
48668
43938
49450
48669
43939
49451
48670
49452
49317
48684
43954
49458
49318
48685
49319
48686
43955
49459
49460
48687
43956
49461
48688
43957
49462
48689
43958
49463
48690
43959
49464
48691
49465
17M
3M
59M
3XLM
17M
3M
17M
3M
59M
3XLM
3XLM
3M
59M
3XLM
3M
59M
3XLM
3M
59M
3XLM
3M
59M
3XLM
3M
3XLM
Metric
Series
3MB
2 Flute – Single End – Ball End
3MB
www.sgstool.com
59MB
3XLMB
TOLERANCES
d1=+0,000–0,05
d2=h6
Cutting
Diameter
d1
mm
1
1,5
2
2,5
3
3
3
3,5
4
4
4
4,5
5
5
6
6
6
7
8
8
8
9
10
10
10
11
12
12
12
12
14
14
14
16
16
16
18
18
18
20
20
20
25
25
Length
of Cut
l2
mm
4
4,5
6,3
9,5
9
12
25
12
12
14
25
16
16
25
15
19
25
19
20
20
25
22
22
25
38
25
25
30
50
75
32
35
75
32
40
75
38
40
75
38
45
75
38
75
Overall
Length
l1
mm
38
38
38
38
60
38
75
50
70
50
75
50
50
75
80
50
75
63
63
90
75
75
75
100
100
75
75
110
100
150
89
120
150
89
120
150
100
130
150
100
130
150
100
150
Shank
Diameter
d2
mm
3
3
3
3
6
3
3
4
6
4
4
6
6
5
6
6
6
8
8
8
8
10
10
10
10
12
12
12
12
12
14
16
14
16
16
16
18
20
18
20
20
20
25
25
Uncoated
EDP No.
40306
40310
40314
40318
43900
40322
43302
40326
43901
40330
43304
40334
40338
43308
43902
40342
43306
40346
40350
43903
43316
40354
40358
43904
43326
40362
40366
43905
43336
43346
40370
43906
43356
40374
43907
43366
40378
43908
43376
40382
43909
43386
40386
43396
Ti-NAMITE Ti-NAMITE-C Ti-NAMITE-A
(TiN)
(TiCN)
(AlTiN)
Series
EDP No.
EDP No.
EDP No. Number
48692
48693
48694
48695
49622
48696
49544
48697
49623
48698
49545
48699
48700
49547
49624
48701
49546
48702
48703
49625
49548
48704
48705
49626
49549
48706
48707
49627
49550
49551
48708
49628
49552
48709
49629
49553
48710
49630
49554
48711
49631
49555
48712
49556
48714
48715
48716
48717
49632
48718
49557
48719
49633
48720
49558
48721
48722
49560
49634
48723
49559
48724
48725
49635
49561
48726
48727
49636
49562
48728
48729
49637
49563
49564
48730
49638
49565
48731
49639
49566
48732
49640
49567
48733
49641
49568
48734
49569
48735
48736
48737
48738
49642
48739
49570
48740
49643
48741
49571
48742
48743
49573
49644
48744
49572
48745
48746
49645
49574
48747
48748
49646
49575
48749
48750
49647
49576
49577
48751
49648
49578
48752
49649
49579
48753
49650
49580
48754
49651
49581
48755
49582
3MB
3MB
3MB
3MB
59MB
3MB
3XLMB
3MB
59MB
3MB
3XLMB
3MB
3MB
3XLMB
59MB
3MB
3XLMB
3MB
3MB
59MB
3XLMB
3MB
3MB
59MB
3XLMB
3MB
3MB
59MB
3XLMB
3XLMB
3MB
59MB
3XLMB
3MB
59MB
3XLMB
3MB
59MB
3XLMB
3MB
59MB
3XLMB
3MB
3XLMB
263–266
99
Fractional
Series
3CR
2 Flute – Single End – Corner Radius
TOLERANCES
d1=–.001–.002
d2=h6
r=+.000–.002
Nominal Actual
Cutting Cutting
Shank
Diameter Diameter Diameter
d1
d2
Length
of Cut
l2
www.sgstool.com
(TiCN)
(TiCN)
(TiCN)
(TiCN)
(TiCN)
(TiCN)
(TiCN)
Ti-NAMITE-C Ti-NAMITE-C Ti-NAMITE-C Ti-NAMITE-C Ti-NAMITE-C Ti-NAMITE-C Ti-NAMITE-C
0.090
0.125
Series
0.015
0.020
0.030
0.045
0.060
Overall
Length EDP No. EDP No. EDP No. EDP No. EDP No. EDP No. EDP No. Number
l1
1/8
.1240/.1230
1/8
1/2
3/16
.1865/.1855
3/16
5/8
2
1/4
.2490/.2480
1/4
3/4
2-1/2
5/16
.3115/.3105
5/16
13/16
2-1/2
*3/8
.3740/.3730
3/8
1
2-1/2
*1/2
.4990/.4980
1/2
1
3
*5/8
.6240/.6230
5/8
1-1/4
3-1/2
*3/4
.7490/.7480
3/4
1-1/2
4
*1
.9990/.9980
1
1-1/2
4
Nominal Actual
Cutting Cutting
Shank
Diameter Diameter Diameter
d1
d2
Length
of Cut
l2
1-1/2
38315
38317
38320
38324
38328
38332
38337
38343
38350
38316
38318
38321
38325
38329
38333
38338
38344
38351
–
38319
38322
38326
38330
38334
38339
38345
38352
–
–
38323
38327
38331
38335
38340
38346
38353
–
–
–
–
–
38336
38341
38347
38354
–
–
–
–
–
–
38342
38348
38355
–
–
–
–
–
–
–
38349
38356
3CR
3CR
3CR
3CR
3CR
3CR
3CR
3CR
3CR
(AlTiN)
(AlTiN)
(AlTiN)
(AlTiN)
(AlTiN)
(AlTiN)
(AlTiN)
Ti-NAMITE-A Ti-NAMITE-A Ti-NAMITE-A Ti-NAMITE-A Ti-NAMITE-A Ti-NAMITE-A Ti-NAMITE-A
0.015
0.020
0.030
0.045
0.060
0.090
0.125
Series
Overall
Length EDP No. EDP No. EDP No. EDP No. EDP No. EDP No. EDP No. Number
l1
1/8
.1240/.1230
1/8
1/2
1-1/2
3/16
.1865/.1855
3/16
5/8
2
1/4
.2490/.2480
1/4
3/4
2-1/2
5/16
.3115/.3105
5/16
13/16
2-1/2
*3/8
.3740/.3730
3/8
1
2-1/2
*1/2
.4990/.4980
1/2
1
3
*5/8
.6240/.6230
5/8
1-1/4
3-1/2
*3/4
.7490/.7480
3/4
1-1/2
4
*1
.9990/.9980
1
1-1/2
4
38357
38359
38362
38366
38370
38374
38379
38385
38392
38358
38360
38363
38367
38371
38375
38380
38386
38393
–
38361
38364
38368
38372
38376
38381
38387
38394
–
–
38365
38369
38373
38377
38382
38388
38395
–
–
–
–
–
38378
38383
38389
38396
–
–
–
–
–
–
38384
38390
38397
–
–
–
–
–
–
–
38391
38398
3CR
3CR
3CR
3CR
3CR
3CR
3CR
3CR
3CR
263–264
101
5M
Metric
Series
3 Flute – Single End – Square End
5M
www.sgstool.com
5XLM
TOLERANCES
d1=+0,000–0,05
d2=h6
Cutting
Diameter
d1
mm
Length
of Cut
l2
mm
Overall
Length
l1
mm
Shank
Diameter
d2
mm
Uncoated
1
1,5
2
2,5
3
3
3,5
4
4
4,5
5
5
6
6
7
8
8
9
10
10
11
12
12
12
14
14
16
16
18
18
20
20
25
25
4
4,5
6,3
9,5
12
25
12
14
25
16
16
25
19
25
19
20
25
22
22
38
25
25
50
75
32
75
32
75
38
75
38
75
38
75
38
38
38
38
38
75
50
50
75
50
50
75
50
75
63
63
75
75
75
100
75
75
100
150
89
150
89
150
100
150
100
150
100
150
3
3
3
3
3
3
4
4
4
6
6
5
6
6
8
8
8
10
10
10
12
12
12
12
14
14
16
16
18
18
20
20
25
25
40505
40509
40513
40517
40521
43501
40525
40529
43503
40533
40537
43507
40541
43505
40545
40549
43515
40553
40557
43525
40561
40565
43535
43545
40569
43555
40573
43565
40577
43575
40581
43585
40585
43595
EDP No.
Ti-NAMITE Ti-NAMITE-C Ti-NAMITE-A
(TiN)
(TiCN)
(AlTiN)
Series
EDP No.
EDP No.
EDP No.
Number
48756
48757
48758
48759
48760
49466
48761
48762
49467
48763
48764
49469
48765
49468
48766
48767
49470
48768
48769
49471
48770
48771
49472
49473
48772
49474
48773
49475
48774
49476
48775
49477
48776
49478
48778
48779
48780
48781
48782
49479
48783
48784
49480
48785
48786
49482
48787
49481
48788
48789
49483
48790
48791
49484
48792
48793
49485
49486
48794
49487
48795
49488
48796
49489
48797
49490
48798
49491
48799
48800
48801
48802
48803
49492
48804
48805
49493
48806
48807
49495
48808
49494
48809
48810
49496
48811
48812
49497
48813
48814
49498
49499
48815
49500
48816
49501
48817
49502
48818
49503
48819
49504
5M
5M
5M
5M
5M
5XLM
5M
5M
5XLM
5M
5M
5XLM
5M
5XLM
5M
5M
5XLM
5M
5M
5XLM
5M
5M
5XLM
5XLM
5M
5XLM
5M
5XLM
5M
5XLM
5M
5XLM
5M
5XLM
263–266
103
Metric
Series
5MB
3 Flute – Single End – Ball End
5MB
www.sgstool.com
5XLMB
TOLERANCES
d1=+0,000–0,05
d2=h6
Cutting
Diameter
d1
mm
1
1,5
2
2,5
3
3
3,5
4
4
4,5
5
5
6
6
7
8
8
9
10
10
11
12
12
12
14
14
16
16
18
18
20
20
25
25
Length
of Cut
l2
mm
4
4,5
6,3
9,5
12
25
12
14
25
16
16
25
19
25
19
20
25
22
22
38
25
25
50
75
32
75
32
75
38
75
38
75
38
75
Overall
Length
l1
mm
38
38
38
38
38
75
50
50
75
50
50
75
50
75
63
63
75
75
75
100
75
75
100
150
89
150
89
150
100
150
100
150
100
150
Shank
Diameter
d2
mm
3
3
3
3
3
3
4
4
4
6
6
5
6
6
8
8
8
10
10
10
12
12
12
12
14
14
16
16
18
18
20
20
25
25
Uncoated
EDP No.
40506
40510
40514
40518
40522
43502
40526
40530
43504
40534
40538
43508
40542
43506
40546
40550
43516
40554
40558
43526
40562
40566
43536
43546
40570
43556
40574
43566
40578
43576
40582
43586
40586
43596
Ti-NAMITE Ti-NAMITE-C Ti-NAMITE-A
(TiN)
(TiCN)
(AlTiN)
Series
EDP No.
EDP No.
EDP No.
Number
48820
48821
48822
48823
48824
49583
48825
48826
49584
48827
48828
49586
48829
49585
48830
48831
49587
48832
48833
49588
48834
48835
49589
49590
48836
49591
48837
49592
48838
49593
48839
49594
48840
49595
48842
48843
48844
48845
48846
49596
48847
48848
49597
48849
48850
49599
48851
49598
48852
48853
49600
48854
48855
49601
48856
48857
49602
49603
48858
49604
48859
49605
48860
49606
48861
49607
48862
49608
48863
48864
48865
48866
48867
49609
48868
48869
49610
48870
48871
49612
48872
49611
48873
48874
49613
48875
48876
49614
48877
48878
49615
49616
48879
49617
48880
49618
48881
49619
48882
49620
48883
49621
5MB
5MB
5MB
5MB
5MB
5XLMB
5MB
5MB
5XLMB
5MB
5MB
5XLMB
5MB
5XLMB
5MB
5MB
5XLMB
5MB
5MB
5XLMB
5MB
5MB
5XLMB
5XLMB
5MB
5XLMB
5MB
5XLMB
5MB
5XLMB
5MB
5XLMB
5MB
5XLMB
263–266
105
Metric
Series
14M
4 Flute – Double End – Square End
TOLERANCES
d1=+0,000–0,05
d2=h6
www.sgstool.com
Cutting
Diameter
d1
mm
Length
of Cut
l2
mm
Overall
Length
l1
mm
Shank
Diameter
d2
mm
Uncoated
1
1,5
2
2,5
3
3,5
4
4,5
5
6
7
8
9
10
11
12
2
3
4
5
6
7
8
9,5
10
12
12
12
14
14
14
16
38
38
38
38
38
50
50
63
63
63
63
63
75
75
75
75
3
3
3
3
3
4
4
4,5
5
6
8
8
9
10
12
12
41405
41409
41413
41417
41421
41425
41429
41433
41437
41441
41445
41449
41453
41457
41461
41465
EDP No.
Ti-NAMITE Ti-NAMITE-C Ti-NAMITE-A
(TiN)
(TiCN)
(AlTiN)
EDP No.
EDP No.
EDP No.
48884
48885
48886
48887
48888
48889
48890
48891
48892
48893
48894
48895
48896
48897
48898
48899
48905
48906
48907
48908
48909
48910
48911
48912
48913
48914
48915
48916
48917
48918
48919
48920
48926
48927
48928
48929
48930
48931
48932
48933
48934
48935
48936
48937
48938
48939
48940
48941
Series
Number
14M
14M
14M
14M
14M
14M
14M
14M
14M
14M
14M
14M
14M
14M
14M
14M
263–266
107
Metric
Series
14MB
4 Flute – Double End – Ball End
TOLERANCES
d1=+0,000–0,05
d2=h6
www.sgstool.com
Cutting
Diameter
d1
mm
Length
of Cut
l2
mm
Overall
Length
l1
mm
Shank
Diameter
d2
mm
Uncoated
1
1,5
2
2,5
3
3,5
4
4,5
5
6
7
8
9
10
11
12
2
3
4
5
6
7
8
9,5
10
12
12
12
14
14
14
16
38
38
38
38
38
50
50
63
63
63
63
63
75
75
75
75
3
3
3
3
3
4
4
4,5
5
6
8
8
9
10
12
12
41406
41410
41414
41418
41422
41426
41430
41434
41438
41442
41446
41450
41454
41458
41462
41466
EDP No.
Ti-NAMITE Ti-NAMITE-C Ti-NAMITE-A
(TiN)
(TiCN)
(AlTiN)
EDP No.
EDP No.
EDP No.
48947
48948
48949
48950
48951
48952
48953
48954
48955
48956
48957
48958
48959
48960
48961
48962
48968
48969
48970
48971
48972
48973
48974
48975
48976
48977
48978
48979
48980
48981
48982
48983
48989
48990
48991
48992
48993
48994
48995
48996
48997
48998
48999
49000
49001
49002
49003
49004
Series
Number
14MB
14MB
14MB
14MB
14MB
14MB
14MB
14MB
14MB
14MB
14MB
14MB
14MB
14MB
14MB
14MB
263–266
109
Metric
Series
15M
2 Flute – Double End – Square End
TOLERANCES
d1=+0,000–0,05
d2=h6
www.sgstool.com
Cutting
Diameter
d1
mm
Length
of Cut
l2
mm
Overall
Length
l1
mm
Shank
Diameter
d2
mm
Uncoated
1
1,5
2
2,5
3
3,5
4
4,5
5
6
7
8
9
10
11
12
2
3
4
5
6
7
8
9,5
10
12
12
12
14
14
14
16
38
38
38
38
38
50
50
63
63
63
63
63
75
75
75
75
3
3
3
3
3
4
4
4,5
5
6
8
8
9
10
12
12
41505
41509
41513
41517
41521
41525
41529
41533
41537
41541
41545
41549
41553
41557
41561
41565
EDP No.
Ti-NAMITE Ti-NAMITE-C Ti-NAMITE-A
(TiN)
(TiCN)
(AlTiN)
EDP No.
EDP No.
EDP No.
49010
49011
49012
49013
49014
49015
49016
49017
49018
49019
49020
49021
49022
49023
49024
49025
49031
49032
49033
49034
49035
49036
49037
49038
49039
49040
49041
49042
49043
49044
49045
49046
49052
49053
49054
49055
49056
49057
49058
49059
49060
49061
49062
49063
49064
49065
49066
49067
Series
Number
15M
15M
15M
15M
15M
15M
15M
15M
15M
15M
15M
15M
15M
15M
15M
15M
263–266
111
Metric
Series
15MB
2 Flute – Double End – Ball End
TOLERANCES
d1=+0,000–0,05
d2=h6
www.sgstool.com
Cutting
Diameter
d1
mm
Length
of Cut
l2
mm
Overall
Length
l1
mm
Shank
Diameter
d2
mm
Uncoated
1
1,5
2
2,5
3
3,5
4
4,5
5
6
7
8
9
10
11
12
2
3
4
5
6
7
8
9,5
10
12
12
12
14
14
14
16
38
38
38
38
38
50
50
63
63
63
63
63
75
75
75
75
3
3
3
3
3
4
4
4,5
5
6
8
8
9
10
12
12
41506
41510
41514
41518
41522
41526
41530
41534
41538
41542
41546
41550
41554
41558
41562
41566
EDP No.
Ti-NAMITE Ti-NAMITE-C Ti-NAMITE-A
(TiN)
(TiCN)
(AlTiN)
EDP No.
EDP No.
EDP No.
49073
49074
49075
49076
49077
49078
49079
49080
49081
49082
49083
49084
49085
49086
49087
49088
49094
49095
49096
49097
49098
49099
49100
49101
49102
49103
49104
49105
49106
49107
49108
49109
49115
49116
49117
49118
49119
49120
49121
49122
49123
49124
49125
49126
49127
49128
49129
49130
Series
Number
15MB
15MB
15MB
15MB
15MB
15MB
15MB
15MB
15MB
15MB
15MB
15MB
15MB
15MB
15MB
15MB
263–266
113
Metric
Series
52M
2-Flute End Mills for Aluminum –
Single End – Square End
TOLERANCES
d1=+0,000–0,05
d2=h6
www.sgstool.com
Cutting
Diameter
d1
mm
Length
of Cut
l2
mm
Overall
Length
l1
mm
Shank
Diameter
d2
mm
Uncoated
EDP No.
Ti-NAMITE-C
(TiCN)
EDP No.
3
3,5
4
4,5
5
6
8
10
12
14
16
20
7
7
8
8
10
10
16
19
22
22
26
32
38
57
57
57
57
57
63
72
83
83
92
104
3
6
6
6
6
6
8
10
12
14
16
20
45277
45279
45281
45283
45285
45287
45289
45291
45293
45295
45297
45299
49829
49830
49831
49832
49833
49834
49835
49836
49837
49838
49839
49840
267
115
Metric
Series
54M
4-Flute End Mills for Aluminum –
Single End – Square End
TOLERANCES
d1=+0,000–0,05
d2=h6
Cutting
Diameter
d1
mm
3
3,5
4
4,5
5
6
8
10
12
14
16
20
Length
of Cut
l2
mm
8
10
11
11
13
13
19
22
26
26
32
38
www.sgstool.com
Overall
Length
l1
mm
38
57
57
57
57
57
63
72
83
83
92
104
Shank
Diameter
d2
mm
3
6
6
6
6
6
8
10
12
14
16
20
Uncoated
EDP No.
Ti-NAMITE-C
(TiCN)
EDP No.
45477
45479
45481
45483
45485
45487
45489
45491
45493
45495
45497
45499
45478
45480
45482
45484
45486
45488
45490
45492
45494
45496
45498
45500
267
117
Metric
Series
15MB
2 Flute – Double End – Ball End
TOLERANCES
d1=+0,000–0,05
d2=h6
www.sgstool.com
Cutting
Diameter
d1
mm
Length
of Cut
l2
mm
Overall
Length
l1
mm
Shank
Diameter
d2
mm
Uncoated
1
1,5
2
2,5
3
3,5
4
4,5
5
6
7
8
9
10
11
12
2
3
4
5
6
7
8
9,5
10
12
12
12
14
14
14
16
38
38
38
38
38
50
50
63
63
63
63
63
75
75
75
75
3
3
3
3
3
4
4
4,5
5
6
8
8
9
10
12
12
41506
41510
41514
41518
41522
41526
41530
41534
41538
41542
41546
41550
41554
41558
41562
41566
EDP No.
Ti-NAMITE Ti-NAMITE-C Ti-NAMITE-A
(TiN)
(TiCN)
(AlTiN)
EDP No.
EDP No.
EDP No.
49073
49074
49075
49076
49077
49078
49079
49080
49081
49082
49083
49084
49085
49086
49087
49088
49094
49095
49096
49097
49098
49099
49100
49101
49102
49103
49104
49105
49106
49107
49108
49109
49115
49116
49117
49118
49119
49120
49121
49122
49123
49124
49125
49126
49127
49128
49129
49130
Series
Number
15MB
15MB
15MB
15MB
15MB
15MB
15MB
15MB
15MB
15MB
15MB
15MB
15MB
15MB
15MB
15MB
263–266
113
Metric
Series
52M
2-Flute End Mills for Aluminum –
Single End – Square End
TOLERANCES
d1=+0,000–0,05
d2=h6
www.sgstool.com
Cutting
Diameter
d1
mm
Length
of Cut
l2
mm
Overall
Length
l1
mm
Shank
Diameter
d2
mm
Uncoated
EDP No.
Ti-NAMITE-C
(TiCN)
EDP No.
3
3,5
4
4,5
5
6
8
10
12
14
16
20
7
7
8
8
10
10
16
19
22
22
26
32
38
57
57
57
57
57
63
72
83
83
92
104
3
6
6
6
6
6
8
10
12
14
16
20
45277
45279
45281
45283
45285
45287
45289
45291
45293
45295
45297
45299
49829
49830
49831
49832
49833
49834
49835
49836
49837
49838
49839
49840
267
115
Metric
Series
54M
4-Flute End Mills for Aluminum –
Single End – Square End
TOLERANCES
d1=+0,000–0,05
d2=h6
Cutting
Diameter
d1
mm
3
3,5
4
4,5
5
6
8
10
12
14
16
20
Length
of Cut
l2
mm
8
10
11
11
13
13
19
22
26
26
32
38
www.sgstool.com
Overall
Length
l1
mm
38
57
57
57
57
57
63
72
83
83
92
104
Shank
Diameter
d2
mm
3
6
6
6
6
6
8
10
12
14
16
20
Uncoated
EDP No.
Ti-NAMITE-C
(TiCN)
EDP No.
45477
45479
45481
45483
45485
45487
45489
45491
45493
45495
45497
45499
45478
45480
45482
45484
45486
45488
45490
45492
45494
45496
45498
45500
267
117
V-Carb™ – Series 55M Speed and Feed Recommendations – Metric
www.sgstool.com


Finishing
"DBCBEPt'JOJUJPO
Rw
Ad
SpC
FeC
4IPSUt$PSUBTt$PVSU
.05 x D
3FHVMBSt/PSNBMFTt/PSNBM .05 x D
-POHt-BSHBTt-POH
.02 x D
LOC
LOC
3xD
0
0
0
0
0
0
Material Type
Low Carbon Steels
Low Carbon Steels
Med Alloy Steels
Mold And Die Steels
Cast Iron - Gray
Cast Iron - Ductile
Cast Iron - Malleable
Stainless 300 Series
Stainless 400 Series
Stainless PH Series
Titanium Alloys
High Temp. Alloys
Ad
LOC
LOC
3xD
~175
~275
~275
~275
~200
~300
~300
~275
~185
~325
~295
~300
6
SpC
FeC
.8
.8
0
1.2
1.2
0
8
Rw
.5 x D
.5 x D
N/A
Ad
SpC
FeC
Rw
Ad
SpC
FeC
1.25 x D
1xD
N/A
.6
.6
N/A
.35
.35
N/A
1xD
1xD
N/A
.7 x D
.5 x D
N/A
.5
.5
N/A
.30
.30
N/A
10
12
16
20
rpm
mm/min
rpm
mm/min
rpm
mm/min
rpm
mm/min
rpm
mm/min
rpm
mm/min
11,080
9,705
8,085
7,280
6,230
5,580
3,480
5,660
8,085
4,850
6,065
1,615
1,780
1,270
1,015
890
1,015
635
380
635
1,145
510
890
205
8,310
7,275
6,065
5,460
4,670
4,185
2,610
4,245
6,065
3,640
4,550
1,215
1,780
1,270
1,015
890
1,015
635
380
635
1,145
510
890
205
6,645
5,820
4,850
4,365
3,735
3,350
2,085
3,395
4,850
2,910
3,640
970
1,780
1,270
1,015
890
1,015
635
380
635
1,145
510
890
205
5,540
4,855
4,045
3,640
3,115
2,790
1,740
2,830
4,045
2,425
3,030
810
1,525
1,145
1,015
890
1,015
635
380
635
1,145
510
890
205
4,155
3,640
3,035
2,730
2,335
2,095
1,305
2,125
3,035
1,820
2,275
610
1,525
1,145
1,015
890
1,015
635
380
635
1,145
510
890
205
3,325
2,910
2,425
2,185
1,870
1,675
1,045
1,700
2,425
1,455
1,820
485
1,525
1,145
1,015
890
1,015
635
380
635
1,145
510
890
205
*Available in diameters 6, 8, 10 and 12
V-Carbs are not intended for plunging. Recommendations are a starting point.
Some adjustments may be required.
Application Tips:
t Tool holders with adequate gripping
pressure are required
t Stub length solid holders are recommended
for heavy stock removal
t Avoid re-milling chips.
t Avoid straight plunging – ramp or spiral
plunge into pockets
t Set-up rigidity critical during heavy
roughing
t Regrind and recondition services are
available from SGS
252
Rw
.1 x D
.1 x D
.05 x D

Slotting
3BOVSBEPt3BJOVSBHF
Cutting Diameter
Bhn
Rates shown are for finish milling. When performing an alternate cut, multiply
the speed and feed rates shown by the correction factors SpC and FeC.
Radial Width of Cut (Rw)
Axial Depth of Cut (Ad)
Tool Diameter (D)
Speed Correction Factor (SpC)
Feed Correction Factor (FeC)

)FBWZ1FSJQIFSBMt'SFTBEPQFSJGÏSJDPQFTBEP
Fraisage périphérique épais
Semi-Finishing
4FNJBDBCBEPt4FNJmOJUJPO
Los valores mostrados son para fresado de acabado. Al realizar un
corte alternado, multiplique la velocidad y el avance mostrados por los
factores de corrección SpC y FeC.
Les taux indiqués s’appliquent au fraisage de finition. Pour d’autres
fraisages, multipliez la vitesse de rotation et la vitesse d’avance
indiquées par les facteurs de correction SpC et FeC.
*Disponibles en diámetros 6, 8, 10 y 12
*Disponible dans les diamètres 6, 8, 10 et 12
Las V-Carbs no son aptas para la penetración. Las recomendaciones son
un punto de partida. Es posible que se necesiten algunos ajustes.
Les fraises V-Carb ne sont pas conçues pour pratiquer des incisions à
la verticale. Il est recommandé de commencer par un point de départ.
Certains réglages peuvent être nécessaires.
Sugerencias de aplicación:
t Se requieren portaherramientas con una
presión de agarre adecuada
t Se recomiendan portaherramientas sólidos
cortos para lograr un arranque de viruta
abundante
t Evite volver a fresar las virutas.
t Evite la penetración recta en cavidades;
haga el fresado en rampa o en espiral
t La rigidez del sistema de fijación es crítica en
tareas de desbastado pesadas
t SGS ofrece servicios de reafilado y
reacondicionamiento
Ancho radial del corte (Rw)
Profundidad axial del corte (Ad)
Diámetro de la herramienta (D)
Factor de corrección de velocidad (SpC)
Factor de corrección de avance (FeC)
Conseils d’utilisation:
t Des supports d’outils avec une pression de
serrage suffisante sont nécessaires
t Des supports massifs courts sont
recommandés pour les enlèvements de
matière épais
t Éviter les copeaux de refraisage
t Évitez les incisions directes – Dans les
poches, pratiquez une incision en oblique
ou en spirale
t Rigidité initiale critique durant les
opérations de dégrossissage épais
t SGS Tool Company offre des services de
refraisage et de reconditionnement
Largeur radiale de taille (Rw)
Profondeur axiale de taille (Ad)
Diamètre de l’outil (D)
Facteur de correction de vitesse de rotation (SpC)
Facteur de correction d’avance (FeC)
Tri-Carb® – Series 65 Speed and Feed Recommendations –
Fractional and Metric
www.sgstool.com
Alloy Steel
Titanium
Inconel
Stainless
≤ 275 Bhn
≤ 300 Bhn
≤ 300 Bhn
≤ 275 Bhn
Diameter (D)
350 sfm
300 sfm
80 sfm
300 sfm
105 m / min
90 m / min
24 m / min
90 m / min
Feed Rate – Per Tooth
in
mm
in
mm
in
mm
in
mm
in
mm
1/8
3
.0004
.010
.0003
.007
.0002
.005
.0003
.007
–
4
–
.015
–
.010
–
.007
–
.010
3/16
5
.0009
.023
.0005
.013
.0004
.010
.0004
.013
1/4
6
.0012
.030
.0009
.023
.0006
.015
.0006
.018
5/16
8
.0014
.035
.0012
.030
.0010
.025
.0009
.025
3/8
10
.0018
.045
.0015
.038
.0012
.030
.0011
.033
1/2
12
.0023
.058
.0019
.048
.0016
.040
.0017
.043
5/8
16
.0026
.066
.0024
.060
.0020
.050
.0022
.055
3/4
20
.0029
.073
.0026
.066
.0024
.060
.0025
.064
1
–
.0032
.081
.0035
.088
.0025
.064
.0033
.084
rpm = sfm x 3.82 / tool diameter
rpm = (m/min x 1000) / (3.14 x tool diameter)
feed per minute = feed per tooth x no. of teeth x rpm
rpm = sfm x 3.82 / diámetro de la herramienta
rpm = (m/min x 1000) / (3.14 x diámetro de la herramienta)
avance por minuto = avance por diente x Nº de dientes x rpm
r/min = pi/min x 3,82 / diamètre de l’outil
r/min = (m/min x 1000) / (3,14 x diamètre de l’outil)
avance par minute = avance par dent x nbre de dents x r/min
Axial Depth (Ad) < .5 x Diameter
Prof. axial < 0.5 x diámetro
Profondeur axiale < 0,5 x diamètre
Radial Width (Rw) < .5 x Diameter
Axial Depth (Ad) < 1 x Diameter
Ancho radial < 0.5 x diámetro
Prof. axial < 1 x diámetro
Largeur radiale < 0,5 x diamètre
Profondeur axiale < 1 x diamètre
253
Turbo-Carb® Speed and Feed Recommendations – Fractional
www.sgstool.com
See formulas page 294.
Roughing – Fractional
Steels < 40 Rc
Ad = 10% dia
Steels > 40 – 50 Rc
Ad = 5% dia
Steels > 50 – 60 Rc
Ad = 4% dia
Diameter
Axial Depth1
rpm2
Feed / Tooth
Axial Depth1
rpm2
Feed / Tooth
Axial Depth1
rpm2
Feed / Tooth
1/32
1/16
3/32
1/8
3/16
1/4
5/16
3/8
1/2
5/8
3/4
.0031
.0063
.0094
.0125
.0188
.0250
.0313
.0375
.0500
.0625
.0750
76,740
38,065
25,430
19,100
12,720
9,550
7,635
6,365
4,775
3,820
3,185
.0006
.0015
.0020
.0030
.0040
.0050
.0060
.0080
.0100
.0110
.0120
.0016
.0031
.0047
.0063
.0094
.0125
.0156
.0188
.0250
.0312
.0375
90,200
45,745
30,335
22,700
15,170
11,395
9,120
7,585
5,695
4,560
3,800
.0005
.0011
.0015
.0023
.0030
.0038
.0050
.0060
.0075
.0080
.0085
.0013
.0025
.0038
.0050
.0075
.0100
.0125
.0150
.0200
.0250
.0300
61,270
31,190
20,655
15,595
10,395
7,800
6,240
5,200
3,900
3,120
2,600
.0004
.0008
.0011
.0017
.0023
.0029
.0038
.0045
.0057
.0060
.0063
Finishing – Fractional
1QJUDI
VQUPPGEJBt1QBTP
IBTUBEFMEJÈNFUSPt1QBT
KVTRVËEVEJBNÒUSF
Steels < 40 Rc
Ad = 3% dia
Steels > 40 – 50 Rc
Ad = 2% dia
Steels > 50 – 60 Rc
Ad = 1% dia
Diameter
Axial Depth1
rpm2
Feed / Tooth
Axial Depth1
rpm2
Feed / Tooth
Axial Depth1
rpm2
Feed / Tooth
1/32
1/16
3/32
1/8
3/16
1/4
5/16
3/8
1/2
5/8
3/4
.0010
.0019
.0030
.0040
.0060
.0075
.0095
.0110
.0150
.0200
.0230
116,925
58,370
38,890
29,185
19,455
14,590
11,675
9,730
7,295
5,835
4,865
.0007
.0017
.0022
.0033
.0044
.0055
.0066
.0088
.0110
.0120
.0130
.0006
.0013
.0019
.0025
.0038
.0050
.0063
.0075
.0100
.0125
.0150
144,870
69,595
46,975
35,470
23,495
17,735
14,135
11,825
8,870
7,095
5,645
.0006
.0012
.0017
.0025
.0033
.0042
.0055
.0066
.0082
.0090
.0100
.0003
.0006
.0010
.0013
.0019
.0025
.0031
.0038
.0050
.0063
.0075
125,465
62,680
39,655
30,125
20,340
15,355
12,335
10,170
7,680
6,120
5,120
.0005
.0009
.0012
.0019
.0025
.0032
.0042
.0050
.0063
.0067
.0071
P (pitch) = dependent on finish requirement (see formulas)t1QBTP
EFQFOEFEFMSFRVJTJUPEFBDBCBEPWFBMBTGØSNVMBT
t1QBT
TFMPOMFTFYJHFODFTEFGJOJUJPOWPJSGPSNVMFT
* On flat surface
1 Suggested maximum
2 If recommendation exceeds your machine limit use
the maximum available
* En superficie plana
1 Máximo recomendado
2 Si la recomendación supera el límite de su máquina,
utilice el máximo disponible
* Sur surface plane
1 Maximum suggéré
2 Si la recommandation dépasse les limites de votre
machine, utilisez le maximum disponible
Application Tips:
Sugerencias de aplicación:
Conseils d’utilisation :
t Pressurized air with oil extends tool life in
materials <40 HRc
t Use dry air when finish milling or roughing
materials harder than 40 HRc
t Unique coating eliminates flood coolant
requirements
t The Z-level cutting method and climb
milling extend tool life in roughing
applications
t Helical interpolation is the preferred entry
method. Avoid direct plunging.
t Attention to programming details, tool
holders, TIR & balance contribute to
additional tool life
t Speed and feed recommendations are based
on using the tool tip.
254
t El aire presurizado con aceite extiende la
vida útil de la herramienta en materiales
<40 HRc
t Para el fresado de acabado o el desbastado
de materiales de dureza mayor de 40 HRc,
utilice aire seco.
t Recubrimiento único elimina los requisitos
de un sistema refrigerante por inmersión
t El método de corte de nivel Z y el fresado
en trepado extienden la vida útil de la
herramienta en aplicaciones de desbastado
t El método de acceso preferido es la
interpolación helicoidal. Evite la penetración
directa.
t La atención a los detalles de programación,
portaherramientas, excentricidad total
indicada (TIR) y equilibrio contribuyen a
prolongar la vida útil de la herramienta
t Las recomendaciones de velocidad y de
avance se basan en el uso del inserto o
punta de la herramienta.
t L’air pressurisé et l’huile augmentent la
longévité des outils sur les matériaux <40
HRc
t Utilisez de l’air durant le dégrossissement
des matériaux ayant une dureté supérieure
à 40 HRc
t Revêtement unique ne nécessitant pas de
refroidissement par mouillage abondant
t Le fraisage à niveau Z et le fraisage en
avalant augmentent la longévité des outils
dans les applications de dégrossissage
t La meilleure méthode d’entrée est
l’interpolation hélicoïdale. Éviter l’entrée
verticale.
t Pour maximiser la longévité des outils, faire
attention aux détails de programmation, aux
supports d’outils, au TIR, à l’équilibre, etc.
t Les recommandations de vitesse de rotation
et d’avance sont basées sur l’application des
conseils d’utilisation.
Turbo-Carb® Speed and Feed Recommendations – Metric
www.sgstool.com
See formulas page 294.
Roughing – Metric
Steels < 40 Rc
Ad = 10% dia
Steels > 40 – 50 Rc
Ad = 5% dia
Steels > 50 – 60 Rc
Ad = 4% dia
Diameter
Axial Depth1
rpm2
Feed / Tooth
Axial Depth1
rpm2
Feed / Tooth
Axial Depth1
rpm2
Feed / Tooth
1
1.5
2
2.5
3
4
5
6
8
10
12
16
20
.10
.15
.20
.25
.30
.40
.50
.60
.80
1.0
1.2
1.6
2.0
60,640
40,400
30,335
24,265
20,215
15,160
12,125
10,110
7,580
6,065
5,055
3,790
3,030
.015
.030
.045
.050
.075
.095
.100
.125
.150
.205
.255
.280
.300
.05
.08
.10
.13
.15
.20
.25
.30
.40
.50
.60
.80
1.0
72,285
48,155
36,160
28,920
24,100
18,070
14,455
12,050
9,035
7,230
6,025
4,520
3,615
.015
.025
.035
.040
.055
.065
.075
.095
.125
.150
.190
.200
.215
.04
.06
.08
.10
.12
.16
.20
.24
.32
.40
.48
.64
.80
49,485
32,965
24,755
19,800
16,495
12,370
9,895
8,250
6,185
4,950
4,125
3,095
2,475
.010
.020
.025
.030
.045
.050
.060
.075
.095
.115
.145
.150
.160
P (pas) = selon les exigences de finition (voir formules
Finishing – Metric
Steels < 40 Rc
Ad = 3% dia
Steels > 40 – 50 Rc
Ad = 2% dia
Steels > 50 – 60 Rc
Ad = 1% dia
Diameter
Axial Depth1
rpm2
Feed / Tooth
Axial Depth1
rpm2
Feed / Tooth
Axial Depth1
rpm2
Feed / Tooth
1
1.5
2
2.5
3
4
5
6
8
10
12
16
20
.03
.05
.06
.08
.09
.12
.15
.18
.24
.30
.36
.48
.60
92,660
61,730
46,355
37,075
30,890
23,165
18,530
15,445
11,580
9,265
7,720
5,790
4,635
.020
.045
.050
.055
.085
.100
.110
.140
.170
.225
.280
.305
.320
.02
.03
.04
.05
.06
.08
.10
.12
.16
.20
.24
.32
.40
112,555
74,980
56,305
45,035
37,520
28,135
22,505
18,760
14,065
11,255
9,380
7,035
5,630
.020
.030
.040
.045
.065
.075
.085
.105
.140
.170
.210
.230
.255
.010
.015
.020
.025
.030
.040
.050
.060
.080
.100
.120
.160
.200
97,030
64,635
48,540
38,820
32,345
24,255
19,400
16,175
12,125
9,700
8,085
6,065
4,850
.010
.025
.030
.040
.050
.060
.065
.080
.105
.130
.160
.170
.180
P (pitch) = dependent on finish requirement (see formulas)t1QBTP
EFQFOEFEFMSFRVJTJUPEFBDBCBEPWFBMBTGØSNVMBT
t1QBT
TFMPOMFTFYJHFODFTEFGJOJUJPOWPJSGPSNVMFT
* On flat surface
1 Suggested maximum
2 If recommendation exceeds your machine limit use
the maximum available
* En superficie plana
1 Máximo recomendado
2 Si la recomendación supera el límite de su máquina,
utilice el máximo disponible
* Sur surface plane
1 Maximum suggéré
2 Si la recommandation dépasse les limites de votre
machine, utilisez le maximum disponible
Application Tips:
Sugerencias de aplicación:
Conseils d’utilisation :
t Pressurized air with oil extends tool life in
materials <40 HRc
t Use dry air when finish milling or roughing
materials harder than 40 HRc
t Unique coating eliminates flood coolant
requirements
t The Z-level cutting method and climb
milling extend tool life in roughing
applications
t Helical interpolation is the preferred entry
method. Avoid direct plunging.
t Attention to programming details, tool
holders, TIR & balance contribute to
additional tool life
t Speed and feed recommendations are based
on using the tool tip.
t El aire presurizado con aceite extiende la
vida útil de la herramienta en materiales
<40 HRc
t Para el fresado de acabado o el desbastado
de materiales de dureza mayor de 40 HRc,
utilice aire seco.
t Recubrimiento único elimina los requisitos
de un sistema refrigerante por inmersión
t El método de corte de nivel Z y el fresado
en trepado extienden la vida útil de la
herramienta en aplicaciones de desbastado
t El método de acceso preferido es la
interpolación helicoidal. Evite la penetración
directa.
t La atención a los detalles de programación,
portaherramientas, excentricidad total
indicada (TIR) y equilibrio contribuyen a
prolongar la vida útil de la herramienta
t Las recomendaciones de velocidad y de
avance se basan en el uso del inserto o
punta de la herramienta.
t L’air pressurisé et l’huile augmentent la
longévité des outils sur les matériaux <40
HRc
t Utilisez de l’air durant le dégrossissement
des matériaux ayant une dureté supérieure
à 40 HRc
t Revêtement unique ne nécessitant pas de
refroidissement par mouillage abondant
t Le fraisage à niveau Z et le fraisage en
avalant augmentent la longévité des outils
dans les applications de dégrossissage
t La meilleure méthode d’entrée est
l’interpolation hélicoïdale. Éviter l’entrée
verticale.
t Pour maximiser la longévité des outils, faire
attention aux détails de programmation, aux
supports d’outils, au TIR, à l’équilibre, etc.
t Les recommandations de vitesse de rotation
et d’avance sont basées sur l’application des
conseils d’utilisation.
255
Power-Carb™ Speed and Feed Recommendations –
Fractional and Metric
www.sgstool.com
Steels 30–45 Rc
Steels 45–55 Rc
Steels 55–60 Rc
Steels 60–65 Rc
Rw 1 x D
Ad ≤.3 x D
Rw 1 x D
Ad ≤.2 x D
Rw 1 x D
Ad ≤.1 x D
Rw 1 x D
Ad ≤.1 x D
Speed
Speed
Speed
Speed
Slotting
215 sfm
Diameter (D)
65 m / min
Feed per Tooth
145 sfm
45 m / min
Feed per Tooth
30 m / min
Feed per Tooth
65 sfm
20 m / min
Feed per Tooth
in
mm
in
mm
in
mm
in
mm
in
mm
1/4
6
.0014
.035
.0013
.033
.0012
.030
.0011
.028
5/16
8
.0016
.040
.0015
.040
.0014
.035
.0012
.030
3/8
10
.0020
.050
.0018
.045
.0016
.040
.0014
.035
1/2
12
.0024
.060
.0022
.055
.0020
.050
.0018
.045
Steels 30–45 Rc
Steels 45–55 Rc
Steels 55–60 Rc
Steels 60–65 Rc
Rw ≤.1 x D
Ad ≤1.5 x D
Rw ≤.05 x D
Ad ≤1.5 x D
Rw ≤.05 x D
Ad ≤1.5 x D
Rw ≤.05 x D
Ad ≤1.5 x D
Speed
Speed
Speed
Speed
Profiling
330 sfm
Diameter (D)
100 m / min
Feed per Tooth
300 sfm
90 m / min
Feed per Tooth
260 sfm
80 m / min
Feed per Tooth
200 sfm
60 m / min
Feed per Tooth
in
mm
in
mm
in
mm
in
mm
in
mm
1/4
6
.0018
.045
.0015
.040
.0014
.035
.0012
.030
5/16
8
.0022
.055
.0020
.050
.0018
.045
.0015
.040
3/8
10
.0024
.065
.0024
.060
.0022
.055
.0020
.050
1/2
12
.0030
.075
.0027
.070
.0026
.065
.0024
.060
Steels 30–45 Rc
Steels 45–55 Rc
Steels 55–60 Rc
Steels 60–65 Rc
Rw ≤.04 x D
Ad ≤1.5 x D
Rw ≤.04 x D
Ad ≤1.5 x D
Rw ≤.01 x D
Ad ≤1.5 x D
Rw ≤.01 x D
Ad ≤1.5 x D
Speed
Speed
Speed
Speed
High Speed Profiling
825 sfm
Diameter (D)
250 m / min
Feed per Tooth
825 sfm
250 m / min
Feed per Tooth
425 sfm
130 m / min
Feed per Tooth
425 sfm
130 m / min
Feed per Tooth
in
mm
in
mm
in
mm
in
mm
in
mm
1/4
6
.0040
.100
.0035
.090
.0030
.070
.0025
.060
5/16
8
.0045
.110
.0040
.100
.0035
.090
.0030
.070
3/8
10
.0050
.130
.0047
.120
.0040
.100
.0035
.090
1/2
12
.0055
.140
.0050
.130
.0047
.120
.0045
.110
Radial Width of Cut (Rw)
Axial Depth of Cut (Ad)
256
100 sfm
Ancho radial del corte (Rw)
Profundidad axial del corte (Ad)
Largeur radiale de taille (Rw)
Profondeur axiale de taille (Ad)
Ski-Carb® Speed and Feed Recommendations –
Fractional and Metric
www.sgstool.com
RPM – Use Maximum Available – No speed limits for SGS SKI-CARB®
rpm: utilice el máximo valor disponible; no hay límites de velocidad para las SKI-CARB® de SGS
Utilisez la vitesse de rotation maximale; aucune limite de vitesse de rotation ne s’applique aux fraises SKI-CARB®
Recommendations:
Recomendaciones:
Recommandations:
t Increase feed based on motor load
t Aumente el avance en base a la carga del motor
t Adjust feed appropriately when finish milling
t Al realizar fresado de acabado, ajuste el avance
en forma apropiada
t Use sufficient coolant, particularly in
aluminum applications
t Utilice una cantidad suficiente de refrigerante,
particularmente en aplicaciones de aluminio
t Mist may be advantageous when milling deep
pockets
t La niebla puede ser ventajosa al fresar cavidades
profundas
t For optimum performance balance holder/
tool assembly
t Para lograr un rendimiento óptimo, equilibre el
conjunto de herramienta y porta-herramientas
Contact SGS Tool Company for re-sharpening information.
Para obtener información sobre reafilado, comuníquese con SGS
Tool Company
Aluminum Alloys
Diameter (D)
in
–
–
–
1/4
5/16
3/8
1/2
–
5/8
–
3/4
1
mm
3
4
5
6
8
10
12
14
16
18
20
–
Brass/Bronze
1600–2000 sfm
490–610 m/min
1200–1600 sfm
800–1200 sfm
365–490 m/min
245–365 m/min
Feed Rate Per Tooth
800–1500 sfm
245–455 m/min
in
–
–
–
.003
.004
.005
.006
–
.007
–
.008
.010
in
–
–
–
.006
.008
.010
.012
–
.014
–
.016
.018
1SPGJMJOHt1FSGJMBEPt%ÏUPVSBHF
mm
.04
.05
.06
.07
.10
.12
.15
.17
.18
.20
.22
–
mm
.08
.10
.12
.14
.20
.24
.30
.34
.36
.40
.44
–
in
–
–
–
.003
.004
.005
.006
–
.007
–
.008
.010
Los anteriores son puntos de partida recomendados para fresas con
canales de longitud normal o reducida; para canales extralargos ajuste
el avance como corresponda.
mm
.04
.05
.06
.07
.10
.12
.15
.17
.18
.20
.22
–
in
–
–
–
.003
.004
.005
.006
–
.007
–
.008
.010
mm
.04
.05
.06
.07
.10
.12
.15
.17
.18
.20
.22
–
Les conseils ci-dessus sont des points de départ recommandés pour
les opérations de fraisage à goujures normales ou courtes (avec des
goujures très longues, ajustez la vitesse d’avance en conséquence).
4MPUUJOHt3BOVSBEPt3BJOVSBHF
Axial Depth (Ad) ≤ 1.5 x D
Radial Width ≤ (Rw) .5 x D
Axial Depth (Ad) ≤ 1 x D
Prof. axial ≤ 1.5 x diámetro
Ancho radial ≤ 0.5 x diámetro
Profondeur axiale ≤ 1 x diamètre (max.)
Profondeur axiale ≤1,5 x diamètre (max.)
Largeur radiale ≤0,5 x diamètre (max.)
Pour obtenir des renseignements sur les réaffutages, contactez la
société SGS Tool Company
Copper Alloys
The above are recommended starting points for regular or short flute
length mills – adjust feed accordingly for extra-long flute lengths
Plastics
t Augmenter l’avance selon la charge du moteur
t Régler correctement l’avance lorsque le fraisage
est terminé
t Utiliser suffisamment de liquide de
refroidissement, particulièrement sur l’aluminium
t Des pulvérisations de gouttelettes peuvent
être avantageuses pour le fraisage de poches
profondes
t Pour des performances optimales, équilibrer
l’assemblage support/outil
Prof. axial ≤ 1 x diámetro
rpm = sfm x 3.82 / tool diameter
rpm = (m/min x 1000) / (3.14 x tool diameter)
feed per minute = feed per tooth x no. of teeth x rpm
rpm = sfm x 3.82 / diámetro de la herramienta
rpm = (m/min x 1000) / (3.14 x diámetro de la herramienta)
avance por minuto = avance por diente x Nº de dientes x rpm
r/min = pi/min x 3,82 / diamètre d’outil
r/min = (m/min x 1000) / (3,14 x diamètre d’outil)
avance par minute = avance par dent x nombre de dents x r/min
257
S-Carb® Series 43 and 47 Speed and Feed Recommendations –
Fractional and Metric
www.sgstool.com
Aluminum Alloys
1600–2000 sfm
490–610 m/min
Plastics
1200–1600 sfm
365–490 m/min
Diameter (D)
Copper Alloys
800–1200 sfm
245–365 m/min
Brass / Bronze
800–1500 sfm
245–455 m/min
Feed Rate Per Tooth
in
mm
in
mm
in
mm
in
mm
in
mm
1/8
–
3/16
3
4
5
0.0015
–
0.0025
0.04
0.05
0.06
0.0030
–
0.0050
0.08
0.10
0.12
0.0015
–
0.0025
0.04
0.05
0.06
0.0015
–
0.0025
0.04
0.05
0.06
1/4
5/16
3/8
6
8
10
0.0030
0.0040
0.0050
0.07
0.10
0.12
0.0060
0.0080
0.0100
0.14
0.20
0.24
0.0030
0.0040
0.0050
0.07
0.10
0.12
0.0030
0.0040
0.0050
0.07
0.10
0.12
1/2
–
5/8
12
14
16
0.0060
–
0.0070
0.15
0.17
0.18
0.0120
–
0.0140
0.30
0.34
0.36
0.0060
–
0.0070
0.15
0.17
0.18
0.0060
–
0.0070
0.15
0.17
0.18
3/4
1
20
25
0.0080
0.0100
0.22
0.25
0.0160
0.0180
0.44
0.46
0.0080
0.0100
0.22
0.25
0.0080
0.0100
0.22
0.25
Feed rates shown are for slotting.
Rates shown can be increased 40% when profile milling.
When finish milling, reduce feed to obtain desired finish.
Las velocidades de avance indicadas son para ranurado.
Estas velocidades pueden incrementarse en un 40% para fresado de perfiles.
En el fresado de acabado, reduzca el avance para obtener el acabado deseado.
Les vitesses d’avance indiquées s’appliquent au rainurage.
Les vitesses indiquées peuvent être augmentées de 40% lors des opérations de détourage.
Après le fraisage, réduire la vitesse d’avance pour obtenir la finition désirée.
rpm = sfm x 3.82 / tool diameter
rpm = (m/min x 1000) / (3.14 x tool diameter)
feed per minute = feed per tooth x number of teeth x rpm
rpm = sfm x 3.82 / diámetro de la herramienta
rpm = (m/min x 1000) / (3.14 x diámetro de la herramienta)
avance por minuto = avance por diente x Nº de dientes x rpm
r/min = pi/min x 3,82 / diamètre d’outil
r/min = (m/min x 1000) / (3,14 x diamètre d’outil)
avance par minute = avance par dent x nombre de dents x r/min
Axial Depth (Ad) ≤ 1.5 x Diameter
Radial Width (Rw) ≤ .5 x Diameter
Prof. axial ≤ 1.5 x diámetro
Ancho radial ≤ 0.5 x diámetro
Profondeur axiale ≤ 1,5 x diamètre
Largeur radiale ≤ 0,5 x diamètre
Prof. axial ≤ 1 x diámetro
Profondeur axiale ≤ 1 x diamètre
Axial Depth (Ad) ≤ 1 x Diameter
258
S-Carb Series 43 and 47 Speed and Feed Recommendations –
Extended Reach – Fractional
www.sgstool.com
Slotting
Aluminum
Radial Width (Rw)
Axial Depth (Ad)
Speed (sfm)
Roughing
1xD
.5xD
2000
Finishing
1xD
.05xD
2000
Peripheral
Roughing
.25xD
1xD
2000
Contouring
Finishing
.05xD
.8xD
2000
Roughing
.3xD
.3xD
2000
1/2–5/8
Roughing Finishing
.0045
.0055
.0055
.0070
.0070
.0080
Roughing
.0070
.0085
.0100
Finishing
.04xD
.05xD
2000
Feed / Tooth by Diameter (inch)
1/4
Operation
Slotting
Peripheral
Contouring
Roughing
.0016
.0020
.0024
3/8
Finishing
.0020
.0028
.0040
Roughing
.0035
.0040
.0045
Finishing
.0040
.0045
.0060
Slotting
Copper Alloys
Radial Width (Rw)
Axial Depth (Ad)
Speed (sfm)
Roughing
1xD
.1xD
400
Finishing
1xD
.05xD
400
Peripheral
Roughing
.25xD
1xD
400
3/4
Finishing
.0085
.0100
.0120
Contouring
Finishing
.05xD
.8xD
400
Roughing
.1xD
.2xD
600
1/2–5/8
Roughing Finishing
.0035
.0040
.0040
.0045
.0045
.0060
Roughing
.0045
.0055
.0070
Finishing
.04xD
.05xD
600
Feed / Tooth by Diameter (inch)
1/4
Operation
Slotting
Peripheral
Contouring
Roughing
.0010
.0015
.0020
3/8
Finishing
.0015
.0020
.0025
Roughing
.0016
.0020
.0024
Finishing
.0020
.0028
.0040
Slotting
Plastics
Radial Width (Rw)
Axial Depth (Ad)
Speed (sfm)
Roughing
1xD
.5xD
280
Finishing
1xD
.05xD
325
Peripheral
Roughing
.25xD
1xD
350
3/4
Finishing
.0055
.0070
.0080
Contouring
Finishing
.05xD
.8xD
400
Roughing
.3xD
.3xD
400
1/2–5/8
Roughing
Finishing
.0035
.0040
.0040
.0045
.0045
.0060
Roughing
.0045
.0055
.0070
Finishing
.04xD
.05xD
450
Feed / Tooth by Diameter (inch)
1/4
Operation
Slotting
Peripheral
Contouring
Roughing
.0010
.0015
.0020
3/8
Finishing
.0015
.0020
.0025
rpm = sfm x 3.82 / tool diameter
rpm = (m/min x 1000) / (3.14 x tool diameter)
feed per minute = feed per tooth x number of teeth x rpm
Roughing
.0016
.0020
.0024
Finishing
.0020
.0028
.0040
rpm = sfm x 3.82 / diámetro de la herramienta
rpm = (m/min x 1000) / (3.14 x diámetro de la herramienta)
avance por minuto = avance por diente x Nº de dientes x rpm
3/4
Finishing
.0055
.0070
.0080
r/min = pi/min x 3,82 / diamètre d’outil
r/min = (m/min x 1000) / (3,14 x diamètre d’outil)
avance par minute = avance par dent x nombre de dents x r/min
259
S-Carb Series 43 and 47 Speed and Feed Recommendations –
Extended Reach – Metric
www.sgstool.com
Slotting
Aluminum
Radial Width (Rw)
Axial Depth (Ad)
Speed (m/min)
Roughing
1xD
.5xD
610
Finishing
1xD
.05xD
610
Peripheral
Roughing
.25xD
1xD
610
Contouring
Finishing
.05xD
.8xD
610
Roughing
.3xD
.3xD
610
8–10
Roughing Finishing
0.090
0.100
0.100
0.110
0.110
0.150
12–16
Roughing Finishing
0.110
0.140
0.140
0.180
0.180
0.200
Roughing
0.180
0.215
0.250
Slotting
Peripheral
Finishing
.04xD
.05xD
610
Feed / Tooth by Diameter (mm)
6
Operation
Slotting
Peripheral
Contouring
Copper Alloys
Roughing
0.040
0.050
0.060
Finishing
0.050
0.070
0.100
Radial Width (Rw)
Axial Depth (Ad)
Speed (m/min)
Roughing
1xD
.1xD
125
Finishing
1xD
.05xD
125
Roughing
.25xD
1xD
125
20
Finishing
0.215
0.250
0.300
Contouring
Finishing
.05xD
.8xD
125
Roughing
.1xD
.2xD
185
8–10
Roughing
Finishing
0.040
0.050
0.050
0.070
0.060
0.100
12–16
Roughing
Finishing
0.090
0.100
0.100
0.110
0.110
0.150
Roughing
0.110
0.140
0.170
Slotting
Peripheral
Finishing
.04xD
.05xD
185
Feed / Tooth by Diameter (mm)
6
Operation
Slotting
Peripheral
Contouring
Plastics
Roughing
0.025
0.035
0.050
Finishing
0.035
0.050
0.065
Radial Width (Rw)
Axial Depth (Ad)
Speed (m/min)
Roughing
1xD
.5xD
85
Finishing
1xD
.05xD
100
Roughing
.25xD
1xD
110
20
Finishing
0.140
0.170
0.200
Contouring
Finishing
.05xD
.8xD
125
Roughing
.3xD
.3xD
125
12–16
Roughing
Finishing
0.090
0.100
0.100
0.110
0.110
0.150
Roughing
0.110
0.140
0.170
Finishing
.04xD
.05xD
135
Feed / Tooth by Diameter (mm)
6
Operation
Slotting
Peripheral
Contouring
Roughing
0.025
0.035
0.050
Finishing
0.035
0.050
0.065
rpm = sfm x 3.82 / tool diameter
rpm = (m/min x 1000) / (3.14 x tool diameter)
feed per minute = feed per tooth x number of teeth x rpm
260
8–10
Roughing
Finishing
0.040
0.050
0.050
0.070
0.060
0.100
rpm = sfm x 3.82 / diámetro de la herramienta
rpm = (m/min x 1000) / (3.14 x diámetro de la herramienta)
avance por minuto = avance por diente x Nº de dientes x rpm
20
Finishing
0.140
0.170
0.200
r/min = pi/min x 3,82 / diamètre d’outil
r/min = (m/min x 1000) / (3,14 x diamètre d’outil)
avance par minute = avance par dent x nombre de dents x r/min
Amorphous Diamond Coatings (AD)
Speed and Feed Recommendations – Fractional and Metric
www.sgstool.com
Cutting
Diameter
Inch
Feed Rate Per Tooth
mm
Finishing
Slotting
Rw 1 x D
Peripheral
Ad .03 x D
Rw .06 x D
Ad .45 x D
Contouring
Rw .02 x D
Ad .03 x D
Speed 3280 - 5900 sfm (1000 - 1800 m/min)
Roughing
Rw 1 x D
Ad .25 x D
Rw .1 x D
Ad .65 x D
Rw .1 x D
Ad .25 x D
Speed 1310 – 1970 sfm (400 – 600 m/min)
1/16
1,6
0.0003 in
(0.008mm)
0.0004 in
(0.010 mm)
0.0005 in
(0.011mm)
1/8
3
0.0006 in
(0.016mm)
0.0008 in
(0.020 mm)
0.0009 in
(0.022mm)
3/16
5
0.0013 in
(0.032mm)
0.0016 in
(0.041 mm)
0.0017 in
(0.044mm)
1/4
6
0.0013 in
(0.032mm)
0.0016 in
(0.041 mm)
0.0017 in
(0.044mm)
5/16
8
0.0027 in
(0.068mm)
0.0034 in
(0.086 mm)
0.0037 in
(0.094mm)
3/8
10
0.0027 in
(0.068mm)
0.0034 in
(0.086 mm)
0.0037 in
(0.094mm)
1/2
12
0.0041 in
(0.103mm)
0.0046 in
(0.117 mm)
0.0050 in
(0.127mm)
Amorphous Diamond tool coatings are ideal for machining non-ferrous
materials. Any SGS solid carbide tool can be coated with Amorphous
Diamond.
Los recubrimientos para herramientas de diamante amorfo son ideales
para el maquinado de materiales no ferrosos. Toda herramienta SGS de
carburo sólido puede recubrirse con diamante amorfo.
Les revêtements d’outil en diamant amorphe sont parfaits pour
l’usinage des matériaux non ferreux. Tous les outils en carbure massif
SGS peuvent être revêtus de diamant amorphe.
Radial Width of Cut (Rw)
Axial Depth of Cut (Ad)
Tool Diameter (D)
Ancho radial del corte (Rw)
Profundidad axial del corte (Ad)
Diámetro de la herramienta (D)
Largeur radiale de taille (Rw)
Profondeur axiale de taille (Ad)
Diamètre de l’outil (D)
261
Dia-Carb CVD Diamond Coatings
Speed and Feed Recommendations – Fractional and Metric
TM
www.sgstool.com
DIA-CARB
Diamond Coating
Cutting
Diameter
Inch
Feed Rate Per Tooth
mm
Finishing
Slotting
Rw 1 x D
Peripheral
Ad .03 x D
Rw .06 x D
Ad .45 x D
Contouring
Rw .02 x D
Ad .03 x D
Speed 3280 - 5900 sfm (1000 - 1800 m/min)
Roughing
Rw 1 x D
Ad .25 x D
Rw .1 x D
Ad .65 x D
Rw .1 x D
Ad .25 x D
Speed 1310 – 1970 sfm (400 – 600 m/min)
1/16
1,6
0.0003 in
(0.008mm)
0.0004 in
(0.010 mm)
0.0005 in
(0.011mm)
1/8
3
0.0006 in
(0.016mm)
0.0008 in
(0.020 mm)
0.0009 in
(0.022mm)
3/16
5
0.0013 in
(0.032mm)
0.0016 in
(0.041 mm)
0.0017 in
(0.044mm)
1/4
6
0.0013 in
(0.032mm)
0.0016 in
(0.041 mm)
0.0017 in
(0.044mm)
5/16
8
0.0027 in
(0.068mm)
0.0034 in
(0.086 mm)
0.0037 in
(0.094mm)
3/8
10
0.0027 in
(0.068mm)
0.0034 in
(0.086 mm)
0.0037 in
(0.094mm)
1/2
12
0.0041 in
(0.103mm)
0.0046 in
(0.117 mm)
0.0050 in
(0.127mm)
Dia-Carb End Mills are for machining abrasive materials such as
graphite composites.
Las fresas Dia-Carb son para el maquinado de materiales abrasivos,
como los compuestos de grafito.
Les fraises à queue Dia-Carb sont conçues pour usiner des matériaux
abrasifs, comme les composites à base de graphite.
Radial Width of Cut (Rw)
Axial Depth of Cut (Ad)
Tool Diameter (D)
Ancho radial del corte (Rw)
Profundidad axial del corte (Ad)
Diámetro de la herramienta (D)
Largeur radiale de taille (Rw)
Profondeur axiale de taille (Ad)
Diamètre de l’outil (D)
262
Cutting Conditions – General Purpose Carbide End Mills –
Fractional
Condiciones de corte
Conditions de coupe
material
speed
in
sfm
Fresas de carburo sólida de uso general
Usage général des fraises carbure monobloc
www.sgstool.com
feed ( in / tooth )
1/32 – 1/4
>1/4 – 1/2
Structural Steel / Aceros de construcción / Acier à construction
< 150 Bhn
490
.0006 - .0014
.0010 - .0030
< 190 Bhn
410
.0006 - .0014
.0010 - .0030
< 250 Bhn
295
.0006 - .0010
.0010 - .0022
Case Hardening Steel / Aceros de cementación y temple / Aciers à cémentation
< 240 Bhn
330
.0010 - .0014
.0014 - .0031
< 300 Bhn
260
.0006 - .0010
.0010 - .0024
Nitriding Steel / Aceros de nitruración / Aciers à nitruration
< 300 Bhn
295
.0006 - .0010
.0010 - .0024
< 40 Rc
230
.0004 - .0008
.0010 - .0020
Heat Treatable Steel / Aceros de temple / Acier trempé
< 200 Bhn
260
.0006 - .0016
.0010 - .0033
< 240 Bhn
200
.0006 - .0014
.0010 - .0026
< 40 Rc
165
.0004 - .0010
.0010 - .0014
< 45 Rc
115
.0004 - .0006
.0006 - .0012
Tool Steel / Aceros de herramientas / Acier à outils
< 240 Bhn
295
.0010 - .0013
.0022 - .0026
< 300 Bhn
230
.0006 - .0010
.0014 - .0022
< 40 Rc
200
.0004 - .0008
.0010 - .0014
< 45 Rc
150
.0004 - .0006
.0010 - .0014
> 45 Rc
100
.0002 - .0006
.0008 - .0012
Stainless Steel / Acero Inoxidable / Acier inoxydable
< 200 Bhn
260
.0004 - .0006
.0010 - .0016
< 250 Bhn
200
.0004 - .0006
.0008 - .0012
< 280 Bhn
130
.0002 - .0006
.0004 - .0010
Cast Steel / Aceros de fundición blanda / Fonte tendre
< 150 Bhn
360
.0006 - .0010
.0012 - .0020
< 190 Bhn
260
.0004 - .0008
.0006 - .0014
> 190 Bhn
200
.0002 - .0006
.0006 - .0012
Cast Steel – Hard / Aceros de fundición dura / Fonte dure
130
.0006 - .0010
.0010 - .0014
High Temp. Alloys / Aceros resistentes a altas temp. / Alliage à haute temp.
< 200 Bhn
115
.0006 - .0010
.0010 - .0012
< 240 Bhn
65
.0004 - .0006
.0008 - .0010
< 330 Bhn
60
.0004 - .0006
.0008 - .0010
< 40 Rc
60
.0004 - .0006
.0006 - .0008
< 45 Rc
40
.0004 - .0006
.0006 - .0008
> 45 Rc
25
.0002 - .0004
.0004 - .0007
Titanium Alloys / Aleaciones de titanio / Alliage de titane
< 160 Bhn
330
.0004 - .0008
.0008 - .0020
< 220 Bhn
230
.0004 - .0008
.0008 - .0020
< 300 Bhn
100
.0002 - .0006
.0006 - .0012
< 45 Rc
35
.0002 - .0004
.0004 - .0010
Malleable Cast iron / Fundición maleable / Fonte aciérée malléable
< 200 Bhn
560
.0004 - .0010
.0008 - .0026
> 200 Bhn
360
.0002 - .0008
.0008 - .0020
Gray Cast Iron / Fundición gris / Fonte aciérée grise
< 200 Bhn
395
.0008 - .0013
.0008 - .0026
> 200 Bhn
260
.0004 - .0008
.0008 - .0020
Copper / Cobre / Cuivre
< 150 Bhn
820
.0004 - .0008
.0008 - .0020
Copper Alloys – Soft / Aleaciones de cobre blandas / Alliage de cuivre - tendre
590
.0006 - .0016
.0020 - .0039
Copper Alloys – Brittle / Aleación de cobre fragil / Alliage de cuivre - mou
490
.0006 - .0016
.0020 - .0039
Copper Alloys – Tough / Aleaciones de cobre dura / Alliage de cuivre – dur
460
.0006 - .0016
.0020 - .0039
Aluminum – Low Silicon / Aluminio - bajo contenido de silicio / Aluminium – faible teneur en silice
1200
.0012 - .0028
.0039 - .0059
Aluminum – High Silicon / Aluminio – alto contenido de silicio / Aluminium à forte teneur de silice
650
.0012 - .0020
.0020- .0039
Magnesium Alloys / Aleaciones de magnesio / Alliage de magnésium
1300
.0012 - .0020
.0020 - .0039
Zinc Alloys / Aleaciones de zinc / Alliage de zinc
1150
.0014 - .0020
.0024 - .0039
>1/2 – 1
.0028 - .0071
.0024 - .0039
.0022 - .0031
.0031 - .0071
.0024 - .0031
.0024 - .0031
.0014 - .0024
.0022 - .0067
.0022 - .0047
.0014 - .0039
.0014 - .0024
.0039 - .0059
.0022 - .0039
.0014 - .0039
.0010 - .0039
.0008 - .0031
.0014 - .0031
.0010 - .0026
.0008 - .0020
.0031 - .0059
.0031 - .0039
.0020 - .0031
All recommendations should be considered
a starting point, with possible variations to
achieve optimum results. Increase the speed
20% when using coated end mills.
Todas la recomendaciones deberían ser
consideradas como punto de partida, con
posibles variaciones para conseguir óptimos
resultados. Incrementar la velocidad un 20%
cuando se utilicen fresas recubiertas.
Les informations techniques mentionnées sont
des valeurs moyennes données à titre indicatif
et sont modifiables pour optimiser les résultats.
Augmenter la vitesse de 20% lorsque vous
utilisez des fraises revêtues.
.0016 - .0020
.0016 - .0020
.0014 - .0018
.0014 - .0018
.0012 - .0016
.0008 - .0014
.0004 - .0012
.0020 - .0031
.0020 - .0031
.0012 - .0026
.0010 - .0020
.0020 - .0047
.0020 - .0039
.0020 - .0071
.0020 - .0039
.0020 - .0059
.0039 - .0059
.0039 - .0059
.0039 - .0059
.0051 - .0098
.0039 - .0079
.0059 - .0120
.0047 - .0120
263
The Machining Applications – Carbide End Mill Selection Guide
– Fractional
www.sgstool.com
Aplicaciones mecanizadas
Applications d’usinage
1
2
3
4
5
6
7
8
1)
2)
3)
4)
5)
6)
7)
8)
Note: All recommendations should be considered only as a starting point, with possible variations to achieve optimum results.
Profiling/Finishing Cut: Use 4 Flutes.
Slotting: Use 3-Flute to resist chatter. Use 2-Flute or Roughing Mill for maximum chip removal.
Plunge/Slot: Use 2-Flute for maximum chip removal. Use 3-Flute to resist chatter.
Profiling/Roughing Cut: Use Roughing Mill for rapid material removal.
Contour Finishing: Use 3-or 4-Flute, Ball End.
Plunge/Slot Contouring: Use 2-Flute, Ball End for maximum chip removal. Use 3-Flute, Ball End for improved surface finish.
Contour Slotting: Use 3-Flute, Ball End to resist chatter. Use 2-Flute, Ball End for maximum chip removal.
Profiling/Thin Material: Use 2 or 4 Straight Flutes.
Se deben considerar las recomendaciones como puntos de partida únicamente, con posibles variaciones, para obtener resultados óptimos.
Perfilado/cortes para acabado: use de 4 filos.
Ranurado: use de 3 filos para evitar vibración. use de 2 filos o fresas de desbaste para obtener un máximo desalojamiento de viruta.
Cajas/Ranurado: use de 2 filos para obtener un máximo desalojamiento de viruta. Use de 3 filos para evitar vibración.
Perfilado/cortes de acabado: use fresas de desbaste para obtener un desalojamiento rápido del material.
Acabado de contornos: use de 3 ó 4 filos punta radial.
Contorneo para hundimiento y ranurado: use de 2 filos punta esférica para obtener un máximo desalojamiento de viruta. Use de 3 filos punta esférica para un mejor
acabado de la superficie.
7) Ranurado en contorno: use de 3 filos punta esférica para evitar vibracion. Use de 2 filos punta esférica para obtener un máximo desalojo de viruta.
8) Perfilado/materiales delgados: use de 2 ó 4 filos rectos.
1)
2)
3)
4)
5)
6)
Les valeurs ci-dessus ne sont données qu'à titre indicatif. Déterminez vous-même la valeur optimale.
Coupe profilée/finition: utilisez une fraise à 4 dents.
Mortaisage: utilisez une fraise à 3 dents pour résister aux vibrations. Pour un enlèvement maximal des copeaux, utilisez une fraise à 2 dents ou une fraise d’ébauche.
Plongée/rainure: pour un enlèvement maximal des copeaux, utilisez une fraise à 2 dents. Utilisez une fraise à 3 dents pour résister aux vibrations.
Coupe profilée/dégrossissage: utilisez une fraise d’ébauche pour enlever la matière rapidement.
Finition des contours: utilisez une fraise à 3 ou 4 dents, à bout plat.
Contour en plongée/rainure: pour un enlèvement maximal des copeaux, utilisez une fraise à 2 dents, à bout hémisphérique. Pour améliorer la finition de surface, utilisez
une fraise à 3 dents, à bout hémisphérique.
7) Mortaisage des contours: utilisez une fraise à 3 dents, à bout hémisphérique pour résister aux vibrations. Pour un enlèvement maximal des copeaux, utilisez une fraise à
2 dents, à bout hémisphérique.
8) Profilage/matière mince: utilisez des fraises à 2 ou 4 dents droites.
1)
2)
3)
4)
5)
6)
End Mill
Fresas
Fraise
Machining Apps.
Aplicac. Mecan.
Appl. Usinage
1
Series 1,
10,14,16
Series 3,
11,15,17
Series 5
Series
1B,10B,
14B
Series
3B,11B,
15B
Series 5B
Series
21, 22
Series 60
60˚ Helix
Series 61
Roughing
Mills
Series 62
Roughing
Mills
Series 63
Roughing
Mills
264
Guía de Selección Para Fresas de Carburo
Guide de sélection des fraises en carbure
2
Titanium
Inconel
Titanio
lnconel
Titane
Inconel
Stainless
Steel
Acero
inoxidable
Acier
inoxydable
Steel
Castings Graphite
Hard–Soft Hard–Soft Grafito
Acero
Fundiciones Graphite
Duro–Suave Duro–Suave
Acier
Fonte
Brass
Latón
Laiton
Aluminum
Aluminio
Aluminium
Plastic Fiberglass
Plástico
Fibra de
Vidrio
Matière
synthétique Fibre
de verre
Wood
Madera
Bois
Cutting Conditions – General Purpose Carbide End Mills – Metric
Condiciones de corte
Conditions de coupe
material
speed
in
m / min
Fresas de carburo sólida de uso general
Usage général des fraises carbure monobloc
feed ( mm / tooth )
1–6
>6 – 12
>12 – 25
Structural Steel / Aceros de construcción / Acier à construction
< 500 N/mm2
150
0,015 - 0,035
0,025 - 0,075
0,07 - 0,18
< 650 N/mm2
125
0,015 - 0,035
0,025 - 0,075
0,06 - 0,1
< 850 N/mm2
90
0,015 - 0,025
0,025 - 0,055
0,055 - 0,08
Case Hardening Steel / Aceros de cementación y temple / Aciers à cémentation
< 800 N/mm2
100
0,025 - 0,035
0,035 - 0,08
0,08 - 0,18
< 1000 N/mm2
80
0,015 - 0,025
0,025 - 0,06
0,06 - 0,08
Nitriding Steel / Aceros de nitruración / Aciers à nitruration
< 1000 N/mm2
90
0,015 - 0,025
0,025 - 0,06
0,06 - 0,08
< 1300 N/mm2
70
0,01 - 0,02
0,025 - 0,05
0,035 - 0,06
Heat Treatable Steel / Aceros de temple / Acier trempé
< 700 N/mm2
80
0,015 - 0,04
0,025 - 0,085
0,055 - 0,17
< 900 N/mm2
60
0,015 - 0,035
0,025 - 0,065
0,055 - 0,12
< 1200 N/mm2
50
0,01 - 0,025
0,025 - 0,035
0,035 - 0,1
< 1400 N/mm2
35
0,01 - 0,015
0,015 - 0,03
0,035 - 0,06
Tool Steel / Aceros de herramientas / Acier à outils
< 800 N/mm2
90
0,025 - 0,032
0,055 - 0,065
0,1 - 0,15
< 1000 N/mm2
70
0,015 - 0,025
0,035 - 0,055
0,055 - 0,1
< 1200 N/mm2
60
0,01 - 0,02
0,025 - 0,035
0,035 - 0,1
< 1400 N/mm2
45
0,01 - 0,015
0,025 - 0,035
0,025 - 0,1
> 1400 N/mm2
30
0,005 - 0,015
0,02 - 0,03
0,02 - 0,08
Stainless Steel / Acero Inoxidable / Acier inoxydable
< 700 N/mm2
80
0,01 - 0,015
0,025 - 0,04
0,035 - 0,08
< 850 N/mm2
60
0,01 - 0,015
0,02 - 0,03
0,025 - 0,065
< 950 N/mm2
40
0,005 - 0,015
0,01 - 0,025
0,02 - 0,05
Cast Steel / Aceros de fundición blanda / Fonte tendre
< 500 N/mm2
110
0,015 - 0,025
0,03 - 0,05
0,08 - 0,15
< 650 N/mm2
80
0,010 - 0,02
0,015 - 0,035
0,08 - 0,1
> 650 N/mm2
60
0,005 - 0,015
0,015 - 0,03
0,05 - 0,08
Cast Steel – Hard / Aceros de fundición dura / Fonte dure
40
0,08 - 0,015
0,015 - 0,035
0,03 - 0,15
High Temp. Alloys / Aceros resistentes a altas temp. / Alliage à haute temp.
< 700 N/mm2
35
0,015 - 0,025
0,025 - 0,03
0,04 - 0,05
< 900 N/mm2
20
0,01 - 0,015
0,02 - 0,025
0,035 - 0,045
< 1100 N/mm2
18
0,01 - 0,015
0,02 - 0,025
0,035 - 0,045
< 1250 N/mm2
18
0,01 - 0,015
0,015 - 0,02
0,03 - 0,04
< 1400 N/mm2
12
0,01 - 0,015
0,015 - 0,02
0,02 - 0,035
> 1400 N/mm2
8
0,005 - 0,01
0,01 - 0,018
0,01 - 0,03
Titanium Alloys / Aleaciones de titanio / Alliage de titane
< 550 N/mm2
100
0,01 - 0,02
0,02 - 0,05
0,05 - 0,08
< 750 N/mm2
70
0,01 - 0,02
0,02 - 0,05
0,05 - 0,08
< 1000 N/mm2
30
0,005 - 0,015
0,015 - 0,03
0,03 - 0,065
< 1500 N/mm2
10
0,005 - 0,01
0,01 - 0,025
0,025 - 0,05
Malleable Cast iron / Fundición maleable / Fonte aciérée malléable
< 200 HB
170
0,01 - 0,025
0,02 - 0,065
0,05 - 0,12
> 200 HB
110
0,005 - 0,02
0,02 - 0,05
0,05 - 0,1
Gray Cast Iron / Fundición gris / Fonte aciérée grise
< 200 HB
120
0,02 - 0,032
0,02 - 0,065
0,05 - 0,18
> 200 HB
80
0,01 - 0,02
0,02 - 0,05
0,05 - 0,1
Copper / Cobre / Cuivre
< 500 N/mm2
250
0,01 - 0,02
0,02 - 0,05
0,05 - 0,15
Copper Alloys – Soft / Aleaciones de cobre blandas / Alliage de cuivre - tendre
180
0,015 - 0,04
0,05 - 0,1
0,1 - 0,15
Copper Alloys – Brittle / Aleación de cobre fragil / Alliage de cuivre - mou
150
0,015 - 0,04
0,05 - 0,1
0,1 - 0,15
Copper Alloys – Tough / Aleaciones de cobre dura / Alliage de cuivre – dur
140
0,015 - 0,04
0,05 - 0,1
0,1 - 0,15
Aluminum – Low Silicon / Aluminio - bajo contenido de silicio / Aluminium – faible teneur en silice
360
0,03 - 0,07
0,1 - 0,15
0,13 - 0,25
Aluminum – High Silicon / Aluminio – alto contenido de silicio / Aluminium à forte teneur de silice
200
0,03 - 0,05
0,05 - 0,1
0,1 - 0,2
Magnesium Alloys / Aleaciones de magnesio / Alliage de magnésium
400
0,03 - 0,05
0,05 - 0,1
0,15 - 0,3
Zinc Alloys / Aleaciones de zinc / Alliage de zinc
350
0,035 - 0,05
0,06 - 0,1
0,12 – 0,3
material
number
description
1.0037
1.0050
1.0070
St 37-2
St 50-2
St 70-2
1.0301
1.7012
C 10
13 Cr 2
1.8509
1.8519
41 CrAlMo 7
31 CrMoV 9
1.0406
1.0540
1.5122
1.6582
C 25
C 50
37 MnSi 4
34 CrNiMo 6
–
–
–
–
–
–
–
–
–
–
1.4301
1.4006
1.4122
X 5 CrNi 18 10
X 10 Cr 13
X 35 CrMo 17
1.0446
1.0553
1.0554
GS-38
GS-60
GS-70
2.4816
1.4921
1.4911
1.4980
2.4973
2.4969
NiCr 15 Fe
X 20 CrMoV 12 1
X 8 CrCoNiMo 10 6
X 5 NiCrTi 26 15
NiCr 19 CoMo
NiCr 20 Co 18 Ti
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
www.sgstool.com
All recommendations should
be considered a starting
point, with possible variations
to achieve optimum results.
Increase the speed 20% when
using coated end mills.
Todas la recomendaciones
deberían ser consideradas
como punto de partida, con
posibles variaciones para
conseguir óptimos resultados.
Incrementar la velocidad un
20% cuando se utilicen fresas
recubiertas.
Les informations techniques
mentionnées sont des valeurs
moyennes données à titre
indicatif et sont modifiables
pour optimiser les résultats.
Augmenter la vitesse de
20% lorsque vous utilisez des
fraises revêtues.
265
The Machining Applications – Carbide End Mill Selection Guide –
Metric
www.sgstool.com
Aplicaciones mecanizadas
Applications d’usinage
1
2
3
4
5
6
7
8
1)
2)
3)
4)
5)
6)
7)
8)
Note: All recommendations should be considered only as a starting point, with possible variations to achieve optimum results.
Profiling/Finishing Cut: Use 4 Flutes.
Slotting: Use 3-Flute to resist chatter. Use 2-Flute or Roughing Mill for maximum chip removal.
Plunge/Slot: Use 2-Flute for maximum chip removal. Use 3-Flute to resist chatter.
Profiling/Roughing Cut: Use Roughing Mill for rapid material removal.
Contour Finishing: Use 3-or 4-Flute, Ball End.
Plunge/Slot Contouring: Use 2-Flute, Ball End for maximum chip removal. Use 3-Flute, Ball End for improved surface finish.
Contour Slotting: Use 3-Flute, Ball End to resist chatter. Use 2-Flute, Ball End for maximum chip removal.
Profiling/Thin Material: Use 2 or 4 Straight Flutes.
Se deben considerar las recomendaciones como puntos de partida únicamente, con posibles variaciones, para obtener resultados óptimos.
Perfilado/cortes para acabado: use de 4 filos.
Ranurado: use de 3 filos para evitar vibración. use de 2 filos o fresas de desbaste para obtener un máximo desalojamiento de viruta.
Cajas/Ranurado: use de 2 filos para obtener un máximo desalojamiento de viruta. Use de 3 filos para evitar vibración.
Perfilado/cortes de acabado: use fresas de desbaste para obtener un desalojamiento rápido del material.
Acabado de contornos: use de 3 ó 4 filos punta radial.
Contorneo para hundimiento y ranurado: use de 2 filos punta esférica para obtener un máximo desalojamiento de viruta. Use de 3 filos punta esférica para un mejor
acabado de la superficie.
7) Ranurado en contorno: use de 3 filos punta esférica para evitar vibracion. Use de 2 filos punta esférica para obtener un máximo desalojo de viruta.
8) Perfilado/materiales delgados: use de 2 ó 4 filos rectos.
1)
2)
3)
4)
5)
6)
Les valeurs ci-dessus ne sont données qu'à titre indicatif. Déterminez vous-même la valeur optimale.
Coupe profilée/finition: utilisez une fraise à 4 dents.
Mortaisage: utilisez une fraise à 3 dents pour résister aux vibrations. Pour un enlèvement maximal des copeaux, utilisez une fraise à 2 dents ou une fraise d’ébauche.
Plongée/rainure: pour un enlèvement maximal des copeaux, utilisez une fraise à 2 dents. Utilisez une fraise à 3 dents pour résister aux vibrations.
Coupe profilée/dégrossissage: utilisez une fraise d’ébauche pour enlever la matière rapidement.
Finition des contours: utilisez une fraise à 3 ou 4 dents, à bout plat.
Contour en plongée/rainure: pour un enlèvement maximal des copeaux, utilisez une fraise à 2 dents, à bout hémisphérique. Pour améliorer la finition de surface, utilisez
une fraise à 3 dents, à bout hémisphérique.
7) Mortaisage des contours: utilisez une fraise à 3 dents, à bout hémisphérique pour résister aux vibrations. Pour un enlèvement maximal des copeaux, utilisez une fraise à
2 dents, à bout hémisphérique.
8) Profilage/matière mince: utilisez des fraises à 2 ou 4 dents droites.
1)
2)
3)
4)
5)
6)
End Mill
Fresas
Fraise
Machining Apps.
Aplicac. Mecan.
Appl. Usinage
1
1M
3M
5M
1MB
3MB
5MB
21M,
22M
60M
60˚ Helix
61M
62M
63M
266
Guía de Selección Para Fresas de Carburo
Guide de sélection des fraises en carbure
2
Titanium
Inconel
Titanio
lnconel
Titane
Inconel
Stainless
Steel
Acero
inoxidable
Acier
inoxydable
Steel
Castings Graphite
Hard–Soft Hard–Soft Grafito
Acero
Fundiciones Graphite
Duro–Suave Duro–Suave
Acier
Fonte
Brass
Latón
Laiton
Aluminum
Aluminio
Aluminium
Plastic Fiberglass
Plástico
Fibra de
Vidrio
Matière
synthétique Fibre
de verre
Wood
Madera
Bois