ISCAR伊斯卡是车刀片 钛合金 淬火钢 铸铁 不锈钢刀粒
ISCAR伊斯卡是IMC集团十五家子品牌中大的品牌IMC (IMC集团成员).这些子品牌公司一起为用户提供金属切削全系列高精密硬质合金刀具。集团公司提供多样的硬质合金刀片,整体硬质合金铣刀及切削刀具,几乎涵盖了所有金属加工领域。不仅如此,集团还为全世界主要工业领域提供设计及制造解决方案。针对用户需要而研发的各种创新性产品,造就了IMC集团在汽车行业加工,航空航天加工及模具工业加工的领导地位。
伊斯卡ISCAR刀具
伊斯卡向市场推出大量的新产品,每一新品均指向3P:高性能,高生产率,高收益率。
这些新品的一些*要特点:
新牌号及新涂层,使得切削刀具能实现更快速的加工,保持较低的切削温度,具有抗积屑瘤性,加工更持久。
新刀具形状能有效降低切削力,减少机床功耗,提高切屑控制,为每一刀片提供更多切削刃。
更多通用的多功能刀具,以支持在数控车铣加工中心上实现“全工序加工”。
非旋转刀具具有更强固的自夹式设计,使得其能承受重载切削,断续切削。
切断&切槽 车削&螺纹加工 微小规格切削刀具
钻头 铣削 刀柄
Microtools部门 牌号 刀片磨损原因及解决方案
For tools, see pages: A/S-PCLNR/L (87) • C#-PCLNR/L-X (21) • DCBNR/L (23) • DCLNR/L (22) • MCLNR/L (18) • PCBNR/L (19) • PCLNR/L (17) • PCLNR/L-X (19) •
A/S-PCLNR/L-X/G (88)
CNMG 090404-F3S
CNMG 090408-F3S
CNMG 120404-F3S
CNMG 120408-F3S
CNMG-F3S
For tools, see pages: A/S-PCLNR/L (87) • A/S-PCLNR/L-X/G (88) • AVC-PCLNR/L (83) • C#-MULNR/L-MW (13) • C#-PCLNR/L-12-JHP (18) • C#-PCLNR/L-X (21) •
C#-PCLNR/L-X-JHP (21) • DCBNR/L (23) • DCLNR/L (22) • DCLNR/L-JHP-MC (22) • HSK A63WH-MULNR-J12MWX2 (14) • HSK A63WH-MULNR/L-MW (13) • HSK
A63WH-MUMNN-MW (14) • MULNR/L-12MW (12) • PCBNR/L (19) • PCLNR/L (17) • PCLNR/L-12-JHP (18) • PCLNR/L-CA (107) • PCLNR/L-X (19) • PCLNR/L-X-JHP
(20) • PCLNR/L-X-JHP-MC (20) • S-DCLNR/L (85) • S-MULNR-MW (91)
CNMG-VL
Inserts with a Chipformer
for High Temperature Alloys
and Stainless Steel Valves
CNMG 120404-VL
CNMG 120408-VL
DCLNR/L (22) • HSK A63WH-MULNR-J12MWX2 (14) • HSK A63WH-MULNR/L-MW (13) • HSK A63WH-MUMNN-MW (14) • MULNR/L-12MW (12) • PCBNR/L (19) •
PCLNR/L (17) • PCLNR/L-12-JHP (18) • PCLNR/L-CA (107) • PCLNR/L-X (19) • PCLNR/L-X-JHP (20) • PCLNR/L-X-JHP-MC (20) • S-DCLNR/L (85) • S-MULNR-MW (91)
• A/S-PCLNR/L-X/G (88) • DCLNR/L-JHP-MC (22)
128
ISCAR CNMG/CNGG-SF
Inserts for Super-Finishing;
Controls Chip Flow at Very Low
Feeds and Depths of Cut
CNMG 120402-SF
CNMG 120404-SF
CNGG 120401-SF
CNGG 120402-SF
CNGG 120404-SF
0.20-1.50
0.03-0.25
0.03-0.15
0.03-0.20
CNMG 120404-NF
CNMG 120408-NF
CNMG-NF
0.00-0.00
• For user guide, see pages 109-114, 215-238
CNMG-WF
CNMG 120408-WF
129 95º
Wiper Inserts for High Feed
Turning and High Surface Finish
CNMG-WG/NRW
CNMG 120408-WG
CNMG 120412-WG
CNMG 120416-NRW
Inserts for Short Chipping
Materials such as Cast Iron
CNMA 120404
CNMA 120408
CNMA 120408F (1)
CNMA 120412
CNMA 120416
CNMA 160612
CNMA 160616
CNMA 190612
CNMA 190616
CNMA
2.50-10.00
0.03-0.34
0.05-0.43
0.05-0.50
0.08-0.60
0.10-0.80
(1) Minimum cutting width
(21) • DCBNR/L (23) • DCLNR/L (22) • DCLNR/L-JHP-MC (22) • HSK A63WH-MULNR-J12MWX2 (14) • HSK A63WH-MULNR/L-MW (13) • HSK A63WH-MUMNN-MW
(14) • MCLNR/L (18) • MULNR/L-12MW (12) • PCBNR/L (19) • PCLNR/L (17) • PCLNR/L-12-JHP (18) • PCLNR/L-CA (107) • PCLNR/L-X (19) • PCLNR/L-X-JHP (20) •
PCLNR/L-X-JHP-MC (20) • S-DCLNR/L (85) • S-MULNR-MW (91)
130
Inserts for Machining Very
Ductile Materials at Medium
(mm/
rev)
2.00-8.00
0.40-2.00
CNMG/CNGG-PP
CNMG 120404-PP
CNMG 120408-PP
CNMG 120412-PP
CNMG 190612-PP
CNGG 120401-PP
CNGG 120402-PP
CNGG 120404-PP
CNGG 120408-PP
CNGG 120412-PP
CNGG 190612-PP
• S-DCLNR/L (85) • S-MULNR-MW (91) • DCLNR/L-JHP-MC (22)
CNMG/CNGG-TF
Inserts for Machining a
Wide Range of Materials at
Medium Cutting Conditions
12.96
CNMG 090304-TF
CNMG 090308-TF
CNMG 120404-TF
CNMG 120408-TF
CNMG 120412-TF
CNMG 160608-TF
CNMG 160612-TF
CNMG 190612-TF
CNGG 120408-TF
CNGG 190612-TF
1.00-6.00
1.50-6.00
1.50-6.50
0.15-0.45
S-MULNR-MW (91) • AVC-PCLNR/L (83) • A/S-PCLNR/L-X/G (88) • DCLNR/L-JHP-MC (22)
131 95º
Inserts for General Applications
CNMG-GN
CNMG 120404-GN
CNMG 120408-GN
CNMG 120412-GN
CNMG 160612-GN
CNMG 160616-GN
CNMG 190608-GN
CNMG 190612-GN
2.00-7.00
1.50-8.00
2.00-7.98
0.22-0.60
0.22-0.75
0.20-0.70
Inserts with a Special Chipformer
CNMG 120408-NR
CNMG 120412-NR
CNMG 120416-NR
CNMG 160608-NR
CNMG 160612-NR
CNMG 160616-NR
CNMG 190608-NR
CNMG 190612-NR
CNMG 190616-NR
CNMG 190624-NR
CNMG 250924-NR
CNMG-NR
4.00-10.00
6.00-12.00
0.30-0.72
132
CNMG-MR
Inserts for Rough Turning on
Stainless Steel and Soft Materials
19.03
CNMG 160612-MR
CNMG 190612-MR
80 °
For tools, see pages: C#-PCLNR/L-X (21) • DCBNR/L (23) • DCLNR/L (22) • MCLNR/L (18) • PCBNR/L (19) • PCLNR/L (17) • PCLNR/L-X (19) • A/S-PCLNR/L-X/G (88)
Inserts with High Helical
Cutting Edge for High
Metal Removal Rates
6.40
Wiper Zone
CNMX 090604-M3PW
CNMX 090608-M3PW
CNMX 120708-M4PW
CNMX 120712-M4PW
CNMX 120716-M4PW
CNMX 160712-M4PW
CNMX 160716-M4PW
CNMX-M3/4PW
• PCLNR/L .X and A -PCLNR/L-X are most recommended as they were designed especially for this insert • For user guide and cutting speed recommendations, see pages
109-114, 215-238
For tools, see pages: A/S-PCLNR/L-X/G (88) • C#-PCLNR/L-X (21) • C#-PCLNR/L-X-JHP (21) • DCLNR/L (22) • PCLNR/L-X (19) • PCLNR/L-X-JHP (20) •
PCLNR/L-X-JHP-MC (20)
Inserts with High Helical Cutting
Edge for High Metal Removal
Rates of Stainless Steel
CNMX 090604-M3MW
CNMX 090608-M3MW
CNMX 120704-M4MW
CNMX 120708-M4MW
CNMX 120712-M4MW
CNMX-M3/4MW
133 Very Positive Radial Insert
with Helical Cutting Edge
and Positive Rake for Heavy
Machining Applications
CNMM 120408-M4PW
CNMM-M4PW
0.24-0.59
• DCLNR/L-JHP-MC (22)
Single-Sided 80° Rhombic Inserts
for Rough Turning Applications
CNMM 190616-NR
CNMM-NR
For tools, see pages: DCBNR/L (23) • DCLNR/L (22) • MCLNR/L (18) • PCBNR/L (19) • PCLNR/L (17)
DNGP-F2P
on Alloyed Steel
DNGP 070302R/L-F2P
DNGP 070304R/L-F2P
DNGP 070308R/L-F2P
7.70
For tools, see pages: A/E-SDXNR/L-07 (92) • A/E-SDZNR/L-07 (93) • PDJNR/L-S (24)
134
f 60°
DNMG-F3P
and Finishing on Steel
DNMG 110404-F3P
DNMG 110408-F3P
DNMG 110412-F3P
DNMG 150404-F3P
DNMG 150408-F3P
DNMG 150412-F3P
DNMG 150604-F3P
DNMG 150608-F3P
DNMG 150612-F3P
11.63
15.50
1.40-4.00
For tools, see pages: A/S-PDUNR/L (92) • C#-DDJNR/L (27) • C#-PDJNR/L-JHP (26) • DDJNR/L (26) • HSK A63WH-DDJNR/L (27) • HSK A63WH-DDNNN (28) •
PDJNR/L (25) • PDJNR/L-JHP (25) • S-DDUNR/L (92) • AVC-DDUNR/L (84) • DDJNR/L-JHP-MC (27)
DNMG-M3P
DNMG 110408-M3P
DNMG 110412-M3P
DNMG 150408-M3P
DNMG 150412-M3P
DNMG 150608-M3P
DNMG 150612-M3P
0.50-6.00
0.80-6.00
For tools, see pages: A/S-PDUNR/L (92) • AVC-DDUNR/L (84) • C#-DDJNR/L (27) • C#-PDJNR/L-JHP (26) • DDJNR/L (26) • HSK A63WH-DDJNR/L (27) • HSK
A63WH-DDNNN (28) • PDJNR/L (25) • PDJNR/L-JHP (25) • S-DDUNR/L (92) • DDJNR/L-JHP-MC (27)
DNGP-F2M
Inserts for Semi-Finishing and
Finishing on Stainless Steel
DNGP 070302R/L-F2M
DNGP 070304R/L-F2M
DNGP 070308R/L-F2M
135 60°
DNMG-F3M
Inserts for Finish Turning of
DNMG 110404-F3M
DNMG 110408-F3M
DNMG 110412-F3M
DNMG 150404-F3M
DNMG 150408-F3M
DNMG 150412-F3M
DNMG 150604-F3M
DNMG 150608-F3M
DNMG 150612-F3M
0.15-2.00
0.05-0.32
0.10-0.42
0.15-0.52
DNMG-M3M
DNMG 110404-M3M
DNMG 110408-M3M
DNMG 110412-M3M
DNMG 150408-M3M
DNMG 150412-M3M
DNMG 150608-M3M
DNMG 150612-M3M
DNMG-F3S
For tools, see pages: A/S-PDUNR/L (92) • AVC-DDUNR/L (84) • C#-DDJNR/L (27) • C#-PDJNR/L-JHP (26) • DDJNR/L (26) • DDJNR/L-JHP-MC (27) • HSK
A63WH-DDJNR/L (27) • HSK A63WH-DDNNN (28) • PDJNR/L (25) • PDJNR/L-JHP (25) • S-DDUNR/L (92)
136
DNMG 110404-F3S
DNMG 110408-F3S
DNMG 150404-F3S
DNMG 150408-F3S
DNMG 150604-F3S
DNMG 150608-F3S
93º-95º 60°
DNMG-CERMET
DNMG 110404-FFG
DNMG 110402-FFC
DNMG 110404-FFC
DNMG 110408-FFC
DNMG 150404-FFC
DNMG 150604-FB
DNMG 150604-FFC
0.70-2.00
0.07-0.22
0.07-0.23
PDJNR/L (25) • PDJNR/L-JHP (25) • S-DDUNR/L (92) • DDJNR/L-JHP-MC (27)
FB
0.4 Feed (mm/rev)
DNMG/DNGG-SF
DNMG 110404-SF
DNGG 150401-SF
DNGG 150402-SF
0.25-2.00
PDJNR/L (25) • PDJNR/L-JHP (25) • AVC-DDUNR/L (84) • DDJNR/L-JHP-MC (27)
137 60°
DNMG-NF
DNMG 110402-NF
DNMG 110404-NF
DNMG 110408-NF
DNMG 150404-NF
DNMG 150408-NF
DNMG 150604-NF
1.00-3.51
0.07-0.18
DNMG-WG
Wiper Inserts for High Surface
Finish at High Feed Turning
DNMG 150408-WG
DNMG 150608-WG
DNMG 150612-WG
0.20-0.80
For tools, see pages: A/S-PDUNR/L (92) • C#-DDJNR/L (27) • C#-PDJNR/L-JHP (26) • DDJNR/L (26) • HSK A63WH-DDNNN (28) • PDJNR/L (25) • PDJNR/L-JHP (25) •
AVC-DDUNR/L (84) • DDJNR/L-JHP-MC (27)
DNMG-PF
Inserts for Finishing Applications
on Alloyed and Stainless Steel
DNMG 110408-PF
DNMG 150612-PF
138
93 º DNMG/DNGG-PP
55° Double-Sided Rhombic
0.12-0.30
DNMG 110404-PP
DNMG 110408-PP
DNMG 150408-PP
DNMG 150604-PP
DNMG 150608-PP
DNGG 150604-PP
DNGG 150608-PP
DNMG-VL
DNMG 110404-VL
DNMG 110408-VL
DNMG 150404-VL
DNMG 150408-VL
DNMG/DNGG-TF
DNMG 110404-TF
DNMG 110412-TF
DNMG 150404-TF
DNMG 150408-TF
DNMG 150412-TF
DNMG 150604-TF
DNMG 150608-TF
DNMG 150612-TF
DNGG 150404-TF
DNGG 150408-TF
0.15-0.30
0.11-0.35
139 60°
DNMG-GN
DNMG 110408-GN
DNMG 110412-GN
DNMG 150408-GN
DNMG 150412-GN
DNMG 150608-GN
DNMG 150612-GN
0.18-0.38
0.18-0.18
0.18-0.43
DNMG-NR
DNMG 150612-NR
DNMG 150616-NR
0.23-0.50
DNMA
0.05-0.40
140
DNMA 150412
DNMA 150608
DNMA 150612
93º-95º 27°
DNMM-R3P
Single-Sided 55° Rhombic
DNMM 150608-R3P
DNMM 150612-R3P
DNMM 150616-R3P
0.70-6.00
0.32-0.90
DNMM-NM
Single-Sided 55° Rhombic Inserts
DNMM 150612-NM
0.25-0.40
DNMX-M3P
DNMX 150608-M3P
DNMX 150612-M3P
DNMX 150616-M3P
141 KNMX
55° Parallelogram Profiling Inserts
55˚
7˚
KNMX 160405-R/LP
KNMX 160410-R/LP
19.72
1.00
For tools, see pages: CKJNR/L (28) • CKNNR/L (29) • SKJNR/L (28)
KNUX
12°
IC9015
IC9025
KNUX 160405 R/L11
KNUX 160405 R/L12
KNUX 160410 R/L11
KNUX 160410 R/L12
For tools, see pages: CKJNR/L (28) • CKNNR/L (29)
Double-Sided 35° Rhombic
Finishing Applications on Steel
12.40
16.60
3.89
For tools, see pages: AVC-DVUNR/L (84) • MVJNR/L (30) • MVVNN (31)
142
VNMG 12T302-F3P
VNMG 12T304-F3P
VNMG 160404-F3P
VNMG 160408-F3P
VNMG-F3P
0.08-0.20
0.07-0.24
0.08-0.24 Double-Sided 35° Rhombic
Inserts for Finishing on
Stainless Steel
VNMG-F3M
VNMG 12T302-F3M
VNMG 12T304-F3M
VNMG 12T308-F3M
VNMG 160404-F3M
VNMG 160408-F3M
For tools, see pages: A-SVUNR/L (93) • AVC-DVUNR/L (84) • C#-SVJNR/L-F (29) • HSK A63WH-SVVNN-F (31) • MVJNR/L (30) • MVVNN (31) • SVANR/L-FS (29) •
SVJNR/L-F (29) • SVVNN-F (30)
VNMG-M3M
VNMG 12T304-M3M
VNMG 12T308-M3M
VNMG 160404-M3M
VNMG 160408-M3M
0.70-3.00
0.07-0.20
VNMG 12T302-F3S
VNMG 12T304-F3S
VNMG 12T308-F3S
VNMG-F3S
For tools, see pages: A-SVUNR/L (93) • C#-SVJNR/L-F (29) • HSK A63WH-SVVNN-F (31) • SVANR/L-FS (29) • SVJNR/L-F (29) • SVVNN-F (30)
143 VNMG-SF
Inserts for Super-Finishing
VNMG 12T302-SF
VNMG 12T304-SF
VNMG-FNF-CERMET
Cermet Inserts for Semi-Finishing
VNMG 12T302-FNF
VNMG 12T304-FNF
VNMG 12T308-FNF
VNMG/VNGG-NF
VNMG 12T302-NF
VNMG 12T304-NF
VNMG 12T308-NF
VNMG 160404-NF
VNMG 160408-NF
VNGG 12T302-NF
VNGG 12T304-NF
0.70-2.50
0.08-0.24
0.05-0.17
144
ISCAR VNMM-PP
Single-Sided 35° Rhombic
VNMM 12T304-PP
VNMM 12T308-PP
0.80-2.50
0.12-0.20
VNMG 160408-TF
VNMG 160412-TF
VNMG 220408-TF
VNMG-TF
0.12-0.38
0.14-0.36
LE
5.7
Double-Sided 25° Corner
Inserts for Internal and
External Deep and Narrow
Profiling and Undercutting
YNMG 160404-F3P
YNMG 160408-F3P
25°
YNMG-F3P
0.90-4.00
0.03-0.12
• Use IYSN 322 seat for these inserts • For user guide, see pages 109-114, 215-238
For tools, see pages: MVJNR/L (30) • MVVNN (31)
145 TNMG-F3P
Double-Sided Triangular
16.50
TNMG 160404-F3P
TNMG 160408-F3P
TNMG 160412-F3P
TNMG 220408-F3P
TNMG 220412-F3P
1.30-4.00
For tools, see pages: A-PTFNR/L-X/G (94) • C#-DTGNR/L (34) • DTGNR/L (34) • MTENN-W (35) • MTJNR/L-W (35) • PTFNR-CA (108) • PTFNR/L (34) • PTGNR/L (32) •
PTGNR/L-X (32) • PTGNR/L-X-JHP (33) • PTGNR/L-X-JHP-MC (33) • S-MTLNR/L-W (95) • S-PTFNR/L (94)
TNMG 160404-M3P
TNMG 160408-M3P
TNMG 160412-M3P
TNMG 220408-M3P
TNMG 220412-M3P
TNMG 220416-M3P
TNMG-M3P
0.40-5.00
0.50-6.60
0.80-6.60
1.00-6.60
TNMX-M3/4PW
Cutting Edge for High Metal
Removal Rates on Steel
60˚ 113˚
7.40
3.00-6.00
3.50-6.50
For tools, see pages: A-PTFNR/L-X/G (94) • PTGNR/L-X (32) • PTGNR/L-X-JHP (33) • PTGNR/L-X-JHP-MC (33)
146
TNMX 160604-M3PW
TNMX 160608-M3PW
TNMX 220712-M4PW
TNMX 220716-M4PW
0.35-0.60
0.40-0.70 TNMG-F3M
Double-Sided Triangular Inserts
for Finish Turning on Stainless
TNMG 160404-F3M
TNMG 160408-F3M
TNMG 160412-F3M
TNMG 220404-F3M
TNMG 220408-F3M
TNMG 220412-F3M
IC5500
TNMG 160404-M3M
TNMG 160408-M3M
TNMG 160412-M3M
TNMG 220408-M3M
TNMG 220412-M3M
TNMG 220416-M3M
TNMG-M3M
with High Helical Cutting
Rates on Stainless Steel
TNMX 160604-M3MW
TNMX 160608-M3MW
TNMX 220704-M4MW
TNMX 220708-M4MW
TNMX 220712-M4MW
TNMX-M3/4MW
147 TNMG-F3S
Double-Sided 60° Triangular
TNMG 160404-F3S
TNMG 160408-F3S
TNMG 220404-F3S
TNMG 220408-F3S
Double-Sided Triangular Cermet
on Steel and Cast Iron
TNMG 160404-FFG
TNMG 160408-FFG
TNMG-FFG-CERMET
0.90-2.50
For tools, see pages: A-PTFNR/L-X/G (94) • DTGNR/L (34) • MTENN-W (35) • MTJNR/L-W (35) • PTFNR-CA (108) • PTFNR/L (34) • PTGNR/L (32) • PTGNR/L-X (32) •
PTGNR/L-X-JHP (33) • PTGNR/L-X-JHP-MC (33) • S-MTLNR/L-W (95) • S-PTFNR/L (94)
Triangular Double-Sided
TNMG 160404-SF
TNMG 160408-SF
TNMG-SF
0.04-0.25
0.06-0.30
148
ISCAR TNMG-PF
Alloyed and Stainless Steel
TNMG 160408-PF
TNMG-TF
TNMG 160304-TF
TNMG 160308-TF
TNMG 160404-TF
TNMG 160408-TF
TNMG 160412-TF
TNMG 220404-TF
TNMG 220408-TF
TNMG 220412-TF
0.14-0.35
TNMG 160404-VL
TNMG 160408-VL
TNMG-VL
149 TNMG/TNGG-PP
Double-Sided Triangular Inserts for
TNGG 160402-PP
TNMG 160404-PP
TNMG 160408-PP
TNMG 220404-PP
TNMG 220408-PP
0.50-1.50
0.13-0.30
0.14-0.32
TNMG-NF
TNMG 110304-NF
TNMG 160408-NF
TNMG 160404-GN
TNMG 160408-GN
TNMG 160412-GN
TNMG 220408-GN
TNMG 220412-GN
TNMG 220416-GN
TNMG 270612-GN
TNMG-GN
0.18-0.39
150
ISCAR 22°MAX
TNMM-NR
Single-Sided Triangular Inserts
TNMM 220416-NR
For tools, see pages: C#-DTGNR/L (34) • DTGNR/L (34) • MTENN-W (35) • MTJNR/L-W (35) • PTFNR/L (34) • PTGNR/L (32) • PTGNR/L-X (32) • S-MTLNR/L-W (95) •
S-PTFNR/L (94)
TNMA
Inserts with No Chipformer
Such as Cast Iron
TNMA 160404
TNMA 160408
TNMA 160412
TNMA 160416
TNMA 220408
TNMA 220412
TNMA 220416
0.05-0.21
0.10-0.29
0.05-0.33
0.10-0.33
0.10-0.37
RNMG
Double-Sided Round
Negative Insert for Medium
and Rough Profiling
D1
RNMG 120400
5.15
151 SNMG-F3P
Double-Sided Square
IC=L
SNMG 090404-F3P
SNMG 090408-F3P
SNMG 120408-F3P
SNMG 120412-F3P
75 º 45 º
For tools, see pages: A-PSKNR/L-09 (101) • C#-MULNR/L-MW (13) • DSBNR/L (37) • DSDNN (36) • DSKNR/L (36) • DSSNR/L (36) • HSK A63WH-MULNR-J12MWX2
(14) • HSK A63WH-MULNR/L-MW (13) • HSK A63WH-MUMNN-MW (14) • MULNR/L-12MW (12) • PSBNR/L (41) • PSDNN (38) • PSDNN-JHP (38) • PSKNR/L (38) •
PSKNR/L-CA (107) • PSSNR-CA (108) • PSSNR/L (39) • PSSNR/L-JHP (39)
SNMG-M3P
SNMG 090404-M3P
SNMG 090408-M3P
SNMG 120408-M3P
SNMG 120412-M3P
SNMG 150612-M3P
SNMG 150616-M3P
0.80-7.50
1.20-7.50
0.15-0.55
SOMG-R3P-IQ
Side Flank Square Inserts for
Heavy Turning on Steel
For tools, see pages: C#-PSROR/L-IQ (40) • PSBOR/L-IQ (40) • PSDON-IQ (37)
152
SOMG 150612-R3P-IQ
SOMG 150616-R3P-IQ
SOMG 190612-R3P-IQ
SOMG 190616-R3P-IQ
SOMG 190624-R3P-IQ
SOMG 250924-R3P-IQ
0.35-0.85
45 º SNMG-F3M
SNMG 090404-F3M
SNMG 090408-F3M
SNMG 120404-F3M
SNMG 120408-F3M
SNMG 120412-F3M
SNMG-M3M
SNMG 090404-M3M
SNMG 090408-M3M
SNMG 120408-M3M
SNMG 120412-M3M
SNMG 120416-M3M
SNMG 150612-M3M
SNMG 150616-M3M
SNMG 190612-M3M
SNMG 190616-M3M
0.50-8.00
0.10-9.50
0.10-0.65
SNMG-R3M
Double-Sided 90° Square
Inserts for Rough Machining on
SNMG 190612 R3M
SNMG 190616-R3M
For tools, see pages: DSBNR/L (37) • DSDNN (36) • DSSNR/L (36) • PSBNR/L (41) • PSDNN (38) • PSSNR/L (39)
153 SNMG-F3S
0.05-0.35
SNMG 090404-F3S
SNMG 090408-F3S
SNMG 120404-F3S
SNMG 120408-F3S
SNMG-VL
Double-Sided Square Insert with
a Chipformer for High
SNMG 120404-VL
SNMG 120408-VL
For tools, see pages: C#-MULNR/L-MW (13) • DSBNR/L (37) • DSDNN (36) • DSKNR/L (36) • DSSNR/L (36) • HSK A63WH-MULNR-J12MWX2 (14) • HSK
A63WH-MULNR/L-MW (13) • HSK A63WH-MUMNN-MW (14) • MULNR/L-12MW (12) • PSBNR/L (41) • PSDNN (38) • PSDNN-JHP (38) • PSKNR/L (38) • PSKNR/L-CA
(107) • PSSNR-CA (108) • PSSNR/L (39) • PSSNR/L-JHP (39)
SNMG-PP
Double-Sided Square Inserts for
SNMG 120408-PP
154
ISCAR SNMG-TF
3.17
SNMG 090304-TF
SNMG 120404-TF
SNMG 120408-TF
SNMG 120412-TF
0.13-0.35
SNMG-EM-M/R
for Medium Machining on
High Temperature Alloys
0.20-0.40
SNMG 120408-EM-M
SNMG 120408-EM-R
• Requires the use of RST 443R/L SET - seat when used on DSSNR/L tools and TSN 423-PIN SET seat when used on PSSNR/L-JHP and PSDNN-JHP tools • For user
guide and cutting speed recommendations, see pages 109-114, 215-238
For tools, see pages: DSDNN (36) • DSSNR/L (36) • PSDNN (38) • PSDNN-JHP (38) • PSSNR/L (39) • PSSNR/L-JHP (39)
The inserts have 4 cutting edges (2 on each side) with truncated radii
– a configuration which facilitates heat transfer from the cutting area.
The two edges without chipbreakers (flat) are not used.
Toolholders
These inserts require the use of RST 443R/L SET - special seat when
used on DSSNR/L tools and TSN 423-PIN SET seat when used on
PSSNR/L-JHP and PSDNN–JHP tools. The standard seats should be
replaced with the special ones which have a pin whose purpose is to
prevent using the non-working flat cutting corners.
Advantages
Increased cutting speed (due to better heat transfer)
Reduced notch wear (due to 45º approach angle)
Increased feed (the 45° approach angle produces a thin chip)
Increased productivity of up to 50%
Ability to machine in two directions with the same tool,
longitudinal and face turning
Chipbreaking Range
ap(mm)
Correct insert
position
Wrong
positioning
Orientation pin
0.35
0.45 f (mm/rev)
Material: Inconel 718 Vc: 50 m/min With coolant Material: Inconel 718 Vc: 50 m/min With coolant
155 SNMG-GN
SNMG 120408-GN
SNMG 120412-GN
SNMG 150612-GN
SNMG 190612-GN
SNMG 190616-GN
0.20-0.45
SNMA
Without a Chipformer for
Short Chipping Materials
SNMA 120408
SNMA 120412
SNMA 120416
SNMA 190612
SNMA 190616
SNMG-NR
SNMG 120412-NR
SNMG 120416-NR
SNMG 150608-NR
SNMG 150612-NR
SNMG 150616-NR
SNMG 190612-NR
SNMG 190616-NR
SNMG 250724-NR
SNMG 250924-NR
2.50-8.00
3.50-10.00
5.00-15.00
0.40-0.70
156
ISCAR SNMM-R3P
Single-Sided Square
SNMM 120408-R3P
SNMM 120412-R3P
SNMM 120416-R3P
SNMM 150612-R3P
SNMM 150616-R3P
SNMM 190612-R3P
SNMM 190616-R3P
SNMM 190624-R3P
SNMM 250924-R3P
2.00-7.50
2.50-9.50
SNMM-NM
Single-Sided Square Inserts
SNMM 190616-NM
SNMM-NR
SNMM 190616-NR
SNMM 250724-NR
0.35-1.00
157 LOMX-H6P
Tangential Inserts with 4 Cutting
Edges for High Metal Removal of
up to 35 mm D.O.C. on Steel
INSL=L
W1
40.30
22.60
LOMX 402224-H6P
7.00-35.00
1.00-2.00
For tools, see pages: PLBOR/L (41)
LNMX-HT
Edges and a Positive Rake Angle
13.40
4.75
LNMX 110408R/L-HT
LNMX 110412R/L-HT
LNMX 150608R/L-HT
LNMX 150612R/L-HT
LNMX 150616L-HT
LNMX 221016R/L-HT
LNMX 221024R/L-HT
1.50-7.00
0.30-1.10
For tools, see pages: C#-SLANR/L-TANG (44) • PLANR/L-TANG (42) • S-PLANR-TANG (86) • S-SLANR/L-TANG (85) • SLANR/L-15-TANG-JHP (44) • SLANR/L-TANG
(43) • SLBNR/L-TANG (45) • SLFNR/L-TANG (45)
158
ISCAR 93°
Tangential Inserts with a
Positive Rake Angle for
High Metal Removal on Soft
and Ductile Materials
0.15-0.70
LNMX 110408R/L-HM
LNMX 110412R/L-HM
LNMX 150608R/L-HM
LNMX 150612R/L-HM
LNMX-HM
(43) • SLFNR/L-TANG (45)
LNMX-WG
with a Wiper Corner Design
for High Production Cutting
and Excellent Surface Finish
LNMX 150612R/L-WG
LNMX-HF
High Feed (up to 2.4 mm/
Rev) Tangentially Clamped
Rough Turning Inserts
LNMX 1608R/L-HF
0.50-2.40
1.50-2.40
159 91°
LNMX 19/30
for Railroad Wheel Re-Turning
L=INSL
LNMX 191940-WF
LNMX 191940-WM
LNMX 301940-WM
LNMX 301940-WR
0.30-5.00
0.50-12.00
0.25-1.30
0.40-1.50
0.70-1.90
0.80-1.90
QNMG-NF
Double-Sided Inserts
with Four 80° Corners for
13.33
QNMG 120408-NF
For tools, see pages: PQFNR/L (47) • PQLNR/L (46) • PQSNR/L (47) • S-PQFNR/L (86) • S-PQLNR/L (86)
General Applications
10.32
13.41
13.25
160
QNMG 090404-TF
QNMG 090408-TF
QNMG 120404-TF
QNMG 120408-TF
QNMG 120412-TF
QNMG-TF
0.15-0.40 Double-Sided Inserts
QNMG-PP
QNMG 090408-PP
QNMG 120408-PP
QNMG 090408-GN
QNMG 120408-GN
QNMG 120412-GN
QNMG-GN
CXMG-F3P
80° Double-Sided and
Double-Positive Inserts
with a Positive Rake for
Finishing on Alloyed Steel
10.40
13.83
13.75
4.65
5.80
4.66
CXMG 090404-F3P
CXMG 12T504-F3P
CXMG 12T508-F3P
CXMG 090402-F3P
For tools, see pages: A-PCLXR/L (82) • AVC-PCLXR/L (83) • PCLXR/L (48) • PCLXR/L-JHP (48)
161 95º
Double-Positive Inserts with
a Positive Rake for Medium
Machining on Alloyed Steel
13.68
CXMG 090408-M3P
CXMG 12T508-M3P
CXMG 12T512-M3P
CXMG-M3P
CXMG-F3M
Double-Positive Inserts with a
Positive Rake for Finishing on
Stainless Steel and H.T.A.
CXMG 090404-F3M
CXMG 12T504-F3M
CXMG 12T508-F3M
0.80-2.00
CXMG-M3M
162
80° Double-Sided and DoublePositive Inserts with a Positive
Rake for Medium Machining
on Stainless Steel and H.T.A.
CXMG 090408-M3M
CXMG 12T508-M3M
CXMG 12T512-M3M
0.15-0.50 80° Rhombic Inserts with a
Positive Flank for Very Low Finish
Turning Conditions on Steel
3.60
3.57
4.37
1.39
1.79
1.90
CCGT 03X101-F1P
CCGT 03X102-F1P
CCGT 03X104-F1P
CCGT 04T101-F1P
CCGT 04T102-F1P
CCGT 04T104-F1P
0.01-0.05
0.02-0.10
CCGT-F1P
For tools, see pages: A/E/S-SCLCR/L (97)
ISO Standard Designation
CCGT
1. Application
Finish
3. Workpiece Material Group
2. Chip Load
Steel
For super finish
Cast Iron
For low range
Nonferrous & Aluminum
For general range
CCMT-F3P
CCMT 060202-F3P
CCMT 060204-F3P
CCMT 09T302-F3P
CCMT 09T304-F3P
CCMT 09T308-F3P
CCMT 120404-F3P
2.38
2.80
5.50
80° Rhombic Positive Flank
Inserts, for Semi-Finishing and
Finishing Turning of Steel
0.06-1.70
0.10-1.70
0.08-2.00
0.11-2.00
0.05-0.18
0.04-0.16
0.06-0.25
0.08-0.32
For tools, see pages: A/E/S-SCLCR/L (97) • C#-SCLCR/L-JHP (50) • E-SCLCR/L-HEAD (96) • PCLCR/L-JHP-MC (52) • PCLCR/L-S (51) • PCLCR/L-S-JHP (51) •
SCACR/L-S (50) • SCLCR-PAD (50) • SCLCR/L (49)
163 95º
CCMT 060204-M3P
CCMT 060208-M3P
CCMT 09T304-M3P
CCMT 09T308-M3P
CCMT 09T312-M3P
CCMT 120404-M3P
CCMT 120412-M3P
CCMT-M3P
1.30-5.00
0.10-0.20
For tools, see pages: A/E/S-SCLCR/L (97) • C#-SCLCR/L-JHP (50) • E-SCLCR/L-HEAD (96) • PCLCR/L-S (51) • PCLCR/L-S-JHP (51) • SCACR/L-S (50) • SCLCR-PAD (50)
• SCLCR/L (49) • AVC-SCLCR/L (82) • PCLCR/L-JHP-MC (52)
CCMT-M3M
CCMT 060204-M3M
CCMT 060208-M3M
CCMT 09T304-M3M
CCMT 09T308-M3M
CCMT 120404-M3M
CCMT 120408-M3M
CCMT 120412-M3M
Inserts, for Machining Stainless
0.12-0.34
For tools, see pages: A/E/S-SCLCR/L (97) • C#-SCLCR/L-JHP (50) • E-SCLCR/L-HEAD (96) • PCLCR/L-S (51) • PCLCR/L-S-JHP (51) • SCACR/L-S (50) • SCLCR-PAD
(50) • SCLCR/L (49) • AVC-SCLCR/L (82) • PCLCR/L-JHP-MC (52)
164
ISCAR CCMT-CERMET
CCMT 09T302-FFA
CCMT 09T302-FWT
CCMT 09T304-FPC
CCMT 09T308-FPC
0.03-2.00
0.50-2.80
0.04-0.15
0.00-0.50
0.03-0.22
For tools, see pages: A/E/S-SCLCR/L (97) • C#-SCLCR/L-JHP (50) • E-SCLCR/L-HEAD (96) • PCLCR/L-JHP-MC (52) • PCLCR/L-S (51) • PCLCR/L-S-JHP (51)
• SCACR/L-S (50) • SCLCR-PAD (50) • SCLCR/L (49)
FPC
0.5 Feed (mm/rev)
6.45
CCGT 060201-SM
CCGT 060202-SM
CCMT 060202-SM
CCMT 060204-SM
CCMT 060208-SM
CCMT 09T302-SM
CCMT 09T304-SM
CCMT 09T308-SM
CCMT 120404-SM
CCMT 120408-SM
Single-Sided Turning Inserts for
Semi-Finishing and Finishing on
Soft Materials and Exotic Alloys
CCMT/CCGT-SM
0.70-3.50
165 80° Rhombic Inserts with
a Positive Flank for SemiFinishing and Finishing on Soft
Materials and Exotic Alloys
CCMT 060202-PF
CCMT 060204-PF
CCMT 09T302-PF
CCMT 09T304-PF
CCMT-PF
0.04-0.30
80° Rhombic Inserts with a
7° Positive Flank for SemiFinishing and Finish Turning
CCMT 060204-14
CCMT 09T304-14
CCMT 09T308-14
CCMT 120408-14
CCMT-14
0.14-0.25
For tools, see pages: A/E/S-SCLCR/L (97) • AVC-SCLCR/L (82) • C#-SCLCR/L-JHP (50) • E-SCLCR/L-HEAD (96) • PCLCR/L-JHP-MC (52) • PCLCR/L-S (51)
• PCLCR/L-S-JHP (51) • SCACR/L-S (50) • SCLCR-PAD (50) • SCLCR/L (49)
CCMT/CCGT
CCGT 060202
CCGT 060202L (1)
CCGT 060204
CCGT 060204L (1)
CCMT 060202
CCMT 060204
CCMT 09T302
CCMT 09T304
CCMT 09T308
0.12-0.22
• Use left-hand inserts for left-hand external tools and for right-hand internal tools • For user guide and cutting speed recommendations, see pages 109-114, 215-238
(1) Left-hand insert
166
ISCAR 80° Rhombic Inserts with a 7°
Positive Flank and a Wiper
Near the Corner for
High Feed Finishing
86°
0.05
CCET 0602005-WF
CCET 09T3005-WF
0.05-2.00
0.01-0.20
CCET-WF
CCMT-WG
80° Rhombic Inserts with a 7°
CCMT 060204-WG
CCMT 09T304-WG
CCMT 09T308-WG
CCMT 120408-WG
0.20-0.38
0.20-0.36
EPGT-F1P
75° Rhombic Inserts with a
11˚
EPGT 03X101-F1P
EPGT 03X102-F1P
EPGT 03X104-F1P
3.70
For tools, see pages: A/E-SEXPR/L-03 (98)
167 80° Rhombic Inserts with an
11° Positive Flank for SemiFinishing and Finish Turning on
11°
CPGT 060201-SM
CPGT 060202-SM
CPGT 060204-SM
CPGT 09T301-SM
CPGT 09T302-SM
CPGT 09T304-SM
CPGT-SM
CPMT-PF
80° Rhombic Inserts with
168
CPMT 060204-PF
CPMT 060208-PF
CPMT 09T304-PF
CPMT 09T308-PF
0.10-0.35 IC
Bottom view
DCMT 13T504-F3P-SL
DCMT 13T508-F3P-SL
5.11
55° Rhombic Inserts with a
Positive Flank with a Locating
Bottom Ridge for Semi-Finishing
DCMT-F3P-SL
For tools, see pages: A-SDUCR/L-13-SL (98) • C#-SDJCR/L-13-SL-JHP (53) • C#-SDNCN-13-SL-JHP (57) • SDACR/L-13S-SL-JHP (55) • SDJCR/L-13-SL (53) •
SDNCN-13-SL (57)
Ground surface for high
rigidity and accuracy
Unique deflector for chip
control at low cutting
conditions
Positive rake angle for
smooth cutting
and reducing cutting forces
Wavy surface to prevent
chip hammering
0.10 0.15 0.20 0.25 0.30 0.35
DCMT-F3P
11.60
Positive Flank for Semi-Finishing
and Finish Turning on Steel
DCMT 070202-F3P
DCMT 070204-F3P
DCMT 11T302-F3P
DCMT 11T304-F3P
DCMT 11T308-F3P
0.06-1.50
0.08-1.50
For tools, see pages: A/E/S-SDUCR/L (98) • AVC-SDUCR/L (82) • C#-SDJCR-JHP (54) • C#-SDJCR/L (54) • C#-SDNCN (58) • E-SDUCR/L-HEAD (99) • IM-SDNCN (58)
• PDACR/L-JHP (56) • PDACR/L-JHP-MC (56) • PDACR/L-S (52) • SDACR/L (55) • SDHCR/L (54) • SDJCR-PAD (54) • SDJCR/L (53) • SDNCN (57)
169 107.5°
55° Rhombic Positive Flank
DCMT-M3M
DCMT 070204-M3M
DCMT 070208-M3M
DCMT 11T304-M3M
DCMT 11T308-M3M
DCMT 11T312-M3M
1.20-3.00
• PDACR/L-JHP (56) • PDACR/L-S (52) • SDACR/L (55) • SDHCR/L (54) • SDJCR-PAD (54) • SDJCR/L (53) • SDNCN (57) • PDACR/L-JHP-MC (56)
DCMT 13T512-M3M-SL
Positive Flank and Locating
Bottom Ridge for Machining
DCMT 13T508-M3M-SL Application Range
Reinforced cutting edge
prevents notch wear
170
DCMT-M3M-SL
Positive rake angle for smooth cutting
and reducing cutting forces 50º
Single-Sided 55° Rhombic Cermet
DCGT 11T302-FSA
DCGT 11T304-FSA
DCMT 11T302-FCF
DCMT 11T302-FSM
DCMT 11T304-FPC
DCMT 11T304-FSM
DCMT 11T308-FPC
DCMT 11T312-FMT
0.50-2.70
0.05-0.22
DCMT-CERMET
For tools, see pages: A/E/S-SDUCR/L (98) • AVC-SDUCR/L (82) • C#-SDJCR-JHP (54) • C#-SDJCR/L (54) • C#-SDNCN (58) • IM-SDNCN (58) • PDACR/L-JHP (56) •
PDACR/L-JHP-MC (56) • PDACR/L-S (52) • SDACR/L (55) • SDHCR/L (54) • SDJCR/L (53) • SDNCN (57)
FSM
FMT
FCF
FSA
DCMT-PF-SL
Bottom Ridge for Finish Turning
on Soft Materials & Exotic Alloys
DCMT 13T504-PF-SL
DCMT 13T508-PF-SL
171 DCMT-PF
DCMT 070201-PF
DCMT 070202-PF
DCMT 070204-PF
DCMT 070208-PF
DCMT 11T302-PF
DCMT 11T304-PF
DCMT 11T308-PF
55° Rhombic Inserts with
0.30-2.50
0.02-0.25
DCMT-SM-SL
DCMT 13T504-SM-SL
DCMT 13T508-SM-SL
0.07-0.27
DCMT/DCGT-SM
DCMT 070202-SM
DCMT 070204-SM
DCMT 070208-SM
DCGT 11T302-SM
DCGT 11T304-SM
DCMT 11T302-SM
DCMT 11T304-SM
DCMT 11T308-SM
DCMT 11T312-SM
55° Rhombic Inserts with a 7°
and Finish Turning on Soft
0.04-0.20
0.10-0.28
172
ISCAR DCMT/DCGT
a 7° Positive Clearance for
DCGT 070201R (1)
DCGT 070202
DCGT 070204
DCMT 070202
DCMT 070204
DCGT 11T302
DCGT 11T304
DCMT 11T302
DCMT 11T304
DCMT 11T308
0.25-1.50
0.08-0.22
0.14-0.29
• Right-hand inserts for right-hand external tools and for left-hand internal tools • For user guide and cutting speed recommendations, see pages 109-114, 215-238
(1) Right-hand insert
DCMT-14
DCMT 11T304-14
DCMT 11T308-14
PDACR/L-S (52) • SDACR/L (55) • SDHCR/L (54) • SDJCR/L (53) • SDNCN (57) • PDACR/L-JHP-MC (56)
55° Rhombic Wiper Inserts
for Finishing Operations
at High Feeds
DCET 0702005R/L-WF
DCET 11T3005R/L-WF
DCET-WF
0.05-3.00
For tools, see pages: A/E/S-SDUCR/L (98) • AVC-SDUCR/L (82) • C#-SDJCR-JHP (54) • C#-SDJCR/L (54) • E-SDUCR/L-HEAD (99) • PDACR/L-JHP (56) • PDACR/L-S
(52) • SDACR/L (55) • SDHCR/L (54) • SDJCR-PAD (54) • SDJCR/L (53) • PDACR/L-JHP-MC (56)
173 35° Rhombic Positive Flank
11.10
VCMT-F3P
VCMT 110302-F3P
VCMT 110304-F3P
VCMT 110308-F3P
VCMT 110312-F3P
VCMT 160402-F3P
VCMT 160404-F3P
VCMT 160408-F3P
VCMT 160412-F3P
0.13-1.70
0.07-1.80
0.10-1.80
0.14-1.80
0.03-0.14
0.07-0.28
0.08-0.33
0.07-0.29
0.09-0.34
For tools, see pages: A/S-SVLBCR/L (100) • A/S-SVLFCR/L; A-SVUCR/L (414) • A/S-SVQCR/L (413) • C#-SVJCR/L (59) • C#-SVJCR/L-JHP (59) • C#-SVVCN (61) •
HSK A63WH-SVJCR/L (60) • PVACR/L-JHP (60) • PVACR/L-JHP-MC (61) • PVACR/L-S (58) • S/A-SVJCR/L (100) • SVACR/L (60) • SVJCR-PAD (60) • SVJCR/L (412) •
SVJCR/L-16-JHP (412) • SVPCR/L (62) • SVVCN (413) • SVXCR/L (413) • AVC-SVLCR/L (83)
35° Rhombic Positive Flank
Inserts, for Stainless Steel
2.85
VCMT 110302-F3M
VCMT 110304-F3M
VCMT 110308-F3M
VCMT 160402-F3M
VCMT 160404-F3M
VCMT 160408-F3M
VCMT-F3M
0.06-1.80
0.13-1.80
For tools, see pages: A/S-SVLBCR/L (100) • A/S-SVLFCR/L; A-SVUCR/L (414) • A/S-SVQCR/L (413) • AVC-SVLCR/L (83) • AVC-SVUCR/L (83) • C#-SVJCR/L (59) •
C#-SVJCR/L-JHP (59) • C#-SVVCN (61) • HSK A63WH-SVJCR/L (60) • PVACR/L-JHP (60) • PVACR/L-JHP-MC (61) • PVACR/L-S (58) • S/A-SVJCR/L (100) • SVACR/L
(60) • SVJCR-PAD (60) • SVJCR/L (412) • SVJCR/L-16-JHP (412) • SVPCR/L (62) • SVVCN (413) • SVXCR/L (413)
VCMT 160404-M3M
VCMT 160412-M3M
VCMT-M3M
HSK A63WH-SVJCR/L (60) • SVJCR/L (412) • SVJCR/L-16-JHP (412) • SVVCN (413) • SVXCR/L (413) • AVC-SVLCR/L (83)
174
ISCAR 91º
35° Rhombic Cermet Positive
Flank Inserts for SemiFinish Turning of Steel and
Automotive Components
VCMT 160404-FPC
VCMT 160408-FPC
0.04-0.22
VCMT-FPC-CERMET
MAX 35°
VCGT-MD/PF
35° Rhombic Inserts with
3.40
VCGT 130304-PF
For tools, see pages: SVACR/L (60)
VCET-WF
93 º 91°
35° Rhombic Wiper Inserts
VCET 1103005R/L-WF
2.90
0.05-4.00
For tools, see pages: C#-SVJCR/L (59) • C#-SVJCR/L-JHP (59) • PVACR/L-JHP (60) • PVACR/L-S (58) • S/A-SVJCR/L (100) • SVACR/L (60) • SVJCR-PAD (60) •
SVJCR/L (412) • PVACR/L-JHP-MC (61)
175 VCMT-SM
35° Rhombic Inserts with a 7°
VCMT 110302-SM
VCMT 110304-SM
VCMT 110308-SM
VCMT 160402-SM
VCMT 160404-SM
VCMT 160408-SM
VCMT 160412-SM
VCMT-14
VCMT 160404-14
VCMT 160408-14
For tools, see pages: A/S-SVLBCR/L (100) • A/S-SVLFCR/L; A-SVUCR/L (414) • A/S-SVQCR/L (413) • AVC-SVLCR/L (83) • C#-SVJCR/L (59) • C#-SVJCR/L-JHP (59) •
C#-SVVCN (61) • HSK A63WH-SVJCR/L (60) • SVJCR/L (412) • SVJCR/L-16-JHP (412) • SVVCN (413) • SVXCR/L (413)
Tolerances:
d= ±0.05
S= ±0.13
VCMW
Positive Flank for Short Chipping
VCMW 160404
VCMW 160408
0.70-4.00
176
ISCAR SCMT-F3P
SCMT 09T304-F3P
SCMT 09T308-F3P
Square Positive Flank Inserts,
For tools, see pages: SSBCR/L (62) • SSSCR/L (62)
SCMT-M3P
SCMT 09T304-M3P
SCMT 09T308-M3P
SCMT 120404-M3P
SCMT 120408-M3P
SCMT 120412-M3P
Square Positive Flank Inserts
SCMT-M3M
SCMT 09T304-M3M
SCMT 09T308-M3M
SCMT 120404-M3M
SCMT 120408-M3M
SCMT 120412-M3M
0.40-3.80
0.80-3.80
0.14-0.43
177 SCMT-SM
SCMT 09T304-SM
SCMT 09T308-SM
SCMT 120404-SM
SCMT 120408-SM
Square Inserts with a 7°
SCMT-14
SCMT 09T304-14
SCMT 120404-14
SCMT-19
Square Inserts with a 7° Positive
Flank for Semi-Roughing at
Medium to High Feeds
• For cutting speed recommendations, see pages 109-114, 215-238
178
SCMT 120408-19
SCMT 120412-19
fz
0.08-0.15
0.08-0.15 88º
Inserts for DR Drills
and Boring Bars
IC328
IC250
IC350
XOMT 060204-DT
6.16
2.56
XOMT-DT
• Two cutting edges • For hard materials and interrupted cut
For tools, see pages: A-SXFOR-DR (106) • A-SXFOR/L (105)
TCMT-F3P
Triangular Inserts with a Positive
Flank for Semi-Finishing and
Finish Turning on Steel
TCMT 090202-F3P
TCMT 090204-F3P
TCMT 110202-F3P
TCMT 110204-F3P
TCMT 110208-F3P
TCMT 16T304-F3P
9.60
For tools, see pages: E-STFCR-HEAD (101) • S-MTLCR/L-W (100) • S-STFCR/L (101) • S-STLCR/L (101) • STFCR/L (62) • STGCR/L (63)
TCMT-PF
Triangular Inserts with a
Positive Flank for SemiFinishing and Finishing on Soft
TCMT 110202-PF
For tools, see pages: E-STFCR-HEAD (101) • S-STFCR/L (101) • S-STLCR/L (101) • STFCR/L (62) • STGCR/L (63)
179 TCMT-SM
Triangular Inserts with a 7°
TCMT 110204-SM
TCMT 110208-SM
TCMT 16T304-SM
TCMT 16T308-SM
TCMT 16T308-SM*
0.08-0.28
RCMT-SR
Round Inserts with a 7° Positive
Flank for Medium Profiling on
a Wide Range of Materials
BN
GB
RCMT 0803M0-SR
RCMT 1606M0-SR
0.18
0.30-0.45
0.40-0.60
For tools, see pages: SRDCN (64) • SRGCR/L (63)
RCMT-14
Round Inserts with a 7°
Positive Flank for Medium
and Finish Profiling on a
Wide Range of Materials
For tools, see pages: C#-SRGCR-12-JHP (64) • C#-SRGCR/L (64) • SRDCN (64) • SRGCR-12-JHP (63) • SRGCR/L (63)
180
IC354
RCMT 0803M0-14
RCMT 10T3M0-14
RCMT 1204M0-14
RCMT 1606M0-14
RCMT 2006M0-14
RCMT 2006M0E-14
0.50-0.70
0.50-0.70 Round Inserts with a 7° Positive
Flank and Reinforced Cutting
Edge for Semi-Roughing
RCMX 100300
RCMX 120400
RCMX 200600
4.20
0.01
0.50-0.50
RCMX
RCMX-NR
Round 7° Inserts with a Positive
Flank and Strong Cutting
Edge for Rough Turning
RCMX 250700-NR
RCMX 3209M0-NR
7.20
7.00-13.00
For tools, see pages: PRDCN (64) • PRGCR/L (65)
QCMT-PF
Four 80° Cornered Insert
with a Positive 7° Clearance
and Chipformer for
9.65
QCMT 09T302-PF
For tools, see pages: PQLCR/L (65) • PQLCR/L-S (65) • S/A-SQLCR/L (96)
Inserts with a Positive 7°
Clearance and Chipformer
for Finishing Applications
QCMT 09T304-SM
QCMT-SM
181 45 º
SPMR
SPMR 090304
SPMR 090308
SPMR 120304
SPMR 120308
SPMR 120312
Square Inserts with a Positive
Chipformer Exerting Low Cutting
Forces for Semi-Finishing
0.16-0.35
0.16-0.40
For tools, see pages: CSDPN (66) • CSSPR/L (66) • S-CSKPR (102)
TPMR
Triangular 11° Positive Inserts
with a Positive Chipformer
Exerting Low Cutting Forces
for Internal Finish Turning
TPMR 090202
TPMR 090204
TPMR 110304
TPMR 110308
TPMR 160304
TPMR 160308
0.15-0.20
0.15-0.25
0.15-0.33
For tools, see pages: CTFPR/L (67) • CTGPR/L (67) • S-CTFPR/L (102)
TPMR-PF
182
TPMR 110304-PF
TPMR 110308-PF
TPMR 160304-PF
TPMR 160308-PF
0.08-0.28 91 º
TPGT-SP
Super Positive Triangular Inserts
with 11° Clearance for Fine
Boring and Finish Turning
TPGT 110202-SP
For tools, see pages: E-STFPR/L-HEAD (102)
11° Positive Triangular Inserts
with a Positive Chipformer,
Low Cutting Forces for Finish
Turning Applications
TPMR 110304-FTF
TPMR 160304-FTF
TPMR-FTF
TPMT
IC50M
IC635
TPMT 110202
TPMT 110204
TPMT 110208
TPMT 160304
TPMT 160308
(mm)(1)
rev)(2)
5.00-12.00
• For cutting speed recommendations, see pages 236-237
(1) For turning
(2) For turning
For tools, see pages: A/E/S-STFPR/L (103) • A/S-STLPR/L (104) • E-STFPR/L-HEAD (102)
183 91 º
Triangular 11° Positive
IC(1)
TPMT 110204-PF
TPMT-PF
(1) Actual di=6.28, to be used in 6.35mm pocket size
TPGB
Triangular Inserts with an
11° Positive Flank for Short
Chipping Materials
TPGB 110204
TPGB-XL
184
TPGB 110204-XL
0.05-0.25 91 º
11° Positive and Ground
Chipformer for Finish Turning
TPGH 110204-L
TPGH 110208-L
TPGH 160304-R/L
TPGH 160308-L
TPGH-R/L
For tools, see pages: A/E/S-STFPR/L (103) • A/S-STLPR/L (104)
TPGH-XL
TPGH 110204-XL
TPGX
Triangular Inserts with an 11°
Positive Flank and Ground
TPGX 090202-L
TPGX 090204-L
TPGX 110302-L
TPGX 110304-L
TPGX 110308-L
For tools, see pages: A/E-STFPR-X (103) • MG STFPR-X (103)
185 93º
WBGT
5°
Trigon Inserts with a 5° Positive
Flank Ground Chipformer
for Finish Turning
2.24
2.18
1.59
WBGT 060102L
0.10-1.00
0.05-0.10
For tools, see pages: E/S-SWUBR/L (104) • MG-SWUBR/L (105)
WBMT 060101R/L
WBMT 060102L
WBMT
0.10-0.15
• WBMT 06 .R right-hand inserts used on left-hand tools and WBMT 06 .L left-hand inserts used on right-hand tools • For user guide and cutting speed recommendations,
see pages 109-114, 215-238
WCGT
Trigon Inserts with a 7°
Positive Flank and Chipformer
WCGT 020102L
WCGT 020104L
For tools, see pages: A/E-SWUCR (105) • MG-SWUCR (105)
186
f 45°
AN°
EPSR
AN
0.00
3.20
84.0
IC08
WPEX 040200R/L08
WPEX 040200R12
WPEX 040202L08
WPEX 050300R/L08
WPEX 050300R12
WPEX 050302L08
WPEX 050302R12
WPEX 050304L08
WPEX 050304R12
WPEX 060400R/L08
WPEX 060400R/L12
WPEX 060402L08
WPEX 060402L12
WPEX 060404L08
WPEX 060404R12
80° and 84° Precision
Trigon Inserts with Positive
8° and 12° Clearance for
WPEX
For tools, see pages: SWAPR-PAD (66) • SWAPR/L (65) • SWDPR/L (66)
CC95MT-SM
6.2
for Finishing (CHAMELEON
Multifunction Pocket System)
CC95MT 100504-SM
For tools, see pages: S-SUXCR/L-CM (95) • SUXCR/L-CM (49)
SC45MT-SM
(CHAMELEON Multifunction
Pocket System)
9.53
SC45MT 100508-SM
187 95º
CNGG-F3N
Double-Sided Sharp-Edged
Positive and Polished Rake Inserts
for Finishing on Aluminum and
Other Non-Ferrous Materials
CNGG 090402-F3N-P
CNGG 090404-F3N-P
CNGG 090408-F3N-P
For tools, see pages: A/S-PCLNR/L-X/G (88) • C#-PCLNR/L-X-JHP (21) • DCLNR/L (22) • PCLNR/L-X (19) • PCLNR/L-X-JHP (20) • PCLNR/L-X-JHP-MC (20) •
AVC-PCLNR/L (83)
WNGG-F3N
WNGG 060402-F3N-P
WNGG 060404-F3N-P
WNGG 060408-F3N-P
For tools, see pages: A-PWLNR/L-X/G (C87) • A/S-MWLNR/L-W (C86) • A/S-PWLNR/L (C87) • DWLNR/L (C15) • E-PWLNR/L-HEAD (C88) • MULNR/L-12MW (C18)
• MWLNR/L-CA-W (C111) • MWLNR/L-W (C19) • PWLNR/L (C13) • PWLNR/L-08-JHP (C14) • PWLNR/L-X (C16) • PWLNR/L-X-JHP (C17) • S-DWLNR/L (C80) •
S-MULNR-MW (C88)
CNGX-M3N
Double-Sided Positive
Rake Inserts with High
Helical and Sharp Edge
Non-Ferrous Materials
CNGX 090604-M3N-P
CNGX 090608-M3N-P
• PCLNR/L .X and A -PCLNR/L-X are most recommended as they were designed especially for this insert
For tools, see pages: A/S-PCLNR/L-X/G (88) • C#-PCLNR/L-X-JHP (21) • DCLNR/L (22) • PCLNR/L-X (19) • PCLNR/L-X-JHP (20) • PCLNR/L-X-JHP-MC (20)
188
95º VNGU-R3N
Positive Rake Inserts for Rough
Machining on Aluminum and
VNGU 220616-R3N
VNGU 220630-R3N
For tools, see pages: A-SVLFNR-JHP (93) • A-SVQNR/L-AL-JHP (416) • SVHNR/L-JHP (31) • SVVNN-JHP (416)
SCGT-AS
Flank, Very Positive Rake
Angle and Sharp Cutting Edge
for Machining Aluminum
90˚
SCGT 09T308-AS
SCGT 120404-AS
SCGT 120408-AS
60˚
TCGT-AS
Positive Flank, Very Positive
Rake Angle and Sharp Cutting
Edge for Machining Aluminum
TCGT 110204-AS
TCGT 16T304-AS
TCGT 16T308-AS
189 VCGT-AS
35˚
22.10
VCGT 110302-AS
VCGT 110304-AS
VCGT 160401-AS
VCGT 160402-AS
VCGT 160404-AS
VCGT 160408-AS
VCGT 160412-AS
VCGT 220530-AS
IC920
For tools, see pages: A/S-SVLBCR/L (100) • A/S-SVLFCR/L; A-SVUCR/L (414) • A/S-SVQCR/L (413) • AVC-SVUCR/L (83) • C#-SVJCR/L (59) • C#-SVJCR/L-JHP (59)
• C#-SVVCN (61) • HSK A63WH-SVJCR/L (60) • PVACR/L-JHP (60) • PVACR/L-S (58) • S/A-SVJCR/L (100) • SVACR/L (60) • SVJCR-PAD (60) • SVJCR/L (412) •
SVJCR/L-16-JHP (412) • SVPCR/L (62) • SVVCN (413) • SVXCR/L (413) • AVC-SVLCR/L (83) • PVACR/L-JHP-MC (61)
VCGT-AF
Inserts with a Very Positive
Edge for Semi-Finishing and
Finishing on Aluminum
VCGT 220508-AF
VCGT 220512-AF
VCGT 220516-AF
For tools, see pages: A/S-SVLFCR/L; A-SVUCR/L (414) • A/S-SVQCR/L (413)
80˚
CCGT-AS
CCGT 060201-AS
CCGT 060202-AS
CCGT 060204-AS
CCGT 09T301-AS
CCGT 09T302-AS
CCGT 09T304-AS
CCGT 09T308-AS
CCGT 120402-AS
CCGT 120404-AS
CCGT 120408-AS
ISCAR CCGT-AF
CCGT 09T308-AF
CCGT 120408-AF
For tools, see pages: A/E/S-SCLCR/L (97) • C#-SCLCR/L-JHP (50) • E-SCLCR/L-HEAD (96) • PCLCR/L-S (51) • PCLCR/L-S-JHP (51) • SCLCR-PAD (50) • SCLCR/L
(49) • AVC-SCLCR/L (82) • PCLCR/L-JHP-MC (52)
DCGT-AS
7.75
DCGT 070201-AS
DCGT 070202-AS
DCGT 070204-AS
DCGT 11T301-AS
DCGT 11T302-AS
DCGT 11T304-AS
DCGT 11T308-AS
0.05-0.26
DCGT-AF
DCGT 11T304-AF
191 Round Inserts with a 7° Positive
RCGT 0803M0-AS
RCGT 1003M0-AS
RCGT 10T3M0-AS
RCGT-AS
TNMS-12
Triangular Single-Sided Inserts for
Soft and Nonferrous Materials
TNMS 160404-12
TNMS 160408-12
TNMS 220404-12
TNMS 220408-12
0.07-0.32
For tools, see pages: A-PTFNR/L-X/G (94) • PTFNR-CA (108) • PTFNR/L (34) • PTGNR/L (32) • PTGNR/L-X (32) • PTGNR/L-X-JHP (33) • PTGNR/L-X-JHP-MC (33) •
DNMS-12
55° Rhombic Single-Sided Inserts
for Soft and Nonferrous Materials
For tools, see pages: A/S-PDUNR/L (92) • C#-PDJNR/L-JHP (26) • PDJNR/L (25) • PDJNR/L-JHP (25) • AVC-DDUNR/L (84)
192
DNMS 150408-12
MAX CNMS-12
80° Rhombic Single-Sided Inserts
CNMS 120408-12
For tools, see pages: A/S-PCLNR/L (87) • A/S-PCLNR/L-X/G (88) • C#-PCLNR/L-12-JHP (18) • C#-PCLNR/L-X (21) • C#-PCLNR/L-X-JHP (21) • PCBNR/L (19) •
PCLNR/L (17) • PCLNR/L-12-JHP (18) • PCLNR/L-CA (107) • PCLNR/L-X (19) • PCLNR/L-X-JHP (20) • PCLNR/L-X-JHP-MC (20)
35° Rhombic Single-Sided Inserts
VNMS 160404-12
VNMS 160408-12
VNMS-12
0.07-0.33
193 Pipe Skiving Inserts with a
Positive Rake Used to Remove
the Burr of Welded Tubes
7.8
APMX
PRFRAD
SNMX 150708R-11
SNMX 150708R-13
SNMX 150708R-15
SNMX 150708R-18
SNMX 150708R-20
SNMX 150708R-22
SNMX 150708R-25
SNMX 150708R-27
SNMX 150708R-30
SNMX 150708R-35
SNMX 150708R-40
SNMX 150708R-45
SNMX 150708R-50
SNMX 150708R-60
SNMX 150708R-65
SNMX 150708R-70
SNMX 150708R-75
SNMX 150708R-90
75.00
0.86
0.71
0.64
0.58
0.47
0.42
0.36
0.31
0.28
0.21
0.19
0.17
0.14
IC418
5.16
SNMX 150708R-
PIPE FEED
60 MIN
200 MAX
For tools, see pages: PSANR/L (47)
These inserts remove the burr immediately after the welding
process (material temperature is usually 300-400°C).
Cutting speed varies from 40 to 150 m/min, depending on
the diameter of the tube.
Recommended: R=
D (pipe)
+(1-2 mm)
SNMX 150608R-
Pipe Skiving Inserts Used to
Remove the Burr of Welded Tubes
SNMX 150608R-15
SNMX 150608R-90
process (material temperature is usually 300-400° C).
194
2 95°
WNGA-Ceramic
Double-Sided Flat Rake Ceramic
Inserts for Machining Cast Iron
WNGA 080408T
WNGA 080412T
2.00-4.00
0.03-0.95
CNGN-Ceramic
80° Rhombic Double-Sided
Ceramic Inserts with a T-Land for
Machining Cast Iron, Hardened
Steel and Nickel Based Alloys
IS25
IS35
CNGN 120404T
CNGN 120408E
CNGN 120408T
CNGN 120408T0225-WG (1)
CNGN 120412E
CNGN 120412T
CNGN 120416T
CNGN 120708E
CNGN 120708T
CNGN 120712E
CNGN 120712T
CNGN 120716T
CNGN 160612T
IN420
0.10-0.43
For tools, see pages: CCLNR/L (78)
80° Rhombic DoubleSided Inserts with a T-Land
for Machining Cast Iron
and Hardened Steel
CNMG 120404T
CNMG 120408T
CNMG-Ceramic
195 95º
CNGA-Ceramic
CNGA 120404T
CNGA 120408T
CNGA 120412T
CNGA 120416T
• DCBNR/L (23) • DCLNR/L (22) • DCLNR/L-JHP-MC (22) • HSK A63WH-MULNR-J12MWX2 (14) • HSK A63WH-MULNR/L-MW (13) • HSK A63WH-MUMNN-MW (14) •
• S-DCLNR/L (85) • S-MULNR-MW (91)
Dimpled Ceramic Inserts with a
T-Land for Machining Cast Iron
CNGX 120712T
CNGX 120716T
CNGX-Ceramic
0.07-0.43
For tools, see pages: TCBNR/L-CH (78) • TCKNR/L-CH (78) • TCLNR/L-CH (78)
SNGN-Ceramic
Square Double-Sided Ceramic
Inserts with a Flat Rake for
Steel and Super Alloys
IN110
196
SNGN 120404T
SNGN 120408T
SNGN 120412T
SNGN 120416T
SNGN 120708T
SNGN 120712T
SNGN 120716T
SNGN 150712T
SNGN 150716T
0.10-3.50
0.10-5.00
0.10-0.50 SNGA-Ceramic
Square Double-Sided
Ceramic Inserts with a Flat
Rake for Machining Cast
Iron and Hardened Steel
SNGA 120404T
SNGA 120408T
SNGA 120412T
SNGA 120416T
0.10-3.00
0.10-4.00
0.10-4.50
SNGX-Ceramic
Square Double-Sided Dimpled
Rake for Machining Cast Iron
SNGX 120712T
SNGX 120716T
DNGA-Ceramic
55° Rhombic Double-Sided
Ceramic Inserts for Machining
Cast Iron and Hardened Steel
DNGA 150404T
DNGA 150408T
DNGA 150412T
DNGA 150604T
DNGA 150608T
DNGA 150612T
0.07-0.50
197 55° Rhombic Double-Sided
DNGX-Ceramic
DNGX 150712T
DNGX 150716T
For tools, see pages: TDJNR/L-CH (79) • TDNNN-CH (79)
35° Rhombic Double-Sided
Ceramic Inserts with a
T-Land for Machining Cast
VNGA-Ceramic
93 º 91º
VNGA 160404T
VNGA 160408T
0.08-0.35
TNGN-Ceramic
Cast Iron, Hardened Steel
and Nickel Based Alloys
For tools, see pages: CTJNR/L (79)
198
TNGN 160408T
TNGN 160412T
TNGN 220408T
TNGN 220712T
0.10-0.50 22°MAX
TNGA-Ceramic
Triangular Double-Sided Ceramic
Inserts for Machining Super
Alloys and Hardened Steel
TNGA 160404T
TNGA 160408T
TNGA 160412T
TNGA 220408T
TNGA 220416T
TPGN-Ceramic
Triangular Ceramic Inserts
with an 11° Positive Flank for
Machining Hardened Steel
TPGN 090204T
TPGN 110304T
TPGN 110308T
TPGN 160304T
TPGN 160308T
0.07-0.40
CH
RPGN-Ceramic
Round Ceramic Inserts for
Machining Nickel Based
RPGN 090300E
RPGN 120400E
RPGN 120400E-CH (1)
RPGN 120400T
RPGN 120400T-CH (1)
0.10-2.00
(1) Insert with a dimple
199 RNGN-Ceramic
Round Double-Sided Ceramic
Inserts for Machining Cast
Iron, Nickel Based Alloys
RNGN 090300T
RNGN 090400T
RNGN 120400T
RNGN 120700 S6 (1)
RNGN 120700E
RNGN 120700E-CH (2)
RNGN 120700T
RNGN 120700T-CH (2)
RNGN 120700T02020
RNGN 150700T
RNGN 190700T
(1) For milling nickel based superalloys; reference recommendations for milling Inconel 718: 0.12 mm/t 900-1000 m/min
(2) Insert with a dimple
For tools, see pages: CRDNN (80) • CRGNR/L (80)
RCGX-Ceramic
RCGX 090700E
RCGX 090700T
RCGX 120700E
RCGX 120700T
For tools, see pages: CRDCN (80) • CRGCR/L (80)
RPGX-Ceramic
RPGX 090700E
RPGX 090700T
RPGX 120700E
RPGX 120700T
• Tools can be supplied on request. • For user guide and cutting speed recommendations, see pages 109-114, 215-238
0.10-0.45 CNMA (PCD)
80° Rhombic Inserts with a Single
PCD Top Corner Tip and Positive
Rake for Finishing Applications
3.9
CNMA 120404D
CNMA 120408D
For tools, see pages: A/S-PCLNR/L (87) • C#-MULNR/L-MW (13) • C#-PCLNR/L-12-JHP (18) • C#-PCLNR/L-X (21) • C#-PCLNR/L-X-JHP (21) • DCLNR/L (22) •
HSK A63WH-MULNR-J12MWX2 (14) • HSK A63WH-MULNR/L-MW (13) • HSK A63WH-MUMNN-MW (14) • MULNR/L-12MW (12) • PCLNR/L (17) • PCLNR/L-12-JHP
(18) • PCLNR/L-CA (107) • PCLNR/L-X (19) • PCLNR/L-X-JHP (20) • PCLNR/L-X-JHP-MC (20) • S-DCLNR/L (85) • S-MULNR-MW (91) • A/S-PCLNR/L-X/G (88) •
DCLNR/L-JHP-MC (22)
CCMT (PCD)
3.1
CCMT 060202D
CCMT 060204D
CCMT 09T304D
Inserts with a Single PCD
Top Corner Tip, 7° Clearance
and Positive Rake Angle
for Finishing Aluminum
0.08-3.00
DCMT (PCD)
Single PCD Top Corner Tip, 7°
Clearance and Positive Rake
Angle for Finishing Applications
3.3
DCMT 11T302D
DCMT 11T304D
DCMT 11T308D
0.05-0.29
201 VCMT (CBN)
35° Rhombic Single
Brazed Tip Corner Inserts
for Finishing Cast Iron
VCMT 160404T
VCMT 160408T
VCGT-DW (PCD)
and a Single PCD Top
Corner Tip Chipformer for
Machining Aluminum
VCGT 160404-DW
VCGT 160408-DW
VCGT 160412-DW
VCGT 220516-DW
VCGT 220520-DW
VCGT 220530-DW
VCGT (PCD)
35° Rhombic Single Brazed
Tip Corner Inserts for
Finishing Aluminum (PCD)
4.99
VCGT 160404D
VCGT 160408D
202
ISCAR 7°
TCMT 110204D
TCMT (PCD)
TPGX (PCD)
Triangular Inserts with a Single
PCD Top Corner Tip, 11°
Angle for Finishing Aluminum
TPGX 090202
TPGX 090204
TPGX 110302
TPGX 110304
WNGA-M3 (CBN)
Typ. x 3
Multi-Cornered CBN Inserts for
WNGA 080408-M3
2.2
203 Multi-Cornered CBN Inserts for
Typ. x 6
WNGA 080404T-MC
WNGA 080408-M6
WNGA 080408T-MC
WNGA 080412T-MC
WNGA-MC/M6 (CBN)
CNMA-T/M1/WG (CBN)
Single CBN Top Corner Tip for
3.2
IB85
IB90
CNMA 120404T
CNMA 120408-M1
CNMA 120408T
CNMA 120408T-WG (1)
CNMA 120412-M1
CNMA 120412T
(1) Wiper insert for high feed finishing, eliminates grinding.
Wiper
CNMA-MW4 (CBN)
Typ. x 2
80° Rhombic Inserts with 4
CBN Wiper Edge Tips for
IB25HC
CNMA 120408-MW4
CNMA 120412-MW4
204
ISCAR IC
4-Cornered CBN Inserts for
Typ. x 4
CNGA 120404T-MC
CNGA 120408-M4
CNGA 120408T-MC
CNGA 120408T-WG-MC (1)
CNGA 120412-M4
CNGA 120412T-MC
CNGA-4 (CBN)
(1) Wiper corner configuration
2.3
IB05S
IB10S
IB20HC
80° Rhombic Inserts with 2 CBN
Tips for Machining Hardened
Steel, Sintered Metals and
CNGA 120404-F2
CNGA 120404-M2
CNGA 120404-R2
CNGA 120408-F2
CNGA 120408-MW2
CNGA 120408-M2
CNGA 120408-R2
CNGA 120408-S2
CNGA 120412-F2
CNGA 120412-M2
CNGA 120412-R2
CNGA-2 (CBN)
205 80° Rhombic Inserts with 4
Chipbreaking CBN Tips for
CNGG 120408-M4HF
CNGG 120412-M4HM
IB25HA
CNGG-M4HF/M4HM (CBN)
0.20-0.75
0.50-1.00
CCGW/CCMT (CBN)
a Single CBN Top Corner
Tip and 7° Clearance for
3.63
4.44
IB05H
CCGW 03X102T01015-1
CCGW 03X104T01015-1
CCGW 04T102T01015-1
CCGW 04T104T01015-1
CCMT 060202T
CCMT 060204T
CCMT 09T304T
CCMT 09T308T
206
ISCAR 97°
CCGW/CCMW-2 (CBN)
with 2 CBN Tips for Machining
Hardened Steel, Sintered Metals
and High Temperature Alloys
CCGW 060202-F2
CCGW 060204-F2
CCGW 09T304-F2
CCGW 09T308-F2
CCGW 060202-M2
CCGW 060204-M2
CCMW 060202-M2
CCMW 060204-M2
CCGW 09T304-M2
CCGW 09T308-M2
CCMW 09T304-M2
CCMW 09T308-M2
CCGW 060204-R2
CCGW 09T304-R2
CCGW 09T308-R2
DNMA (CBN)
CBN Inserts with a Flat Rake
for Machining Hardened Steel
2.8
DNMA 150404T
DNMA 150408T
DNMA 150412T
DNMA 150604T
DNMA 150608T
DNMA 150612T
207 DNGA-4 (CBN)
55° Rhombic 4-Cornered
CBN Inserts for Machining
Hardened Steel
2.1
DNGA 150404T-MC
DNGA 150408-M4
DNGA 150408T-MC
DNGA 150412-M4
DNGA 150412T-MC
DNGA 150604T-MC
DNGA 150608T-MC
DNGA 150612T-MC
DNGA-2 (CBN)
55° Rhombic Inserts with 2 CBN
DNGA 150404-F2
DNGA 150404-M2
DNGA 150408-F2
DNGA 150408-M2
DNGA 150408-R2
DNGA 150412-F2
DNGA 150412-M2
DNGA 150412-R2
For tools, see pages: C#-DDJNR/L (27) • C#-PDJNR/L-JHP (26) • HSK A63WH-DDJNR/L (27) • HSK A63WH-DDNNN (28) • PDJNR/L (25) • PDJNR/L-JHP (25) •
S-DDUNR/L (92) • DDJNR/L-JHP-MC (27)
DNGG-M4HF/M4HM (CBN)
55° Rhombic Inserts with 4
208
DNGG 150408-M4HF
DNGG 150412-M4HM
93 º DCMT (CBN)
DCMT 11T304T
DCMT 11T308T
DCGW/DCMW-2 (CBN)
LE L
DCGW 070202-F2
DCGW 070204-F2
DCGW 11T302-F2
DCGW 11T304-F2
DCGW 11T308-F2
DCGW 070202-M2
DCGW 070204-M2
DCGW 070208-M2
DCGW 11T302-M2
DCMW 11T304-M2
DCGW 11T308-M2
DCMW 11T308-M2
DCGW 11T304T01315
DCGW 11T304-S2
0.05-0.12
VNGA-2 (CBN)
35° Rhombic Inserts with 2 CBN
IC RE
VNGA 160404-F2
VNGA 160404-M2
VNGA 160408-F2
VNGA 160408-M2
VNGA 160408-R2
209 93 º 91º
VNGA 160408-M4
4 CBN Tips for Machining
VNGA-4 (CBN)
0.02-0.30
35° Rhombic Insert with 4
VNGG 160408-M4HM
VNGG-M4HM (CBN)
0.50-0.80
VBMT (CBN)
Single Corner CBN Tipped
210
VBMT 160404T
0.05-0.39
0.05-0.11 35°
VBGW/VBMW-2 (CBN)
35° Positive Rhombic
Inserts with 2 CBN Tips for
VBGW 110304-F2
VBGW 160404-F2
VBGW 160408-F2
VBMW 110304-M2
VBGW 160404-M2
VBMW 160404-M2
VBGW 160408-M2
VBMW 160408-M2
0.05-0.11
VCGW-2 (CBN)
VCGW 160404-F2
VCGW 160404-M2
VCGW 160408-F2
VCGW 160408-M2
TNMA (CBN)
Corner CBN Tip for Machining
TNMA 160404T
TNMA 160408T
211 TNGA-MC/M6 (CBN)
Triangular Multi-Cornered
TNGA 160404T-MC
TNGA 160408-M6
TNGA 160408T-MC
60º
TNGA-M3 (CBN)
Triangular Inserts with 3 CBN
TNGA 160404-M3
TNGA 160408-M3
TNGA 160412-M3
TCMT (CBN)
Triangular Positive Inserts with
a Single CBN Flat Rake Tip for
212
TCMT 110204T
0.05-0.13 Triangular Inserts with a Single
CBN Top Corner Tip, 11°
Clearance for Machining Cast
TPGX 090202T
TPGX 090204T
TPGX 110302T
TPGX 110304T
0.05-0.05
TPGX (CBN)
TPGW-M3 (CBN)
3 CBN Tips for Machining
Sintered Metals and High
Temperature Alloys
TPGW 110204-M3
TPGW 110208-M3
TPGW 110304-M3
TPGW 110308-M3
For tools, see pages: A/E-STFPR-X (103)
213 LE
SNMA (CBN)
Square CBN Tipped Inserts with
a Single Flat Rake for Machining
RCGX (CBN)
CBN Round Inserts with a
Flat Rake for Machining Cast
140°
RCGX 060300T
RCGX 090300T
RCGX 120400T
214
SNMA 120408T
75 º ISOTURN INSERTS
215 ISOTURN INSERTS
Grades
ISO
P05-P25
M05-M15
TiN
PVD COATED
P10-P30
M10-M20
S05-S15
TiAlN
S.T.
S10-S20
P10-P20 M05-M15
S10-S20 K15-K30
H05-H15
P30-P45
M25-M45
CERMET
P15-P30 M20-M30
K20-K40 S15-S30
H20-H30
K05-K20
S.T. SUMO TEC
Coating Layers
216
ISCAR Turning Grades Chart
M05-M25
S15-S25
M15-M35
S20-S30
P05-P25 K10-K25
P10-P35
M15-M25
P20-P45
M20-M30
CVD COATED
AlTiN
K10-K25
TiCN
Al2O3
P05-P15
TiC
TiCN USER GUIDE
Recommended Applications
A hard cermet TiCN + TiN PVD coated grade. Used for turning, semi-finishing and finishing operations.
Recommended for steels at high cutting speeds and low feeds, provides excellent surface finish, resistance
to wear and plastic deformation. Features excellent wear resistance and prevents build-up edge.
A cermet TiCN + TiN PVD coated grade. Used for turning, semi-finishing and finishing operations.
Recommended for steels at medium to high cutting speeds and low to medium feeds,
provides excellent surface finish and prevents build-up edge.
A very hard submicron substrate with AlTiN + TiAlN PVD coating and a special SUMO TEC surface treatment.
Suitable for semi finishing and finishing operations of hard high temperature alloys at relatively high cutting speeds.
A hard submicron substrate with AlTiN + TiAlN PVD coating and a special SUMO TEC surface treatment.
First choice for turning of high temperature alloys. Suitable also for titanium alloys, at medium to relatively high cutting speeds.
A hard submicron substrate with TiAlN + TiN PVD coating and a special SUMO TEC surface treatment.
Suitable for turning of steel, alloy steels, austenitic stainless steel, high temperature alloys and hard steels
at medium cutting speeds.
TiAlN + TiN PVD coated grade with a special SUMO TEC surface treatment on very tough substrate
for turning of steel and stainless steel at low to medium speeds and medium to high feeds.
The grade is recommended for interrupted cut and machining at unstable conditions.
A hard submicron substrate with TiAlN PVD coating. Suitable for turning of steel, alloy steels, austenitic
stainless steel, high temperature alloys and hard steels at medium cutting speeds.
A tough submicron substrate with TiAlN PVD coating. Recommended for general use in turning operations on large variety
of materials as well as steel, alloy steels, austenitic stainless steel high temperature alloys at low to medium cutting speeds.
A TiC + Al2O3 multilayer CVD coated grade. Used for turning and grooving of grey and nodular cast iron
at medium to high cutting speeds.
A hard substrate with MTCVD TiCN and a thick alpha Al2O3 CVD coating with a special SUMO TEC surface treatment.
Used for turning of grey and nodular cast iron at high cutting speeds with stable conditions.
Used for machining of grey and nodular cast iron at medium to high cutting speeds with good resistance to chipping.
A hard substrate with MTCVD TiCN and a thick alpha Al2O3 CVD coating with cobalt enriched outer layer
and a special SUMO TEC surface treatment. Used for finishing and medium turning of stainless steel
at high cutting speeds. Features long tool life and high wear resistance.
A tough substrate with MTCVD TiCN and a thick alpha Al2O3 CVD coating and a special SUMO TEC surface treatment.
Recommended for machining stainless steel at high feeds and unfavorable conditions at medium cutting speed.
A hard substrate with a cobalt enriched layer, MTCVD TiCN and a thick Al2O3 CVD coating with a special SUMO TEC
surface treatment. Recommended for high speed machining of steels and martensitic stainless steel with moderate
feeds at stable conditions. Features excellent thermal stability and resistance to wear and plastic deformation.
A tough substrate with a cobalt enriched layer combined with MTCVD TiCN and a thick alpha Al2O3 CVD coating
with a special SUMO TEC surface treatment. Recommended for general use machining of steels and martensitic stainless steel
in a wide range of conditions, features high toughness and wear resistance.
A very tough substrate with a cobalt enriched layer combined with MTCVD TiCN and a thick alpha Al2O3 CVD coating
with a special SUMO TEC surface treatment. Recomended for steels and martensitic stainless steel.
Features high toughness with excellent results at unstable conditions and interrupted cut.
217 ISOTURN INSERTS
H10-H25
M10-M30
N10-N25
S10-S30
N05-N25 S05-S20
K10-K20 H05-H15
S05
H10
S10
H20
H25
K01-K10
H01-H10
K05-K15
S01-S10
N01-N10
218
UNCOATED
CBN
PCD USER GUIDE
A hard cermet grade, used for turning applications. Recommended for steels at high cutting speeds and low
feeds, provides excellent surface finish. Features improved wear resistance and prevents build-up edge.
A cermet grade, used for turning applications. Recommended for steels and stainless steel at medium to high cutting
speeds and low feeds, provides excellent surface finish. Features very good wear resistance and prevents build-up edge.
An uncoated submicron carbide grade, used for steels, stainless steel and high temperature alloys at low cutting speeds.
An uncoated carbide grade. Used for turning of aluminum and other nonferrous materials at medium to high
cutting speeds. Suitable also for high temperature and titanium alloys machining at low cutting speeds.
Uncoated grade that contains 95% PCBN composed of super fine grain size in a special binder.
Used for finishing operations with continuous conditions on sintered metals at high cutting speeds.
Features high hardness and ensures very good surface finish.
Extra fine grain 53% PCBN. Used for finishing operations of hardened steels at medium to high cutting speeds in
continuous up to light interrupted cutting conditions. Features very good wear resistance with excellent surface finish results.
Extra fine grain 53% PCBN with TiN PVD coating for hardened steel turning. Excellent crater wear
resistance for high speed machining. Newly developed PCBN substrate for high speed cutting.
Fine grain, composed of fine grain size in a special binder, very hard 95% PCBN grade.
Used for finishing operations on sintered metals at high cutting speeds and also for valve seats and
Titanium alloys at continuous up to light interrupted cutting conditions. Features high hardness and good wear resistance.
A combination of coarse and fine grain 65% PCBN. Used as a general purpose grade for finishing operations of hardened
steels at medium cutting speeds in continuous up to medium interrupted cutting conditions.
Features good balance between wear resistance and impact resistance.
TiN PVD coated, very tough grade 75% PCBN. Used for hardened steel turning.
High chipping resistance & extremely tough substrate for all-round use.
TiN PVD coated, medium grained PCBN particles are bound with special binder 75% PCBN substrate.
Used for medium and light interrupted cut turning of hardened steel. The surface is coated with dedicated coating material.
A 50% PCBN used for finishing operations of hardened steels (45-65 HRc) at medium to high cutting speeds
in continuous conditions. Features excellent wear resistance with very high surface finish results.
A 55% PCBN used for finishing operations of hardened steels (45-65 HRc) at medium cutting speeds in continuous
up to light interrupted cutting conditions. Features very good toughness properties at medium feeds and depths of cut.
A 90% PCBN used for finishing operations of cast iron at high cutting speeds and also for medium speeds on
hardened steels with heavy interrupted cutting conditions. Features very high toughness and impact resistance.
A PCD brazed tip, suitable for machining aluminum and other nonferrous materials at very high cutting speeds.
219 ISOTURN INSERTS
H05-H25
K05-K10
BLACK CERAMICS
H10-H30
K01-K20
IS9
SiAlON
WHITE CERAMICS
SILICON NITRIDE
WHISKER CERAMICS
220
TiN USER GUIDE
White ceramic features high toughness and wear resistance, used for high speed turning of cast iron,
especially high speed dry machining of cylinder liner.
Black Ceramic (Al2O3 + TiCN), mainly used for high speed machining of light roughing & finishing of hardened
steel. Also suitable for finishing operation of chilled cast iron.
Black Ceramic (Al2O3 + TiCN), mostly recommended for machining cast iron at finish to medium conditions.
Also suitable for light interrupted cut of hardened steel.
SiAlON High fracture toughness and thermal shock resistance. Used for very high speed
machining (up to 1200 m/min) roughing to finishing of cast iron, especially for automotive parts.
A Silicon Nitride grade. High wear resistance with good toughness and thermal shock
resistance. Used for high speed machining roughing to finishing of cast iron.
A Silicon Nitride ceramic grade. A very tough grade with high cutting edge stability.
Used for roughing to finishing applications on Ni base high temperature alloys and ductile cast iron.
Reinforced SiAlON composite grade, features high hardness, excellent for machining at
continuos conditions of high temperature alloys such as Inconel, Waspaloy etc.
Reinforced SiAlON composite grade, provides high hardness with excellent toughness for machining high
temperature alloys such as Inconel, Waspaloy etc. Suitable for high feeds and depth of cut.
A Si3N4 ceramic grade with CVD coating. High wear resistance with good toughness and thermal shock resistance.
Used for high speed machining roughing to finishing of cast iron.
Black Ceramic (Al2O3 + TiCN) with TiN PVD coating, used for high speed finishing machining of hardened steel.
Improved tool life up to 50% compared to uncoated grade.
Whiskers reinforced ceramic grade, provides high hardness with good toughness for machining Ni based
high temperature alloys such as Inconel, Waspaloy etc.
221 ISOTURN INSERTS
222
ISCAR Chipformers for Finishing
F3P Chipformer
1.7
12.5°
Double-sided insert with a positive
rake angle for finish machining
on stainless steel. Its unique
deflector geometry with a wavy
surface prevents chip hammering.
F3M Chipformer
15°
SF Chipformer
A unique super-finishing
chipformer that controls chip
flow at very low feeds and
cutting depths. Designed
to reduce crater wear.
18˚
Double-sided for semi-finishing
and finishing applications. Low
cutting forces are due to a very
sharp edge and positive rake.
NF Chipformer
4º
1.42
WF Chipformer
Wiper geometry for high feed
finishing on soft and gummy
materials. Small depths of cut.
8˚
High positive rake and a
special edge preparation used
for rough and finish turning
on high temperature alloys.
Excellent performance on parts
such as automotive valves.
VL Chipformer
16°
Double-sided insert with
a positive rack angle to
reduce cutting forces for
finish machining on steel.
Chipformers for Medium Machining
Double-sided insert for
medium machining on steel
with a reinforced cutting
edge to increase tool life.
M3P Chipformer
.053
M3M Chipformer
TF Chipformer
Double-sided insert for medium
machining on stainless steel with
a reinforced cutting edge that
prevents notch wear at
tight radii to increase tool life.
Double-sided positive rake angles to
prevent strain hardening. The rake
angle varies along the edge to a
negative angle which prevents chipping.
Special design reduces cratering.
Used for carbon and alloy steel,
stainless steel and high-temp alloys.
223 ISOTURN INSERTS
PP Chipformer
Double-sided, very positive
rake, sharp- and positive radial
edge for heat-resistant alloys,
stainless steel, aluminum alloys
and soft, low carbon steel.
GN Chipformer
Double-sided for general
applications. Secure cutting
edge for medium- and semiroughing on steel and cast iron.
EM-M Chipformer
Double-sided sharp cutting
edge with a 16º positive rake
angle for machining high
temperature alloys at ap<3 mm.
1.11
0.07
5˚
16˚
Single-sided for medium to
rough machining on aluminum
and soft materials.
12 Chipformer
21˚
10˚
0.08
Chipformers for Roughing
Chip-breaker for rough machining
on steel with a positive rake
angle and reinforced cutting
edge for better performance
and longer tool life.
R3P Chipformer
0.12
R3M Chipformer
13.5°
3°
T3P Chipformer
19°
TNM Chipformer
8.5˚
EM-R Chipformer
1.55
13º
224
17°
21º
Double-sided insert for rough
a unique deflector geometry
to improve chip control.
Includes a wavy surface to
prevent chip hammering.
Double-sided 6˚ negative
flank trigone insert for high
feed turning on steel.
Double-sided trigon for
roughing applications.
Feed ranges: from 0.25
to 0.65 mm/rev.
Depth of cut from 2 to 7 mm.
Double-sided sharp cutting edge
with a 13º positive rake angle
for machining high temperature
alloys at ap < 6 mm. Chipformers for Roughing
alloys at ap < 6 mm.
NR Chipformer
Double-sided for roughing
applications. Feed range: 0.25
mm/rev to 0.8 mm/rev. Depth
of cut from 2.00 to 10.0 mm.
M4PW Chipformer
14º
17º
M4MW Chipformer
Chipformer for heavy machining
applications on stainless steel.
The inserts feature a very
positive radial helical cutting
edge and a positive rake angle.
HT/WG Chipformer
14˚
Feed range: 0.08 mm/rev to
0.75 mm/rev. Depth of cut
from 1.5 mm to 8.0 mm.
HM Chipformer
21 ˚
13 ˚
Tangential insert with 4 cutting
edges for high metal removal
on steel up to 35mm DOC
H6P Chipformer
0.24
Main Chipformers for Positive Clearance Inserts
PF Chipformer
Super finishing and
finishing applications,
mainly on positive inserts.
Feed range: 0.03-0.20 mm/rev.
DOC 0.25-3.0 mm.
SM Chipformer
Finishing and boring applications.
Feed range: 0.06-0.25 mm/rev.
DOC 0.5-2.5 mm.
AS Chipformer
For general use machining on
aluminum and soft materials.
26˚
0.65
225 ISOTURN INSERTS
Additional Chipformer for Positive Clearance Inserts
Semi-finishing and finishing.
Medium feeds.
14 Chipformer
19˚
Application Range of Ceramic Inserts According to ISO Standard
Turning Grey and Nodular Cast Iron
K15
K10
K05
K01
K20
S01
Turning Nickel Based High Temperature Alloys
S15
S20
S25
S30
H30
226
H15
H05
H01
Turning Hardened Steel 45-65 HRc Ceramic Cutting Tools
IN11 Al2O3
High Speed Finishing on
Cast Iron and Steel
• Improves toughness and wear resistance
• ZrO2 additive
• Good for high speed turning
on steel and cast iron
IN22 Al2O3-TiCN
Turning of Hardened Steel and
Difficult-to-Cut Material
IS6 SiAlON
• High speed roughing and finish
machining on cast iron
• Higher cutting speeds,
when compared to SiN
based ceramic grades
• Can be used for both wet
and dry machining
• Suitable for turning automotive
parts such as brake drums,
brake disks, etc.
• High productivity in rough turning
on steel mill rolls composed
of high-Cr steel, HSS (High
Speed Steel) and adamite
Application Range for Machining Cast Iron
Cutting
Speed
• High speed machining of steel, tool steel, hardened
steel, chilled cast iron, high chromium steel, etc.
• Suitable for light roughing-to-finishing of cast iron
Feed
IN23 Al2O3-TiC
Medium-to-Finishing Cutting
on Cast Iron
• Light interrupted turning on grey cast
iron and nodular cast iron
• Milling with finishing conditions on grey cast iron
IS8 Si3N4
Turning and Milling of
Grey Cast Iron
• Roughing and interrupted (1) cutting on cast iron
• Machining on nodular cast iron and superalloy
Coolant is not recommended for interrupted cutting.
227 ISOTURN INSERTS
IS80 CVD Coated Si3N4
High Speed Rough Turning
on Grey Cast Iron
• Multi-layered coating on IS8 matrix
IW7 AL2O3+Sic Whiskers
Main Advantages
• High hardness (Hv 2,100)
• High fracture toughness due to SiC (silicon
carbide) whisker reinforced ceramics
• Excellent thermal shock resistance, which enables
using coolant and interrupted cut machining
• Excellent for roughing and semi-finishing
operations at 8-10 times faster cutting speeds
when compared with carbide grades
• Good oxidation resistance due to its alumina substrate
Cutting Speed
(m/min)
450
IS9 Si3N4
Turning Nickel
Based Alloys
• Very tough Si3N4
ceramic grade with high
cutting edge stability
• Machining on nickel
based high temprature
alloys, in roughing to
finishing applications
• Honing is the standard
edge preparation
228
0.30
Feed mm/rev ISO-H
Hard Materials Turning
IB10H (fine grain 0.5µm)
Uncoated, fine grain PCBN grade.
Application
Used at medium cutting speed, continuous
or light interrupted cut on hardened steels.
Provides excellent surface finish.
Workpiece hardness range: 50-65 HRc.
CBN Content
53.5%
Binder
TiN-Al
65%
75%
Uncoated, general purpose PCBN grade. Good balance
between wear and impact resistance. Composed
of both fine and medium CBN grain sizes.
Continuous to medium interrupted
cut on hardened steel.
TiN coated, PCBN grade with excellent wear
resistance. Composed of very fine grain CBN.
Medium to high speed, continuous
machining on hardened steel.
Ti (C, N, O) coated grade, composed
of medium CBN grain.
High speed, continuous to light
interrupted machining.
Ti (C,N,O) coated grade composed of medium CBN grain.
General purpose machining on hardened steel.
229 ISOTURN INSERTS
ISO-S
Super fine, CBN grain with a very high CBN content.
Turning on ferrous sintered metals.
95%
Co-Al-WC
A very high CBN content grade, featuring high hardness.
Turning on ferrous sintered metals such as
valve seats and Ti alloys components.
CBN Inserts
• Suitable for difficult-to-cut materials such as
sintered metal, hardened steel and super alloys.
• Saves machining costs and shortens the work
cycle by enabling machining of hardened steel.
• Provides an excellent surface finish.
Cubic Boron Nitride
Tungsten Carbide
ISCAR’s CBN upgrade supports the worldwide
increase in demand for CBN tipped inserts.
ISCAR features 7 CBN (Cubic Boron Nitride) grades
for two main workpiece material groups:
For hardened steel:
ISO-H: IB10H, IB20H, IB10HC, IB25HC, IB25HA
For high temperature alloys:
ISO-S: IB05S, IB10S
230
• Significant improvement in productivity by high
speed machining on hardened steel.
• Capable of high speed cutting of cast iron. CBN Grades
Grades & Applications for Hardened Steel
Material
Wear
Resistance
ISO-H
Hardened
Steels
New
Grade
Composition
(% CBN)
53.5
Excellent surface finish. Super
fine grain. Continuous cut.
65
Composed of both fine and medium
CBN grains. General-purpose grade for
continuous to light interrupted machining.
Finishing on hardened steel
(45 - 65 HRc) and nodular cast
iron. Continuous cutting.
Features and Applications
Semi-finishing on hardened steel
iron. Interrupted cutting.
TiN coated grade very fine CBN grain.
High speed continuous machining.
Ti (C, N, O) coated CBN grade.
High speed continuous to
Ti (C, N) coated CBN grade.
High toughness. General purpose
coated grade. Available with two
types of chipbreakers (HF, HM).
Toughness
COATED
Grades & Applications for Cast Iron
ISCAR New
ISO-K
Cast
Iron &
Metal
85
Hardened steel and cast iron
(>45 HRc). Grey cast iron and
nodular cast irons. Powdered
metal/sintered iron. Super alloys/
heat resistant alloys. Sintered
tungsten carbide >17% Co. High
speed cutting of cast iron.
High speed cutting on cast
iron, cutting cemented
tungsten carbide, sintered
metal and super alloy.
Grades & Applications for High Temperature Alloys
Exotic
Materials
Super fine grain CBN for
machining ferrous sintered metals.
For machining valve seats,
sintered metals and Ti alloys.
Cutting cemented tungsten
carbide, sintered metal
and super alloy.
231 ISOTURN INSERTS
Edge Preparation and Recommended Applications
T-Land Sizes for Standard Items
T (mm)
20°
F• For finishing and
super finishing
r0.03-0.04
α°
E• For semi-finishing and
T• For semi-roughing and
finishing
f < 0.2 mm/rev
S• For heavy roughing
roughing
f > 0.2 mm/rev
and interrupted
cutting
Silicon Nitride for Cast Iron
What is ISCANITE?
Which material can ISCANITE machine?
ISCANITE is primarily used on cast iron and high
temperature alloys, brass and composites. Steel
is the only material usually avoided because
of various chemical incompatibilities.
ISCANITE Benefits
ISCANITE will increase your productivity, reduce your
machining costs and can drastically reduce tool forces.
ISCANITE increases productivity through additional metal
removal rates and can fully utilize a machine’s potential.
Machining costs are reduced with increased tool life,
along with less downtime for indexing, gauging, and
adjustments.
Cutting Speed and Cutting Force
It is preferable to machine at higher cutting speeds and
lower cutting forces (Point A is preferred over Point B.)
In this case, pressure is reduced on the workpiece and
any tendency of the workpiece to move or vibrate.
If the available machine power is higher, or the machine
can be stepped up. The use of higher cutting speeds of
750 m/min is possible, with the same cutting force as at
Point B. (See Point C.) The positive influence of cutting
speed and feed on machining conditions: higher cutting
speeds are recommended and possible for silicon
nitride inserts.
232
6000
5000
Cutting Force Fc
ISCANITE is a cutting tool material containing over
90 percent silicon nitride. ISCANITE is produced by
unique hot pressing methods to achieve full density,
and provides superior toughness along with high
thermal-shock resistance. These characteristics make
ISCANITE an ideal cutting tool material with impact
resistance near that of coated carbides, and the heat
and wear resistance of aluminum-oxide ceramics.
4000
75kW
3000
37kW
2000
18.75kW
7.5kW
1000
150 300
450 600
750 900 1050 1200 1350 1500
Cutting Speed Vc m/min For the following grades: IB10HC, IB10H, IB20H, IB25HC, IB25HA, IB05S, IB10S.
Existing
New Edge Preparation Program
0.13
T• For continuous and
S• For high
surface finish
Chip Breaking Area for Hardened Steel
F• For finishing at
M• For medium,
R• For light to heavy
continuous cut
Depth of cut [mm]
interrupted cut
continuous up to
light interrupted cut
New Edge Preparations
interrupted cutrough machining
Feed rate [mm/rev]
New Innovative Chipbreakers for Hardened Steel
CBN inserts with two types of chipbreakers: HF and HM
Chipbreakers
HF Type
Existing Method
No chip control
suitable for
long linear cuts
Excellent chip control at
small depths of cut
HM Type
Used for large depth of cut
When turning hard materials, long and
tangled chips are produced.
The HF or HM chipformers provide excellent
chip control at various depths of cut.
PCD Inserts
• Excellent surface finishing on aluminum,
nonferrous metals and non-metal materials.
• Longer tool life in high speed machining, due to high
wear resistance and excellent thermal conductivity.
Tungsten
Carbide
Polycrystalline
Diamond
Note: Not for use on steel or cast iron
Grades and Application
Diamond Size
Feature and Application
High Cobalt
8-9 µm
Suitable for Al alloy (Si < 12%), Cu alloy General purpose cutting of nonferrous metal
Recommended Cutting Condition Turning
Workpiece
Cutting Speed (m/min)
Feed (mm/rev)
Depth of Cut (mm)
Al alloy (4-9% Si)
Al alloy (9-14% Si)
Cu alloy
800-2500
600-1280
600-1000
0.1-0.3
0.05-0.2
0.05-3.0
233 ISOTURN INSERTS
Cutting Parameters and Application Recommendations
Machining Areas of ISO-H Grades
Continuous Cut
Edge
Preparation
Interrupted Cut
Vc [m/min]
300
Bearing Steel
(58-65 HRc)
Case
Hardenend
Steel (55-62
HRc)
High Tensile
Steel (45-56
234
Feed rate [mm/rev] Continuous Cut
High Speed
(58-66 HRc)
Hot Work Tool
(45-56 HRc)
Cold Work Tool
(55-64 HRc)
Machining Areas of ISO-S Grades
Sintered Metal
(45-68 HRc)
235 ISOTURN INSERTS
Machining Data for Turning
Non-alloy steel and cast steel, free cutting
steel
420
Annealed
650
< 0.55 %C
Quench and temper
850
>= 0.55 %C
750
Low alloy steel and cast steel
(less than 5% all element)
Stainless steel
275
1200
350
680
1100
325
Ferritic/martensitic
Martensitic
820
Condition
Tensile Strength
Rm [N/mm2=MPa]
Hardness
HB
No.
Austenitic
600
Pearlitic/ferritic
Pearlitic/martensitic
260
Ductile cast iron (nodular)
Ferritic
17
(GGG)
Pearlitic
<=12% Si
Not cureable
21
cured
23
High temp.
Free cutting
Brass
Electrolitic copper
Duroplastics, fiber plastics
29
hard rubber
31
Cured
280
Fe based
Ni or Co based
Ti alloys
Hardened steel
Chilled cast iron
Cast iron
236
Rm 400
Alpha+beta alloys cured
Rm 1050
37
Titanium
>1% Pb
Non-metallic
Super alloys
>12% Si
Copper alloys
High temp. alloys
Aluminum - cast, alloyed
930
Quench and tempered
Aluminum - wrought alloy
Malleable cast iron
< 0.25 %C
Grey cast iron (GG)
>= 0.25 %C
High alloyed steel, cast steel and tool steel
55 HRC
60 HRC
39
400
41 Cutting Speed
Cermet
Cermet+PVD
Carbide +PVD
Carbide+CVD
IC3028/830
IC5005/428
250-400
230-380
250-420
230-400
120-200
280-420
300-450
220-350
200-330
220-380
200-350
100-170
200-340
240-380
260-400
180-320
160-300
180-350
160-320
80-150
170-300
220-360
210-340
190-320
210-370
190-340
90-160
140-280
160-330
140-300
80-130
160-280
150-280
170-330
150-300
70-130
200-320
220-340
160-250
140-230
140-250
60-120
190-300
210-320
150-220
130-200
150-250
130-230
50-100
120-220
180-280
200-300
180-300
180-330
170-280
IC807/907
Carbide+PVD
IC808/908
100-200
90-200
50-120
IC5010/
IC5005/ 428
4028
120-180
Ceramics
+CVD
150-400
500-900
80-300
IB90/85
120-240
100-350
50-250
350-700
300-600
250-350
300-800
500-1200
300-1000
400-1000
500-12000
250-500
200-600
200-500
250-800
350-500
PCD
1000-2500
600-2500
250-600
180-400
600-800
40-55
35-45
30-45
25-35
30-40
25-30
65 - 105
50-80
20-30
15-25
50 - 90
40 - 85
100-160
50-60
40-65
45-60
20-25
40-70
10-20
30-65
30-50
80-160
150-200
130-160
30-60
Whiskers
200-400
150-350
100-250
150-450
+PVD
IB50/55
IB85/90
50-150
60 - 170
40-120
100-220
100-140
80-140
40-100
60 - 140
80-120
30-200
30 - 230
70-150
60-100
237 ISOTURN INSERTS
Key Points for Turning with CBN
Benefits of using CBN inserts
1 Can replace grinding operations, which
reduces machining costs.
2 Dimensional stability, which is especially important in mass
production. Minimizes the amount of scrapped parts.
3 “Green” approach, due to minimized usage of coolant.
There are a few guidelines to follow to achieve the best
results and high productivity when machining
hard materials:
• CBN is characterized by hardness of 4500 HV.
The high hardness of CBN enables it to machine
hard materials at high speeds and feeds.
• Successful HPT (Hard Part Turning) demands
not only suitable cutting tools, but also the right
conditions, preparation and environment.
• HPT begins with a correct “soft” state machining design
that will create the best possible conditions for HPT.
The “soft” state (around 20-40 HRc) is the
state in which the workpiece material is yet
to be hardened to its final hardness.
Important points when planning the
“soft” machining process:
Avoid burrs
Keep close dimensional tolerances
Do not enter or exit a cut suddenly
Enter and exit by planning radius movements
Use wiper inserts to achieve superior surface finish
Do not leave sharp corners (round or chamfer)
Machine stability, rigidity and thermal stability are
vital conditions for producing a high quality finished
part. The better the stability of the overall machine
concept, the closer the tolerances will be achieved.
• Clamping the workpiece with sufficient force will prevent
its movement and improve surface finish. Make sure that
you employ wide clamping jaws which offer better grip on
the workpiece, compared to ordinary three point jaws.
• Using tailstock in long parts will add even more
stability and rigidity to the machining process.
Rounding and chamfering at the ”soft” state
238
Rigid clamping of the workpiece and toolholder
• Large cross section tools further add to system rigidity.
• Coolant - Generally, do not use coolant when machining
hard materials. CBN inserts tolerate high cutting
temperatures, and therefore have no need for coolant.
Avoiding coolant is more economical, environmentally
friendly and better because as the material heats up
during the turning process, it becomes slightly softer
and easier to machine. However, there may be some
applications that require using coolant: in cases of
continuous turning when high surface finish is required.
Use tailstock in long parts Complete Machining Solutions
GROOVE-TURN
START GROOVE TURN
TABLE OF CONTENTS
GROOVE-TURN 239
Selection Guide . 242
External Tools and Inserts
HELI-GRIP Tools and Inserts . 249
TOP-GRIP Tools and Inserts 256
CUT-GRIP Tools and Inserts . 258
Tools, Adapters and Blades (short pocket) .
258
Tools, Adapters and Blades (long pocket) .
268
Utility Inserts .
271
Precision Ground Inserts
Inserts for Specific Applications and Materials
Cast Iron
282
Hardened Steel
283
High Temperature Alloys .
284
Aluminum .
Next to Shoulder
286
Undercutting .
287
Pulley V Grooves
288
T/L Grooves
289
GDMW Tools and Inserts
293
Multi-Corner Grooving Tools and Inserts
PENTACUT (5 cutting edges) .
295
GTGA (3 cutting edges)
311
Tools and Inserts for Heavy Duty Grooving and Turning . 313
ISCAR 323
329
338
339
GROOVE TURN
Internal Tools and Inserts
CUT-GRIP Boring Bars Dmin 12.5 mm (GEPI inserts) .
CUT-GRIP Boring Bars Dmin 20 mm (GIPI/GIFI/GINI inserts)
TOP-GRIP Boring Bars Dmin 20.5 mm
HELI-GRIP Boring Bars Dmin 26 mm .
CUT-GRIP Boring Bars Dmin 64 mm (GDMY/F/N 8 mm inserts)
CUT-GRIP Blades Dmin 70 mm
Tools for Swiss-Type and Small Lathe Machines
SWISSCUT 347
CUT-GRIP 356
Internal Boring Bars and Inserts
PICCO (Dmin 0.6 mm) .
MINICHAM (Dmin 4 mm)
MINCUT (Dmin 8 mm)
CHAMGROOVE (Dmin 8 mm)
359
372
374
375
Form Tools 343
Broaching Tools . 401
Tools for Machining Aluminum Wheels 405
USER GUIDE . 380
PARTING . 417
FACE GROOVING AND TURNING . 533
TOOL BLOCKS . 585
EXCHANGEABLE HEAD HOLDERS 589
241 GROOVE TURN
SELECTION GUIDE
Information to Select the Correct Insert
ISCAR has an extensive variety of Groove-Turn products.
In many cases, you can perform your operation by
using several different products. In order to make
the optimal selection, these basic parameters need
to be defined:
Insert width [CW]
Necessary tolerance on the insert
Maximum depth of grooving [CDX]
Application requirement grooving and
turning, or only grooving (E-Type or not)
According to these parameters:
• Select the most suitable product
according to the tables on pages 243-244
• Select the most suitable chipformer
according to the information on pages 245-247
Utility Inserts
Precision Grooving Inserts
Pressed to Size Inserts
Peripheral Ground Inserts
Width
± 0.05
± 0.02
Repeatability
± 0.10
± 0.025
CW±0.05
CW
CW±0.02
If you don’t need the tight tolerance, save money
and select a utility insert (less expensive).
What is an E-type Groove-Turn Insert?
E-type inserts are precision ground grooving
inserts with turning capability.
These inserts include the letter E in their description.
(example: GIP 3.00E-0.4). This is to distinguish
them from precision ground inserts which are not
suitable for turning operations and don’t include an
E in their description. (example: GIP 3.00-0.2)
• E-type inserts usually have a larger corner radius
• E-type inserts have a larger honing size
242
Precision
Grooving
E-Type
Groove-Turn
CW External Groove-Turn Insert Type
HEAVY DUTY
Number of
Cutting Edges
Utility
Option for Turning
Precision Ground
Properties
CW range
CDX
Page
PENTACUT
Size 17
0.25-3.18
295-297
Size 24
0.5-4.23
1-6.5
303-309
Size 34
1.5-4.0
5-10
310-311
HELI-GRIP
3-6.35
No depth limit
254-255
TOP-GRIP
10.5-18.6
257-258
Short Pocket
3-12
271-275
0.5-11.0
13**
276-287
Long Pocket
8.0-11.0
SUMO-GRIP
6-14
319
TIGER
315, 320
*
* Not on all the products
** On most items
243 Internal Groove-Turn Insert Type
PICCO/
MG PCO
PICCO
2.0-7.0
0.4-2.5
0.5-2
362-372
MG/MGCH
GIQR 8
0.7-1.5
0.5-4
376, 378-379
GIQR 11
1.5-2.3
0.75-5
377
MGCH
GIQR 11-15
1-3
378
GEHIR/L
GEPI/
GEMI
12.5-16
2.4-3.0
1-3.18
326-329
GHIR/L
GIFI/GIPI/
GINI/GIMIY
20-49
2.5-8.0
1.53-6.35
322-327
TGIR/L
TGMF
20.5-57
5.5-17.5
HELIIR/L
GRIP
26-53
5-12
GHIR/L 40-8
GDMF/
GDMY/
GDMN .
15-20
8-11
271-277
GHIC/CGHN
GIP/GIF/
GIMN/GIMF/
GIA .
70-250
10-26
2.8-6.35
271-287
Tool
244
SELECTION GUIDE Chipbreaker Selection
T-Type
• Optimal performance in wide range of materials
and cutting conditions
• High efficiency in full grooving, partial
grooving and turning applications
• Utility inserts only
• Width range
External: 2.39 - 6.35 mm
General Use
P-Type
Very “open” geometry
Medium to high feed in turning and grooving
Large variety of standard sizes
Precision ground inserts only
Width range
Internal: 2.39 - 6.35 mm
First choice in grooving
Low to medium feeds in grooving and turning
Both precision ground and utility inserts
External: 3.0 - 10 mm
Internal: 3 - 6 mm
F-Type
G-Type
• Efficient chipbreaker for narrow
width grooves
• Width range: 1 - 2.3 mm
• No option for turning
Y-Type
General use in grooving and turning
Positive top rake reduces cutting forces
Excellent for long shafts
Eliminates vibrations
External: 8 - 20 mm
HG-Y-Type
• General use in grooving and turning
• Efficient for a wide range of materials
External: 3 - 6.35 mm
Internal: 3 - 6.35 mm
245 GROOVE TURN
Chipbreaker Selection
Problematic and Specific Materials
N-Type
• First choice in grooving of problematic,
soft & gummy materials
• Very low to medium feeds
(from 0.05 mm/rev)
• Both precision ground and utility inserts
• Option for turning
External: 3 - 8 mm
Internal: 2 - 5 mm
M-Type
• Unique chipbreaker with splitter
Chips are split into 3 segments
• Efficient for problematic,
• Option for light turning
• Width - 8 mm
A-Type
• First choice for machining cast Iron
• Peripheral 15° T-land on a flat top
• Exerts high cutting forces, therefore
suitable for stable conditions
• Precision ground inserts only
PA-Type
• First choice for machining aluminum
• High positive rake
• Peripheral ground and polished top rake
with a very sharp edge
• Suitable also for finish operations on
CW-Type
• Unique chipformer for heavy-duty grooving
• Very wide chipbreaking range on carbon
and alloy steel
• Width range 14, 17 and 20 mm
246
ISCAR Chipbreaker Selection
Profiling (Full radius)
First choice in profiling
External: 3 - 12 mm
Internal: 2 - 3 mm
YF-Type
• First choice for profiling
ductile materials
• First choice for profiling aluminum
• Peripheral ground and polished top
rake with a very sharp edge
YZ-Type
• First choice for profiling ductile aluminum
H-Type
• Unique chipbreaker for heavy-duty profiling
• Negative T-land for extra edge toughness
• Suitable for heavy interrupted cuts and
cast iron machining
• Width - 12 mm
247 GROOVE TURN
Chipbreaker Width Range
External
3.48
2.39
HG-Y
PA
Internal
Suitable Chipbreaker and Required Feed Range for Workpiece Material
High
Alloy Steel
Austenitic Stainless High Temp. Alloys
Nonferrous
PA*
A*
PA (finish only)
T*
Low
* First Choice
248
HG
F C#-HELIR/L
External Tools for Turning,
Grooving and Parting with
CUTDIA
CWN-CWX
Left-hand shown
C4 HELIR/L 3T20
C4 HELIR/L 4T25
C5 HELIR/L 3T20
C5 HELIR/L 4T25
C5 HELIR/L 5T25
C6 HELIR/L 3T20
C6 HELIR/L 4T25
C6 HELIR/L 5T25
C6 HELIR/L 6T30
CWN(1)
CWX(2)
CUTDIA(3)
19.60
25.30
24.90
24.40
31.80
31.40
30.90
30.40
GRIP 3, HGN 3
GRIP 4, DGN 4
GRIP 5, DGN 5
GRIP 6, DGN 6
SR M6X16 DIN912
• The depth of cut (CDX) for grooving is limited by the part diameter CUTDIA, for grooving depth capacity, see table below
(2) Maximum cutting width
(3) Maximum parting diameter
For inserts, see pages: GRIP (254) • GRIP (full radius) (255) • DGN/DGNC/DGNM-C (438) • HGN-C (445) • DGR/L-C DGRC/LC-C (439) • DGN/DGNM-J/JS/JT (440) •
HGN-J (446) • HGR/L-C (445) • HGR/L-J/JS (446) • DGR/L-J/JS (441) • DGN-MF (442) • DGN-UT/UA (443) • DGN-W (439) • HGN-UT (446)
Grooving Depth Capacity
∞ ∞ ∞ ∞ 1151
∞ ∞ ∞ ∞ ∞
∞ ∞ ∞ 1277 426
∞ 787 394 264 199
384
231
167
131
109
257
185
145
103
161
136 118
1957 653
105
393
91
1301
87
282 221
∞
83
1127
434
81
1879
—
376
261
627
227
137
163
111
107
99
249 GROOVE TURN
HELIR/L
External Holders for Turning,
Grooving and Parting
WB
CDX WF
HELIR/L 1212-3T12
HELIR/L 1616-3T12
HELIR/L 2020-3T12
HELIR/L 2525-3T12
HELIR/L 1616-4T12
HELIR/L 2020-4T12
HELIR/L 2525-4T12
HELIR/L 2020-5T12
HELIR/L 2525-5T12
HELIR/L 2525-6T12
HELIR/L 1616-3T20 (1)
HELIR/L 2020-3T20 (1)
HELIR/L 2525-3T20 (1)
HELIR/L 3232-3T20 (1)
HELIR/L 1616-4T20
HELIR/L 2020-4T25
HELIR/L 2525-4T25
HELIR/L 3232-4T25
HELIR/L 2020-5T25
HELIR/L 2525-5T25
HELIR/L 3232-5T25
HELIR/L 2525-6T30
HELIR/L 3232-6T30
CDX(2)
CWN(3)
CWX(4)
CUTDIA(5)
10.80
14.80
18.80
23.80
18.40
17.90
22.90
22.40
30.80
29.90
29.40
135.00
51.4
GRIP-3 ., HG.-3
GRIP-4 ., DG.-4
GRIP-5 ., DG.-5
GRIP-6 ., DG.-6
• For tool type as shown in Fig.2, CDX for grooving is limited by the part diameter CUTDIA, for grooving depth capacity, see table below • For user guide, see pages 380-395
(1) DGN inserts are not suitable for this tool
(2) Does not depend on the workpiece diameter
(3) Minimum cutting width
(4) Maximum cutting width
(5) Maximum parting diameter
HELIR/L 1616-3T20
HELIL 2020-3T20
HELIR 2020-3T20
HELIR/L 2525-3T20
HELIR/L 3232-3T20
HELIL 2020-5T25
HELIR 2020-5T25
SR M5X16 DIN912
SR M6X20 DIN912
Depth Capacity
HELIR/L 2020-3T20
HELIR/L 2020-4T20
HELIR/L 2525-4T20
HELIR/L 3232-4T20
HELIR/L 2020-5T20
HELIR/L 2525-5T20
HELIR/L 3232-5T20
HELIR/L 2525-6T20
HELIR/L 3232-6T20
∞ ∞ ∞
∞ 604 261
∞ ∞ 194 80
∞ 299 123 80
815 229 136 99
169 127 103 89
∞ ∞ 505 132
∞ 626 270
6.5 8.0 10.0 12.0 14.0 16.0 18.0
–
79
98 –
∞ ∞
368 233
175 149
∞ ∞ ∞ 354 135 98
∞ 1718 345 194 121 98
20.0 21.0 23.0 25.0 28.0 30.0 HGPAD
OHN WF(assembly)
WF(holder)
Adapters for Turning,
HOLDER: MAHL
WF (adapter)
WB CWN-CWX
Left-hand shown • WF(assembly)=WF(holder)+WF(adapter)
HGPAD 3R/L-T12
HGPAD 3R/L-T20
HGPAD 4L-T12
HGPAD 4L-T20
HGPAD 5L-T12
HGPAD 5L-T20
HGPAD 6L-T12
HGPAD 6R/L-T22
CDX(3)
OHN(4)
WF(5)
18.7
23.2
39.70
45.70
43.20
47.70
HOLDER:
MAHPR
• DO-GRIP DGN, HGN inserts can be used for grooving only • For user guide, see pages 380-395
(3) Cutting depth maximum
(4) Minimum overhang
(5) WF(adapter)
LPR
HGPAD-JHP
Adapters with High Pressure
Coolant Channels Carrying
HELI-GRIP Inserts
HGPAD 3R/L-T20-JHP
HGPAD 4L-T20-JHP
HGPAD 5L-T20-JHP
HGPAD 6R/L-T22-JHP
WF(assembly)=WF(holder)+WF(adapter)
5.95
5.55
5.10
4.60
• For user guide and accessories, see pages 380-400
For inserts, see pages: DGN-MF (442) • GRIP (254) • GRIP (full radius) (255) • DGN/DGNC/DGNM-C (438) • HGN-C (445) • DGN/DGNM-J/JS/JT (440) • HGN-J (446) •
HGR/L-C (445) • HGR/L-J/JS (446) • DGN-UT/UA (443) • HGN-UT (446) • DGN-W (439)
For holders, see pages: C#-MAHD-JHP (593) • C#-MAHPD-JHP (593) • MAHR/L-JHP-MC (263) • MAHPR/L-JHP (264) • MAHR/L-JHP (263)
Flow Rate vs. Pressure
HGPAD 4R/L-T20-JHP
HGPAD 5R/L-T20-JHP
Flow Rate (liters/min)
5-7
9-11
11-13
16-18
6-8
10-12
12-14
7-9
13-15
19-21
HGFH
Parting and Grooving Blades
for 3 mm GRIP Inserts
150°
HGFH 26-3
HGFH 32-3
100.0
EDG 23B*
Maximum overhang
For inserts, see pages: GRIP (254) • GRIP (full radius) (255) • HGN-C (445) • HGR/L-C (445) • HGN-J (446) • HGN-UT (446) • HGR/L-J/JS (446)
For holders, see pages: C#-TBK-R/L (591) • HSK A-WH-TBK-R/L (598) • SGTBF (587) • SGTBR/L (587) • SGTBU/SGTBN (586) • UBHCR/L (587)
251 GROOVE TURN
with and without Coolant
Channels Carrying DO-GRIP
and HELI-GRIP Inserts
DGFH 26-1.4
DGFH 26-2 (1)
DGFH 26-3 (1)
DGFH 26C-3 (2)
DGFH 26-4
DGFH 32-1.4
DGFH 32-2 (1)
DGFH 32-3 (1)
DGFH 32C-3 (2)
DGFH 32-4
DGFH 32C-4 (3)
DGFH 32-5
DGFH 32-6
DGFH 45-3
DGFH 45-4
DGFH 45-5
DGFH 45-6
DGFH
DGFH-C
CWN(4)
CWX(5)
1.40
1.90 (6)
3.00 (6)
4.10
2.50 (7)
1.80
225.00
39.0 (8)
69.0
160.0
DG. 14
DG. 1 ./DG. 2 .
DG. 1 ./DG. 3 .
DGNC/DGRC/DGLC 3 .
DG. 4 ./GRIP 4 .
DG. 14
DGNC/DGRC/DGLC 4 .
DG. 5 ./GRIP 5 .
DG. 6 ./GRIP 6 .
• DG 1.0 insert can be mounted into pocket sizes 2 and 3, in which case the pocket width has to be modified • For user guide, see pages 380-395
(1) For CUTDIA 50 mm, use single-ended insert (should be modified by the user)
(2) Blades with frontal coolant holes (JET-CUT)
• For CUTDIA 50 mm, use single-ended insert (should be modified by the user)
(3) These blades are suitable for turning, using GRIP 4 inserts • Blades with frontal coolant holes (JET-CUT)
(4) Minimum cutting width
(5) Maximum cutting width
(6) For DG. 1 . insert, modify holder
(7) Thickness at the D.O.C. area is 1.0 mm
(8) Maximum diameter with double-sided inserts.
For inserts, see pages: DGN-LF/LFT (441) • DGN-MF (442) • DGN/DGNC/DGNM-C (438) • DGR/L-C DGRC/LC-C (439) • DGN/DGNM-J/JS/JT (440) • DGR/L-J/JS (441)
• DGN-P (444) • DGN-UT/UA (443) • DGN-W (439) • DGN-WP (444) • DGN-Z (442) • DGR-P (444) • DGR-WP (445) • DGR-Z/ZS (443) • GRIP (254)
• GRIP (full radius) (255)
For holders, see pages: C#-TBK-R/L (591) • HSK A-WH-TBK-R/L (598) • SGTBF (587) • SGTBK (587) • SGTBR/L (587) • SGTBU/SGTBN (586) • UBHCR/L (587)
DGFH 26-2
DGFH 26-3
DGFH 26C-3
DGFH 32-2
DGFH 32-3
DGFH 32C-3
DGFH 32C-4
EDG 23A*
EDG 33A*
252
SGC 340
SGCU 341*
CGF 343*
CF 343*
CGM 343*
CGM 343* Max.
Min.
with Channels for Low and
Carrying DO-GRIP Inserts
Max.
DGFH 32-2-JHP (1)
DGFH 32-3-JHP
DGFH 32-4-JHP
DGFH 32-5-JHP
DGFH 32-6-JHP (1)
CWN(2)
CWX(3)
1.90 (4)
3.00 (4)
152.00
160.00
24.9
DG. 1 ./DG. 3 . SR M2.0X2.5DIN916
DG. 4 ./GRIP 4 . SR M2.0X2.5DIN916
DG. 5 ./GRIP 5 . SR M2.0X2.5DIN916
EDG 33A-JHP*
DGFH-JHP
(1) Only an upper channel
(2) Minimum cutting width
(3) Maximum cutting width
(4) For DG. 1 . insert, modify holder
For inserts, see pages: DGN-LF/LFT (441) • DGN-MF (442) • DGN-P (444) • DGN-UT/UA (443) • DGN-W (439) • DGN-WP (444) • DGN-Z (442)
• DGN/DGNC/DGNM-C (438) • DGN/DGNM-J/JS/JT (440) • DGR-P (444) • DGR-WP (445) • DGR-Z/ZS (443) • DGR/L-C DGRC/LC-C (439) • DGR/L-J/JS (441)
• GRIP (254) • GRIP (full radius) (255)
For holders, see pages: TGTBU-JHP (454)
253 Utility Double-Ended
Inserts for External, Internal
and Face Machining
BW
No depth penetration limit
GRIP 3002Y
GRIP 3003Y
GRIP 318-040Y
GRIP 4002Y
GRIP 4004Y
GRIP 476-080Y
GRIP 5005Y
GRIP 5008Y
GRIP 6005Y
GRIP 6008Y
GRIP 635-080Y
CWTOL(1)
RETOL(2)
0.050
3.10
±0.1
•••
••
• •
f turn
f groove
f facegroove
f face-turn
0.25-1.80
0.40-1.80
0.50-1.90
0.25-2.40
0.60-3.60
1.00-3.60
1.00-3.80
0.14-0.18
0.15-0.19
0.17-0.22
0.16-0.21
0.18-0.24
0.21-0.33
0.20-0.30
0.23-0.35
0.22-0.36
0.24-0.42
0.25-0.44
0.07-0.11
0.07-0.12
0.09-0.14
0.09-0.15
0.11-0.20
0.11-0.21
0.13-0.23
0.13-0.25
0.14-0.27
0.10-0.24
0.12-0.24
0.12-0.28
• For cutting speed recommendations and user guide, see pages 380-395
(1) Cutting width tolerance (+/-)
(2) Corner radius tolerance (+/-)
For tools, see pages: C#-HELIR/L (249) • C#-HFIR/L-MC (555) • CR HFIR-M (557) • D/HGAD RE/LE-JHP (437) • DGAD/HGAD (436) • DGFH (252) • DGFH-JHP (253)
• DGFS (427) • DGTR/L (433) • HELIIR/L (339) • HELIR/L (250) • HFAER/L-4 (551) • HFAER/L-5T, 6T (552) • HFAIR/L-4 (554) • HFAIR/L-DG (555) • HFFR/L-T (550) •
HFHR/L-4T (548) • HFHR/L-5T (548) • HFIR/L-MC (556) • HFPAD-3 (549) • HFPAD-4 (549) • HFPAD-5 (550) • HFPAD-6 (550) • HGAER/L-3 (551) • HGAIR/L-3 (554) •
HGFH (251) • HGHR/L-3 (547) • HGPAD (251) • HGPAD-JHP (251) • IM-HFIR-MC (556)
The Twisted Insert
for Face Machining
The double-ended, twisted insert body makes
it possible to machine deeper than the inserts’
length. A unique chipformer for controlled chip
flow in axial and radial directions.
The rear angle is slanted in relation to the frontal
edge so it does not come into contact with the
machined groove surface as the tool penetrates
deeply into the workpiece.
254
ISCAR INSL
Utility Double-Ended Full
Radius Inserts for External,
Internal and Face Machining
CW RE CWTOL(1) RETOL(2) INSL BW
1.50
2.10
GRIP 3015Y
GRIP 318-159Y
GRIP 4020Y
GRIP 476-238Y
GRIP 5025Y
GRIP 6030Y
GRIP 635-318Y
• • • •
• • • • •
f face-groove
0.00-1.50
0.00-2.00
0.00-2.30
0.00-2.50
0.00-3.00
0.00-3.10
0.18-0.26
0.19-0.28
0.20-0.34
0.21-0.40
0.23-0.42
0.24-0.50
0.25-0.53
0.07-0.13
0.09-0.17
GRIP (full radius)
HFHR/L-4T (548) • HFHR/L-5T (548) • HFHR/L-6T (549) • HFIR/L-MC (556) • HFPAD-3 (549) • HFPAD-4 (549) • HFPAD-5 (550) • HFPAD-6 (550) • HGAER/L-3 (551) •
HGAIR/L-3 (554) • HGFH (251) • HGHR/L-3 (547) • HGPAD (251) • HGPAD-JHP (251) • IM-HFIR-MC (556)
TGDR/L
Grooving and Profiling
TGDR/L 1616-3M
TGDR/L 2020-3M
TGDR/L 2525-3M
TGDR/L 1616-4M
TGDR/L 2020-4M
TGDR/L 2525-4M
TGDR/L 2525-5M
TGDR/L 3232-5M
TGDR/L 2525-6M
TGDR/L 3232-6M
30.5
32.2
18.70
23.70
14.20
18.20
23.20
22.70
29.80
TGMF 3
TGMF 4/TGMF 5
TGMF 5
TGMF 6
SR M5X12 DIN912
SR M6X12 DIN912
• For user guide, see pages 380-395
(3) Grooving depth is limited by the insert
255 GROOVE TURN
HOLDER: MAHPR
TGPAD
Adapters Carrying TGMF /
TGMP Groove-Turn Inserts
TGPAD 3R/L-T9
TGPAD 4R/L-T16
TGPAD 5L-T16
TGPAD 6R/L-T22
WF(assembly)
OHN
WB_2 WB
WF(4)
OHN(5)
37.20
41.70
47.10
(4) WF(adapter)
(5) Minimum overhang
TGPAD-JHP
Adapters with Channels for High
Pressure Coolant Carrying TGMF
/ TGMP Groove-Turn Inserts
TGPAD 3R/L-T9-JHP
TGPAD 4R/L-T16-JHP
TGPAD 5L-T16-JHP
TGPAD 6R/L-T22-JHP
• For user guide, see pages 380-400
TGPAD 5R/L-T16-JHP
Flow Rate
(liters/min)
11-17
27-33
30-35
17-23
25-31
33-39
35-41
31-34
39-43
41-44
OHN-OHX
TGHN-D
Double-Ended Blades
Carrying Utility Inserts for
Grooving and Turning
HF H
TGHN 26-3D
TGHN 26-4D
TGHN 26-5D
TGHN 32-3D
TGHN 32-4D
TGHN 32-5D
TGHN 32-6D
OHN(3)
OHX(4)
TGMF 4, TGMF/P 5
TGMF/P 5
• Use the drilled holes on blade for min. and max. overhang • Grooving depth is limited by the insert • For user guide, see pages 380-395
(3) Minimum overhang
(4) Maximum overhang
For inserts, see pages: TGMA (258) • TGMF (full radius) (257) • TGMF/P (257)
For holders, see pages: SGTBU/SGTBN (586) • UBHCR/L (587)
256
ISCAR Single-Ended Blades
TGHN 32-3S
TGHN 32-5S
TGHN 32-6S
48.30
55.70
TGHN-S
For holders, see pages: C#-TBU (591) • IM-TBU (598) • UBHCR/L (587)
TGMF/P
Utility Double-Ended Inserts
for External and Internal
TGMP
RETOL
13.55
17.70
17.80
17.60
22.15
10.30
14.70
14.60
18.60
CWTOL
0.60
TGMF 302
TGMF 304
TGMF 402
TGMF 404
TGMF 508
TGMP 506
TGMF 635-080
0.50-1.80
0.20-2.40
0.75-3.00
0.16-0.20
0.21-0.32
• DMIN for internal application=20.5 mm • For cutting speed recommendations and user guide, see pages 380-395
For tools, see pages: TGDR/L (255) • TGHN 26-M (338) • TGHN-D (256) • TGHN-S (257) • TGIR/L-C (338) • TGPAD (256) • TGPAD-JHP (256)
TGMF (full radius)
Radius Inserts for External and
Internal Grooving and Profiling
17.75
14.90
14.30
18.30
TGMF 315
TGMF 420
TGMF 525
TGMF 630
• Can cut arcs to 250° • DMIN for internal application=20.5 mm • For cutting speed recommendations and user guide, see pages 380-395
257 Utility Double-Ended Inserts for
External and Internal Grooving
and Turning of Cast Iron
TGMA 304K
TGMA 404K
TGMA 408K
TGMA 508K
TGMA 608K
TGMA
1.00-2.40
0.16-0.27
0.18-0.32
0.23-0.40
0.27-0.48
0.09-0.18
0.09-0.19
0.11-0.24
Cutting width tolerance (+/-)
Corner radius tolerance (+/-)
For tools, see pages: TGDR/L (255) • TGHN 26-M (338) • TGHN-D (256) • TGHN-S (257) • TGIR/L-C (338) • TGPAD (256)
GHMR/L
Toolholders for Shallow Radial
and Axial Grooving with Narrow
and Special Profile Inserts
CWX
GHMR/L 12
GHMR/L 16
GHMR 16-3 ST (1)
GHMR/L 20
GHMR/L 25
GHMR/L 32
115.00
78.00
23.50
30.20
SR 76-1021
• Use for recessing: light turning, small depth of cut (ap=0.1-0.5 mm) and small feed (f=0.1 mm/rev) • For user guide, see pages 380-395
(1) For Star and multi-spindle machines
GHMPR/L
GHMPR/L 16
GHMPR/L 20
GHMPR/L 25
Perpendicular Toolholders
for Shallow Radial and Axial
Grooving with Narrow and
Special Profile Inserts
CWX(1)
(1) Maximum cutting width
(2) Cutting depth maximum
HW 5.0 C#-GHDR/L
External Grooving, Turning and
Parting Toolholders with CAMFIX
C4 GHDR/L-3
C5 GHDR/L-3
C6 GHDR/L-3
C4 GHDR/L-4
C5 GHDR/L-4
C6 GHDR/L-4
C5 GHDR/L-5
C6 GHDR/L-5
C6 GHDR/L-8 (1)
8.40
63
SR M5X20DIN912
SR M6X25 DIN912
• When using GPV and TIP inserts, toolholder must be modified according to insert profile to ensure clearance
(1) Used with GIF 8, GIA 8, GIPA 8, GDMM, GIDA, GDMY, GDMF, GDMU inserts
For inserts, see pages: GDMF (271) • GDMM-CC (565) • GDMN (273) • GDMU (273) • GDMY (272) • GDMY (full radius) (274) • GDMY-F (275) • GIA-K (long pocket) (282)
• GIA-K (W=3-6) (282) • GIF (281) • GIF (full radius) (282) • GIF (long pocket) (281) • GIF-E (W=4-6 full radius) (277) • GIF-E (W=4-6) (275) • GIF-E (W=8,10 full radius) (277)
• GIF-E (W=8,10) (276) • GIM-C (473) • GIM-J (473) • GIM-J-RA/LA (474) • GIM-UT (475) • GIM-UT-RA/LA (475) • GIM-W (474) • GIM-W-RA/LA (475) • GIMF (271) •
GIMN (272) • GIMT (271) • GIMY (272) • GIMY (full radius) (273) • GIMY-F (274) • GIP (280) • GIP (full radius) (280) • GIP-E (276) • GIP-E (full radius) (278) • GIP-UN (287)
• GIPA (full radius W=3-6) (285) • GIPA (W=3-6) (284) • GIPA/GIDA 8 (full radius) (286) • GIPM-A46 / GIP-1250 (358) • GIPY (284) • GITM (283) • GITM (full radius) (283) •
GPV (288) • TIP-MT (290) • TIP-P-BSPT (293) • TIP-P-BSW (292) • TIP-P-ISO (291) • TIP-P-NPT (292) • TIP-P-UN (291) • TIP-WT (290)
GHDR/L (short pocket)
WF CDX
GHDR/L 12-3
GHDR/L 16-3
GHDR/L 16-3 ST (1)
GHDR/L 20-3
GHDR/L 25-3
GHDR/L 16-4
GHDR 16-4 ST (1)
GHDR/L 20-4
GHDR/L 25-4
GHDR/L 32-4
GHDR/L 20-5
GHDR/L 25-5
GHDR/L 32-5
GHDR/L 25-6
GHDR/L 25-P8 (2)
GHDR/L 32-P8 (3)
CDX(6)
5.40
24.6
35.7
22.30
21.80
28.80
2.20
SR M8X20 DIN912
• For using TIP and GPV inserts, toolholder seat needs to be modified according to insert profile to ensure clearance. • For user guide, see pages 380-395
(1) For Star and multi-spindle machines.
(2) Used with GIMF, GIMY, GIPY, GIMM, GITM, GPV inserts.
(3) Used with GIMT, GIMN, GIMF, GIMY, GIPY, GIMM,GITM,GPV Inserts
(6) Cutting depth maximum
For inserts, see pages: GIA-K (W=3-6) (282) • GIF (281) • GIF (full radius) (282) • GIF-E (W=4-6 full radius) (277) • GIF-E (W=4-6) (275) • GIG (279) • GIM-C (473) • GIM-J
(473) • GIM-J-RA/LA (474) • GIM-UT (475) • GIM-UT-RA/LA (475) • GIM-W (474) • GIM-W-RA/LA (475) • GIMF (271) • GIMM 8CC (565) • GIMN (272) • GIMT (271) •
GIMY (272) • GIMY (full radius) (273) • GIMY-F (274) • GIP (280) • GIP (flat top W<M) (278) • GIP (full radius W<M) (279) • GIP (full radius) (280) • GIP-E (276) • GIP-E (full
radius) (278) • GIP-UN (287) • GIPA (full radius W=3-6) (285) • GIPA (W=3-6) (284) • GIPM-A46 / GIP-1250 (358) • GIPY (284) • GITM (283) • GITM (full radius) (283) • GPV
(288) • TIP-MT (290) • TIP-P-BSPT (293) • TIP-P-BSW (292) • TIP-P-ISO (291) • TIP-P-NPT (292) • TIP-P-UN (291) • TIP-WT (290)
259 GROOVE TURN
GHDR/L-JHP (short pocket)
Tools with Channels for
20 mm shank tools
(3 inlet ports)
G 1/8"-28 typx2
WF CWN-CWX
GHDR/L 20-3-JHP
GHDR/L 25-3-JHP
GHDR/L 20-4-JHP
GHDR/L 25-4-JHP
GHDR/L 25-5-JHP
GHDR/L 25-P8-JHP (1)
CDX(4)
• For using TIP and GPV inserts, toolholder seat needs to be modified according to insert profile to ensure clearance • For user guide and accessories see pages 380-400
(1) Used with GIMF, GIMY, GIPY, GIMM, GITM, GPV, GIMY-F, GIMM 8CC,GIMT,GIMN,GITM (full radius), GIMY (full radius) inserts.
(4) Cutting depth maximum
GHDR .-JHP
13-16
8-10
22-24
G 1/8”-28 Adaptation Nipple
Hose
PLUG G 1/8”-28
Key: HW 5.0
GHDR/L 25-P8-JHP
SR M5X20 DIN912
PLUG G1/8-6.5 TL360
PLUG G1/8ISO1179
HW 5.0 LH
Grooving and Turning Tools with
Bottom Inlet Coolant Channels
Coolant inlet
GHDR/L 20-3-JHP-MC
GHDR/L 25-3-JHP-MC
GHDR/L 20-4-JHP-MC
GHDR/L 25-4-JHP-MC
GHDR/L 25-5-JHP-MC
123.00
• For using TIP and GPV inserts, toolholder seat needs to be modified according to insert profile to ensure clearance
GHDR/L-JHP-MC (short
pocket)
• For user guide and accessories see pages 380-400
For inserts, see pages: GIA-K (W=3-6) (282) • GIF (281) • GIF (full radius) (282) • GIF-E (W=4-6 full radius) (277) • GIF-E (W=4-6) (275) • GIM-C (473) • GIM-J (473) •
GIM-J-RA/LA (474) • GIM-UT (475) • GIM-UT-RA/LA (475) • GIM-W (474) • GIM-W-RA/LA (475) • GIMF (271) • GIMM 8CC (565) • GIMN (272) • GIMT (271) • GIMY (272)
• GIMY (full radius) (273) • GIMY-F (274) • GIP (280) • GIP (full radius) (280) • GIP-E (276) • GIP-E (full radius) (278) • GIP-UN (287) • GIPA (full radius W=3-6) (285) • GIPA
(W=3-6) (284) • GIPM-A46 / GIP-1250 (358) • GIPY (284) • GITM (283) • GITM (full radius) (283) • GPV (288) • TIP-MT (290) • TIP-P-BSPT (293) • TIP-P-BSW (292) •
TIP-P-ISO (291) • TIP-P-NPT (292) • TIP-P-UN (291) • TIP-WT (290)
GHDL 20-3-JHP-MC
GHDR 20-3-JHP-MC
GHDL 25-3-JHP-MC
GHDR 25-3-JHP-MC
GHDL 20-4-JHP-MC
GHDR 20-4-JHP-MC
GHDL 25-4-JHP-MC
GHDR 25-4-JHP-MC
GHDL 25-5-JHP-MC
GHDR 25-5-JHP-MC
261 GROOVE TURN
GHGR/L
External Holders for Deep
GHGR/L 20-2 (1)
GHGR/L 25-2 (1)
GHGR/L 16-3
GHGR/L 16-3 ST (2)
GHGR/L 20-3
GHGR/L 25-3
GHGR 16-4
GHGR/L 20-4
GHGR/L 25-4
GHGR/L 25-425
GHGR/L 25-5
GHGR/L 32-5
GHGR/L 25-630
GHGR/L 32-632
CWX(4) CUTDIA(5)
19.20
24.20
1.70
• For machining depth over 13 mm, a single-ended insert is required (GIM, GIMF,GIMY,GIMT,GIMN) • CDX for grooving depth depends on part diameter CUTDIA • For
grooving a part with a diameter larger than CUTDIA, see next table • For using TIP inserts, tool holder seat needs to be modified according to insert profile to ensure clearance
(1) In the case of inserts with CW<2 mm, tool pocket should be ground to 0.3 mm thinner than the insert's grooving width.
(2) For Star and multi-spindle machines.
Depth Capacity*
GHGR/L 20-2
GHGR/L 25-2
GHGR 32-632
135
700
290
270
1500
* For over 13 mm depth: GIM, GIMF,GIMT,GIMN and GIMY, GPV (single ended insert) only.
MAHR/L
Adapter Holders for
all GRIP Systems
WF (shank) WF (assembly)
MAHR/L 20
MAHR/L 25
MAHR/L 32
Left-hand shown • WF(assembly)=WF(shank)+WF(adapter)
WF(1)
130.00
17.1
22.1
29.1
WF(shank)
For tools, see pages: CGPAD (265) • DGAD-B-D (436) • DGAD/HGAD (436) • HFPAD-3 (549) • HFPAD-4 (549) • HFPAD-5 (550) • HFPAD-6 (550) • HGPAD (251) •
PCADR/L (300) • SCLCR-PAD (50) • SDJCR-PAD (54) • SVJCR-PAD (60) • SWAPR-PAD (66) • TGAD (455) • TGPAD (256) • TTADR/L-JHP (651)
262
SR M5-04451
For CGPAD, HGPAD, TGPAD and HFPAD adapters; supplied with the tools
SR M6X20-XT(a)
SR M6X6 DIN551 14H/22H HF
MAHR/L-JHP
Holders with High Pressure
Coolant Channels for
MODULAR-GRIP Adapters
MAHR/L 20-JHP
MAHR/L 25-JHP
MAHR/L 32-JHP
WF (shank)
15.1
20.1
27.1
11.50
(1) WF(shank)
SR M6X20-XT
(Key: HW 5.0)
OR 5X1N
SR M6X12DIN6912
(Key: T-20/5)
MAHR/L-JHP-MC
Holders with Bottom Inlets for
High Pressure Coolant Channels
Carrying MODULAR-GRIP
Grooving and Turning Adapters
MAHR/L 20-JHP-MC
MAHR/L 25-JHP-MC
1.2
98.00
• For CDX, refer to the adapters data.
263 GROOVE TURN
MAHPR/L
Holders for Perpendicularly
Mounted Adapters for
MAHPR/L 20
MAHPR/L 25
MAHPR/L 32
SR M6X6 DIN551 14H/22H
For CGPAD, HGPAD, TGPAD and HFPAD adapters. Supplied with the tools.
MAHPR/L-JHP
MODULAR-GRIP Perpendicularly
Mounted Adapters
MAHPR/L 20-JHP
MAHPR/L 25-JHP
MAHPR/L 32-JHP
For tools, see pages: DGPAD-JHP (437) • TAGPAD-JHP (456) • TGPAD-JHP (256) • TTADR/L-JHP (651) • CGPAD-JHP (265) • HGPAD-JHP (251) • PCADR/L-JHP
(301) • CGPAD (265) • DGAD-B-D (436) • DGAD/HGAD (436) • HFPAD-3 (549) • HFPAD-4 (549) • HFPAD-5 (550) • HFPAD-6 (550) • HGPAD (251) • PCADR/L (300) •
SCLCR-PAD (50) • SDJCR-PAD (54) • SVJCR-PAD (60) • SWAPR-PAD (66) • TGAD (455) • TGPAD (256)
SR M5X04451
264
PLG 1/8ISO1179 CGPAD
Adapters for CUT-GRIP Inserts
CGPAD 3R/L-T16
CGPAD 3R/L-T22
CGPAD 4L-T16
CGPAD 4L-T22
CGPAD 5L-T16
CGPAD 5L-T22
CGPAD 8L-T16
CGPAD 8L-T22
17.3
• For using TIP insert, toolholder seat needs to be modified according to insert profile to ensure clearance • For user guide, see pages 380-395
For inserts, see pages: GIF (281) • GIF (full radius) (282) • GIF-E (W=4-6 full radius) (277) • GIF-E (W=4-6) (275) • GIM-C (473) • GIM-J (473) • GIM-J-RA/LA (474) •
GIM-UT (475) • GIM-UT-RA/LA (475) • GIM-W (474) • GIM-W-RA/LA (475) • GIMF (271) • GIMM 8CC (565) • GIMN (272) • GIMT (271) • GIMY (272) • GIMY (full radius)
(273) • GIMY-F (274) • GIP (280) • GIP (full radius) (280) • GIP-E (276) • GIP-E (full radius) (278) • GIP-UN (287) • GIPA (full radius W=3-6) (285) • GIPA (W=3-6) (284) •
GIPM-A46 / GIP-1250 (358) • GIPY (284) • GITM (283) • GITM (full radius) (283) • TIP-MT (290) • TIP-P-BSPT (293) • TIP-P-BSW (292) • TIP-P-ISO (291) • TIP-P-NPT
(292) • TIP-P-UN (291) • TIP-WT (290)
For holders, see pages: C#-MAHD-JHP (593) • C#-MAHPD-JHP (593) • MAHR/L-JHP-MC (263) • MAHPR/L-JHP (264) • MAHR/L-JHP (263) • MAHR/L (262) • MAHPR/L
(264) • C#-MAHD (592) • C#-MAHPD (593) • C#-MAHUR/L (592) • C#-MAHDR-45 (591) • HSK A63WH-MAHUR/L (598) • HSK A63WH-MAHDR-45 (597) • HSK
A63WH-MAHDOR (597) • IM-MAHD (599) • IM-MAHPD (599)
CGPAD-JHP
CUT-GRIP Inserts
CGPAD 3R/L-T16-JHP
CGPAD 3R-T22-JHP
CGPAD 4L-T16-JHP
CGPAD 5L-T16-JHP
CGPAD 8R/L-T22-JHP
CWN
(3)
(4)
5.45
4.95
(5)
• For using TIP insert, toolholder seat needs to be modified according to insert profile to ensure clearance • For user guide and accessories see pages 380-400
CGPAD 4R/L-T16-JHP
CGPAD 5R/L-T16-JHP
265 GROOVE TURN
CGHN-S
External Machining
Single-Ended Blades
CUTDIA=2xOHX
CGHN 32-3S
CGHN 32-4S
CGHN 32-5S
CGHN 32-6S
51.00
56.00
(3) Minimum overhang • When using a double-ended insert, grooving depth is limited by the insert
GIM-J-RA/LA (474) • GIM-UT (475) • GIM-UT-RA/LA (475) • GIM-W (474) • GIM-W-RA/LA (475) • GIMF (271) • GIMN (272) • GIMT (271) • GIMY (272) • GIMY (full
radius) (273) • GIMY-F (274) • GIP (280) • GIP (full radius) (280) • GIP-E (276) • GIP-E (full radius) (278) • GIPA (full radius W=3-6) (285) • GIPA (W=3-6) (284) • GIPM-A46
/ GIP-1250 (358) • GIPY (284) • GITM (283) • GITM (full radius) (283) • TIP-MT (290) • TIP-P-BSPT (293) • TIP-P-BSW (292) • TIP-P-ISO (291) • TIP-P-NPT (292) •
TIP-P-UN (291) • TIP-WT (290)
CGHN-D
Double-Ended Blades for
External Grooving and Turning
CGHN 26-3D
CGHN 26-4D
CGHN 26-5D
CGHN 32-3D
CGHN 32-4D
CGHN 32-5D
CGHN 32-6D
266
ISCAR Double-Ended Blades for
Self-Clamped Inserts
CGHN 32-3DG
CGHN 32-4DG
CGHN 32-5DG
CGHN 32-6DG
OHX(3)
OHX_2(4)
EDG 44A*
CGHN-DG
• DO-GRIP clamping insert is self-retained for long overhang • When using TIP inserts, toolholder seat needs to be modified according to insert profile to ensure clearance •
When using a double-ended insert, grooving depth is limited by the insert • For user guide, see pages 380-395
(3) Maximum overhang for grooving
(4) Maximum overhang for turning
GIM-J-RA/LA (474) • GIM-UT (475) • GIM-UT-RA/LA (475) • GIM-W (474) • GIM-W-RA/LA (475) • GIMF (271) • GIMN (272) • GIMT (271) • GIMY (272) • GIMY (full radius)
For holders, see pages: C#-TBK-R/L (591) • HSK A-WH-TBK-R/L (598) • SGTBU/SGTBN (586) • UBHCR/L (587)
CGHN-P8
Blades for Deep Grooving
and Turning
CGHN 52-P8 (1)
CGHN 53-P8 (2)
150˚
52.6
190.00
260.00
SR 76-1637
(1) If CUTDIA (workpiece) is smaller than 200 mm, then CDX=48; if CUTDIA (workpiece) is larger than 200 mm, then CDX=43
(2) If CUTDIA (workpiece) is smaller than 200 mm, then CDX=68; if CUTDIA (workpiece) is larger than 200 mm, then CDX=63
(3) Maximum overhang
For inserts, see pages: GIMF (271) • GIMM 8CC (565) • GIMY (272) • GIMY (full radius) (273) • GIMY-F (274) • GIPY (284)
For holders, see pages: SGTBK (587) • SGTBU/SGTBN (586)
CGHR/L-P8DG
Double-Ended Heavy Duty
Self-Clamped Grooving
and Turning Blades
CGHR
CGHR/L 32-P8DG
CGHL
(1) Minimum cutting width * Optional, should be ordered separately
For holders, see pages: C#-TBK-R/L (591) • HSK A-WH-TBK-R/L (598) • SGTBK (587) • SGTBU/SGTBN (586)
267 GROOVE TURN
TGFHM
CGHNM
Anti-Vibration Blades
Anti-Vibration Blades for Deep
CGHNM 53-6DG-AV
TGFHM 53K-8-AV
CGHNM 53-P8-AV
93.00
93.00 (4)
235.00
GIMF/N/T/Y 6 GIM 6