伊斯卡切断刀ISCAR切槽刀片 进口切槽切断刀
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
under the insert will disturb machining (threading inserts,
pulley-V inserts and various specially tailored inserts) and
therefore the above explanation should be considered
• These tools also provide the option for customers
to use a very wide range of insert widths on the
same tool (up to 6.4 mm)
• Machining conditions need to be light due
to little support and limited gripping forces
For material groups, see page 380
393 TOOLS FOR MINIATURE PARTS
Recommended Clamping Torques and Interchangeable Key Blades and
Adjustable Torque Handles (optional) for GROOVE-TURN Tools
Adjustable
Torque
Handle
Key Blade
6-7
7-8
8-9
TSA 6 5-14
BLD 6 HEX4
BLD 6 HEX5
Torque Range [Nm]
BLD 6 T20
BLD 6 HEX6
GHDR/L
(short pocket)
GHDR/L 16-3 ST
GHDR/L 16-4 ST
GHDR/L 32-3
GHDR/L 25-P8
GHDR/L 32-P8
4-5
5-6
9-10
13-14
GHDR/L-JHP
394
CUT-GRIP
10-11
1212-3T12
1616-3T12
1616-3T20
1616-4T12
1616-4T20
2020-3T12
2020-3T20
2020-4T12
2020-4T25
2020-5T12
2020-5T25
2525-3T12
2525-3T20
2525-4T12
2525-4T25
2525-5T12
2525-5T25
2525-6T12
2525-6T30
3232-3T20
3232-4T25
3232-5T25
3232-6T30
4032-4T25
11-12
BLD
HEX4
HEX5
TSA 6 5-14 BLD
C#-HELIR/L
C4
C5
C6
3T20
4T25
5T25
6T30 CUT-GRIP
(long pocket)
Not Available
GHMR/L 16-3 ST
GHDR/L-8A
GHDR/L 25-8A
GHDR/L 32-8A
16-17
GHMUR/L
C#-GHDR/L
C6 GHDR/L-8
2-3
HSA 4 1-5
BLD 4 T15
CGHN 52-P8
CGHN 53-P8
GHDN 4040-14T38
15-16
18-20
GHGR/L 16-3 ST
BLD 4 HEX4
395 TOOLS FOR MINIATURE PARTS
All JETCUT tools also provide great advantages to
standard low-pressure (7-10 Bars) machine tools
The JETCUT tools provide a great advantage
when standard machine pressure (10-20 bars) is
applied and on a wide range of popular materials
such as alloy & stainless steel, improving their
tool life and in some cases chip control.
The main reasons for the improvement
in both high and low pressure are:
• The JETCUT coolant is pinpointed exactly to the
cutting edge where it is most effective.
These advantages were reported by many customers
and are presented in various test reports.
PENTAIQGRIP
Operation
Pressure (Bar)
Vc (mm/min)
f (mm/rev)
Toolife (number of grooves)
JETCUT
Stainless Steel AISI 316
10 (external)
10 (Internal)
PCHR 25-D40-3
PCHR 25-D40-3-JHP
PENTA D40N300C020 IC808G
Tool life increase 82%
• The JETCUT coolant is steady and not influenced by
the operator’s attention or interrupted by the chips.
PENTAIQGRIP PENTAIQGRIP
• In parting-off and deep grooving, external coolant loses
its effectiveness as the groove becomes deeper.
With JETCUT tools and blades, the coolant delivery is
not influenced by the groove’s depth.
Vc (m/min)
Cycle time (min)
Parts/Edge
Stainless Steel 1.4301 (AISI 304)
External Grooving
20 (external)
20 (Internal)
GHDR 20-4
GHDR 20-4-JHP
GIP 4.00E-0.4 IC808
128.5
67.4
Tool life increase 20%
Cycle time improvement 52%
396
JETCUT USER GUIDE
JETCUT Tools High Pressure (up to 340 Bar)
The high pressure coolant feature has been in
existence for a long time in the metal removal
world, taking a bigger role in today’s machining.
ISCAR was one of the first cutting tools companies to
respond to market needs by designing and producing
tools for ultra high and high pressure coolant flow.
High pressure coolant was initially implemented
mainly for difficult-to-machine materials such as
titanium, Inconel and other heat resistant alloys.
Later it was found that tool life, productivity
and chip control can be improved when
machining stainless and alloyed steel.
JETCUT tools are essential and important in the
How does it work?
The stream velocity of the coolant emitted from the
pump increases as the coolant holes become smaller.
When it emerges out of the tool through the nozzle,
the velocity is very high, exerting considerable
force on the chips, lowering their temperature and
protecting the cutting edge from thermal shock.
High temperature alloys produce a very high temperature
as they are being cut. By effectively removing the heat,
the chips become less ductile and thus easier to break.
Shorter chips are easily managed - they do not
tangle around the workpiece or machine parts, so
there is no need to stop the process frequently.
Usually in conventional cooling the chip prevents
the coolant from reaching the insert rake face in the
cutting zone. The coolant stream of the JETCUT
tools is directed precisely between the insert rake
face and the flowing chip. This results in longer
tool life and a much more reliable process.
The coolant channels of the JETCUT tools
feature outlets very close to the cutting edges,
thus gaining the following advantages:
Shorter machining time – the cutting speed
may be increased by up to 200% when
machining titanium & heat resistant alloys
Longer tool life – tool life increases by up to
Improved chip control – even on the most ductile and
problematic materials, small chips can be obtained
Very effective cooling down of the cutting edge,
which reduces sensitivity to heat fluctuations
General Information
Pressure Ranges
Up to 30 Bar – Low pressure (LP) may provide
some improvement in tool life. Usually will
not have an effect on chip control.
30 – 120 Bar – High pressure (HP) the most commonly
used pressure range used with JETCUT tools.
Increase in tool life, increase in cutting
speeds, improved chip control.
120 – 400 Bar – Ultra high pressure (UHP) requires
special tool design in order to take advantage
of the extra pressure. Minor increase in
tool life compared to HP range.
Ultra high pressure coolant is usually implemented for
machining titanium and heat resistant alloys when
there is a need for very small chips
and higher machining rates.
Since 2000, ISCAR has provided hundreds of
special tools featuring ultra high pressure coolant
capability, for various customers and applications.
Each JETCUT tool is designed to work at a certain flow
rate, depending on the pressure. The flow rates are listed
in the catalog pages for each tool. The user should verify
The coolant flow will start to break the chips at a
certain pressure, depending on the specific tool
and the workpiece material. If the chips are not
breaking, the pressure should be increased until
chip control is achieved. Above this pressure, as
it is increased the chips become smaller and
smaller. It is possible to control the size of the
chips by modifying the pressure in order
to achieve the desired chip size.
JETCUT tools provide advantageous performance
also when conventional pressure is applied.
397 TOOLS FOR MINIATURE PARTS
High Pressure Coolant with
Groove-Turn and Parting Tools
In grooving and parting operations, applying
high pressure coolant provides excellent
chip breaking results on all materials.
On exotic alloys such as Inconel and titanium, it is usually
impossible to break the chips with standard external
coolant pressure.
Applying high coolant pressure provides
excellent chip breaking results.
On some alloyed and stainless steel, especially
when low feeds are applied, high pressure
coolant may solve chip breaking problems.
Grooving Test
Material: Titanium (Ti6Al4v)
Operation: Grooving
Tool: GHDL 25-6-JHP
Insert: GIMF 608 IC07
Vc: 50 mm/min
f: 0.15 mm/rev
Pressure [bar]
10 (External)
High pressure coolant reduces or even eliminates
built-up edge phenomenon, especially when machining
stainless steel and high temperature alloys.
Tool Life
In turning operations, applying high pressure coolant is less
effective because the jet is directed to the frontal edge.
Grooves
Assembly and Safety Guidelines
When Using the JET HP ISO Turning
and Grooving Tools
• The coolant hose is tightened securely to the toolholder
and tool block, to prevent leakage of coolant
1/8” BSPP
Adaptation Nipple
Copper Seal
Washer 1/8”
398
for GROOVE-TURN tools 340 bar and
PARTING OFF tools 300 bar. BB
399 GROOVE-TURN
1.00 SXCIB
H DCONMS
Broaching Holders for Lathe
and Milling Machines
SXCIB 25-22-50
SXCIB 32-30-50
SXCIB 32-38-50
SXCIB 32-30-75
SXCIB 32-38-75
Group #1
Group #2
Group #3
SR M5X13 T20
For inserts, see pages: XNUWB (401) • XNUWB (light fit) (402) • XNUWB (tight fit) (402)
Insert Group #1
Insert Group #2
Insert Group #3
XNUWB 13-4.98-0.2
XNUWB 13-5.01-0.2
XNUWB 13-5.98-0.2
XNUWB 13-6.01-0.2
XNUWB 13-6.12-0.85
XNUWB 13-7.13-0.85
XNUWB 13-7.98-0.2
XNUWB 13-8.01-0.2
XNUWB 13-8.13-1.05
XNUWB 13-9.98-0.3
XNUWB 13-10.01-0.3
XNUWB 13-10.13-1.05
XNUWB 13-11.98-0.3
XNUWB 13-12.02-0.3
XNUWB 13-12.02-0.5
XNUWB 13-12.15-1.35
XNUWB 13-12.15-1.75
XNUWB 13-12.15-2.25
Spare Parts Clamping screw: SR M5X13 T20
Key: T-20/5
XNUWB
DIN138 (Tolerance C11) Inserts
for Keyway Broaching on
Lathe and Milling Machines
6.12
7.13
8.13
10.13
1.05
• Typical conditions: Vc = 4000-8000 mm/min, ap = 0.02-0.08 mm
For tools, see pages: SXCIB (401)
401 DIN6885 Inserts for Light Fit
(JS9) Keyway Broaching on
CW(1)
BROACHING TOOLS
XNUWB (light fit)
5.01
6.01
8.01
10.01
12.02
(1) Tolerance: +0 -0.03
XNUWB (tight fit)
DIN6885 Inserts for Tight Fit
(P9) Keyway Broaching on
4.98
5.98
7.98
9.98
11.98
402
ISCAR BHDN
BHDN 25-10-33
BHDN 32-10-33
33.00
SCB 010
SR M5X6 DIN913
• Holders are suitable for left- and right-hand mini-bars and ISO bars
SCB
+0.05
SCB 010.410.050-25
SCB 010.410.050-41
SCB 010.510.050-25
SCB 010.510.050-41
66.00
403 a
DIN6885 Inserts for Light Fit
9.20+0.05
SCB 010.400.020-25
SCB 010.400.020-41
SCB 010.500.020-25
SCB 010.500.020-41
SCB (light fit)
SCB (tight fit)
SCB 010.398.020-25
SCB 010.398.020-41
SCB 010.498.020-25
SCB 010.498.020-41
OHN(2)
(1) Tolerance: +0.01 -0.02
(2) Minimum overhang
404
ISCAR TOOLS FOR MACHINING ALUMINUM
TOOLS FOR MACHINING
ALUMINUM WHEELS
405 TOOLS FOR MACHINING ALUMINUM
GHIUR/L-C-A (15° & 27.5°)
Bars
Turning Bars for Machining
Aluminum Wheels
GHIUR/L 40C-15A-6
GHIUR/L 40C-15A-8
GHIUR 50C-15A-8
GHIUR/L 40C-27.5A-6
GHIUR/L 50C-27.5A-8
DAXX
KAPR min
WFX
0.00 (2)
0.00 (3)
0.60 (4)
1.80 (4)
320.00
83.0
82.0
21.20
25.10
• Upper jaw with hard coating to sustain chip deflection
(1) Dimension for minimum bore diameter
(2) For bore diameter D>200, CDX is 0.5 mm
(3) For bore diameter D>200, CDX is 1.4 mm
(4) For bore diameter D>200, CDX is 4.0 mm
For inserts, see pages: GDMA (284) • GIPA (full radius W=3-6) (285) • GIPA 8-35V (V-shape) (409) • GIPA/GIDA 8 (full radius) (286)
GHIUR/L-C-22.5A-8V
22.5° Approach Angle Bars for
Facing and Internal Machining
GHIUR/L 40C-22.5A-8V
22.5
For inserts, see pages: GIPA 8-35V (V-shape) (409)
GHIUR/L-UC
45° Undercutting Bars for Internal
Turning of Aluminum Wheels
45˚
GHIUR/L 40UC-6
GHIUR 50UC-6
GHIUR/L 40UC-8
GHIUR 50UC-8
68.00
58.00
0.00 (1)
0.00 (4)
79.0
24.7
31.4
For bore diameter more than 200, CDX is 1.3 mm
(3) For bore diameter more than 200, CDX is 2.0 mm
(4) For bore diameter more than 200, CDX is 2.8 mm
For inserts, see pages: GDMA (284) • GIPA 8-35V (V-shape) (409) • GIPA/GIDA 8 (full radius) (286)
GHIFR/L-A
8° / 10° Approach Angle Bars for
GHIFR/L 40C-10A-6
GHIFR/L 40C-8A-8
DAXN(1)
DAXX(2)
360.0
(1) Minimum axial grooving diameter
(2) Maximum axial grooving diameter
For inserts, see pages: GDMA (284) • GIPA (full radius W=3-6) (285) • GIPA/GIDA 8 (full radius) (286)
406
KAPR DCONMS
PL 40 External Tools for Turning,
Grooving and Parting; Upper
Jaw with Hard Coating to
Sustain Chip Deflection
• Upper jaw with hard coating to sustain chip deflection • For user guide, see pages 380-395
For inserts, see pages: GIPA/GIDA 8 (full radius) (286)
GHVR/L
Internal and External Profiling
Holders for Machining
WF 5°
GHVR/L 25-8
TOOLS FOR MACHINING ALUMINUM
GHDKR/L
External and Internal Profiling
GHDKR/L 25-6 (1)
GHDKR/L 25-8
GHDKR/L 32-8
Only insert GIPA 6.00-3.00 is suitable for this tool.
For inserts, see pages: GDMA (284) • GDMY (full radius) (274) • GIPA (full radius W=3-6) (285) • GIPA/GIDA 8 (full radius) (286)
407 7°
408
ISCAR 10°
GIPA 8-35V (V-shape)
V-Shaped Inserts for Machining
GIPA 6.0-35V-0.8
GIPA 8YZ-35V-0.80
GIPA 8YZ-35V-1.20
GIPA 8YZ-35V-1.20-D (1)
GIPA 8-35V-1.20
GIPA 8-35V-1.20-D (1)
GIPA 8-35V-3.0
3.60-4.80
0.24-0.56
0.24-0.62
0.35-0.88
• Precision ground and polished rake to avoid built-up edge • Toolholder seat needs to be modified according to insert profile to ensure clearance
For tools, see pages: GHIUR/L-C-22.5A-8V (406) • GHIUR/L-C-A (15° & 27.5°) Bars (406) • GHIUR/L-UC (406) • GHVR/L (407)
409 30 Ref.
FSHIUR
10° / 15° Approach Angle
Bars for Facing and Internal
Profiling of Aluminum
FSHIUR 40C-15A-6
FSHIUR 40C-10A-8
FSHIUR 40C-15A-8
68.0
24.30
SR M6X1-28509
OR 5X1N PU SEAL-28510
• Clamping torque for FSHIUR -6: 9 Nxm, for FSHDR -8: 10.5 Nxm
For inserts, see pages: FSP/MA (411)
Insert Clamping Instructions
Locating / gripping surfaces
1. Position the insert in the pocket so
the notch (1) on the insert sits on top
of the frontal bulge (2) of the pocket
Close the clamping screw (3)
Warning
Do not apply any force and do not hold the insert in place
while closing the screw
There is no contact between the insert and pocket rear wall (4)
PL 40 FSHDR
Tools with a Very Strong Insert
Grip for Interrupted Cuts and Back
FSHDR 25-6
FSHDR 25-8
• Clamping torque for FSHDR -6: 7.5 Nxm, for FSHDR -8: 10 Nxm
1. Position the insert in the pocket so the
notch (1) on the insert sits on top of the frontal
bulge (2) of the pocket
2. Close the clamping screw (3).
1. Do not apply any force and do not hold the insert in place while
closing the screw.
2. There is no contact between the insert and pocket rear wall (4)
FSP/MA
Full Radius Precision Inserts
for Machining Aluminum at
S1
YZ
29.70
FSPA 6.00-3.00
FSPA 6.00-3.00YZ
FSPA 6.00-3.00YZ-D
FSMA 80-40 (1)
FSPA 80-40
FSPA 80-40-D
FSPA 80-40YZ
FSPA 80-40YZ-D
0.30-0.55
0.40-0.72
Utility insert
For tools, see pages: FSHDR (411) • FSHIUR (410)
411 Tools for Interrupted Cuts
and Back Turning of
62°
FGHDUR 25C-3A-10S
54.4
• Upper jaw with hard coating to sustain chip deflection • For mounting and removing the inserts, see page 380-395
For inserts, see pages: FGPAM (412)
FGPAM
11.8
FGPAM 10S-3R-25A
FGHDUR
0.05-12.00
For tools, see pages: FGHDUR (412)
SVJCR/L-16-JHP
412
T-8/5 SVVCN
413 TOOLS FOR MACHINING ALUMINUM
VCGT-AS
• For user guide and cutting speed recommendations, see pages 380-395
414
0.15-0.30 35˚
415 TOOLS FOR MACHINING ALUMINUM
SVVNN-JHP
Thread G1/8
72.5˚
SVVNN 2525M-22-AL-JHP
MIID(1)
-13.5
Master insert identification
VNGU-R3N
416
0.15-0.30 PARTING
PARTING
417 PARTING
Selection Guide .
419
Tools and Inserts
418
DO-GRIP
425
TANG-GRIP
MULTI-F-GRIP .
468
LOGIQ-5-GRIP .
471
473
PENTA-IQ-GRIP .
476
PENTACUT R/L Parting Inserts .
Full range of PENTACUT Tools & Inserts .
480
User Guide
484
Modular Adaptations
494
ISCAR SELECTION GUIDE
Clamping Systems
• First choice for parting
• Double-ended insert
• Self clamped for deeper grooving and parting
mediume to large diameters
E!
• Screw clamped for small diameters
OIC
• See also HELI-GRIP, page 243
ST
Self-clamped
FIR
• Very rigid clamping in a tangentially oriented pocket
• Enables machining at very high feed rates and
provides excellent straightness and surface finish
• Recommended for parting large diameter
parts and for interrupted cuts
• Offers a free, unobstructed chip flow
HIGH FEED
Screw-clamped
TANG-GRIP
GRIP HOLDER
Unique adaptation for Quad /Square type adapters with 4 pockets
Outstanding stability, vibration free parting system also on big diameters
MULTI-F-GRIP
Improves inserts life, surface finish and workpiece straightness due to robust design
Enables reduction of cutting width due to excellent stability, leading to material savings
Ø120mm bar can be cut with only 3 mm insert width
Guarantees high productivity, especially when using TAG N…HF inserts with feed of up to 0.4 mmev.
Economical adapters with 4 pockets
User friendly, easy to operate
Saves set up time after pocket replacement - adapter can be positioned with new pocket without set up
Several adapters can be clamped on one tool block
The tools and adapters are designed for JET-CUT cooling up to 140 Bar
Economical pentagonal adapters with 5 pockets
No setup time after pocket replacement
Several adapters can be clamped on one holder
The tools and adapters are designed for JET-CUT cooling up to 340 Bar
LOGIQ-5-GRIP
• Single-ended insert
• Self- and screw-clamped options
• 5 cutting edges
• Fast edge indexing
• For shallow grooving and
up to 20 mm parting diameter
• PENTAIQ for parting up to 40mm bar diameter
PENTAIQ
419 PARTING
Main Chipformers
HF-Type
• For high feed machining only!
• Reinforced cutting edge (negative rake)
• Should be used with short extension tools
f≈
~12˚
W insert [mm/rev]
Recommended feed range as a function of insert width
Alloy
High Temp.
Iron
mm/rev
C-Type
• First choice for parting of bars, hard materials
and tough applications.
• A positive rake, single cavity with negative land and
shoulders provides extra cutting-edge strength.
• Medium-to-high feed
f ≈ W insert
[mm/rev]
(IC20 only)
Recommendations are for neutral inserts.
For R/L inserts, reduce feed by 20-40%.
1.6 2.0 3.0 4.0 5.0 6.0 8.0
MF Type
• Parting and Grooving Insert for Soft and
Hard Materials, Medium Feed
mm USER GUIDE
JT-Type
Based on the J-type chipformer with a
T-land reinforced frontal cutting edge.
• Provides a solution for the intermediate range
between the strong and negative C-type configuration
and the positive edged J-type chipformer.
• Can be used on a wide range of materials.
• Same manner as the J-type, but it can be used
at higher feeds due to its reinforced edge.
f ≈ W insert [mm/rev]
J-Type
• First choice for soft materials, parting tubes,
small diameters and thin-walled parts
• Cutting edge with positive rake
• Low-to-medium feed
1.0 1.4 1.6 2.0 3.0 4.0 5.0 6.0
421 PARTING
Z-Type
• Cutting edge with high positive rake, suitable for parting
tubes, thin walled arts and for small diameters
• Suitable for soft materials
• Excellent for cutting bearing steel and stainless steel
• Low-to-medium feeds
• Parting and Grooving Insert for Stainless Steel
& soft materials
• Miniature Parts
• Low Feeds
UA/UT-Type
• A chipformer for use at low feeds
• Recommended for CrNi alloys and low carbon
steel, especially in the bearing industry and on
similar, ductile materials
• The narrow chipformer design ensures short
deformed chips and provides improved performance
• UA and UT are similar chipformers. UT is slightly
tighter than the UA chipformer
~12°
Recommended feed range as a function of
insert width
422
mm SELECTION GUIDE
• Very positive rake inclination and sharp cutting edge
• For soft materials, slim parts and general parting
• Low feeds
13˚
• Similar to C-type, but with modified edge (smaller k-land)
• Improved chip control at medium feed
~12¡
7¡
• Positive rake, sharp edge
• For parting aluminum
• In grade IC20
43
423 PARTING
- Recommended Feed
MF
UT
0.01 0.03 0.05 0.07 0.09 0.11 0.13 0.15 0.17 0.19 0.21 0.23 0.25 0.30 0.35 0.40
Feed mm/rev
Selection of Chipformers for Various Workpiece Materials
C-jet
Coolant)
Medium to
(
high feed
JT
Z
LFT
4 First choice
424
ISCAR PARTING
• 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 484-492
(2) Blades with frontal coolant holes (JETCUT)
(3) These blades are suitable for turning, using GRIP 4 inserts • Blades with frontal coolant holes (JETCUT)
• 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)
425 Parting and Grooving Blades
• For user guide and accessories, see pages 484-492
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)
DGFHR/L
DGFHR-26 .
Parting and Grooving Reinforced
Blades for DO-GRIP Inserts
DGFHR-32 .
DGFHR 26T16-2
DGFHR/L 26T23-2
DGFHR/L 26T16-3
DGFHR/L 26T23-3
DGFHR/L 32T22-2
DGFHR/L 32T22-4
DGFHR/L 32T33-3
DGFHR/L 32T33-4
DGFHR/L 32T41-4
Machines
TNS-30
TNS-30/112
TNS-30/42
TNS-42
TNS-42/60/65
TNS-65/80/480
DG. 1 ./DG. 2
DG. 1 ./DG. 3
DG. 4 ./GRIP 4
• Insert limit is Tmax=18 mm. If deeper penetration is required, the insert should be modified into single-ended by the user. • DG 1.0 insert can be mounted into pocket sizes 2
and 3. in which case the pocket width has to be modified - see page 436 • For user guide, see pages 484-492
(1) Minimum cutting width • For DG: 1.0 insert - modify holder
(3) The specified limit refers to the tool
For inserts, see pages: DGN-LF/LFT (441) • DGN-P (444) • DGN-UT/UA (443) • 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)
426
ISCAR DGFHR/L-BC-JHP
Reinforced Blades with
Coolant for DO-GRIP Inserts
DGHFR . DGHFR .L DGHFL .R
Min Max
DGFHR/L 32BC-3T33-JHP
DGFHL 32BC-3T33R-JHP
DGFHR 32BC-3T33L-JHP
7.9
111.00
DG. 3
SR M4-21532
DGHFL .
For inserts, see pages: DGN-LF/LFT (441) • DGN-MF (442) • DGN-P (444) • DGN-UT/UA (443) • DGN-Z (442) • DGN/DGNC/DGNM-C (438) • DGN/DGNM-J/JS/JT (440)
• DGR-Z/ZS (443) • DGR/L-C DGRC/LC-C (439) • DGR/L-J/JS (441)
DGFS
CWN-CWN
Blades for Multi-Spindle
Machines, Replacement for
HSS and Brazed Tools
DGFS 0-12-2 (1)
DGFS 0-17-2 (2)
DGFS 0-17-3 (2)
DGFS 5-17-2 (3)
DGFS 5-17-3 (3)
DGFS 5-17-4 (3)
DGFS 5-22-2 (4)
DGFS 5-22-3 (5)
DGFS 5-22-4 (5)
DGFS 5-24-3
DGFS 5-28-2 (6)
DGFS 5-28-4 (6)
CWN(7)
CWX(8)
17.4
22.2
23.8
65.0
EDG 33B*
• DG 1.0 insert can be mounted into pocket sizes 2 and 3. in which case the pocket width has to be modified -see page 436 • For user guide, see pages 484-492
(1) Toolholder assembly X18-1,46,47-WT,160-CL,354-CL,701-ACL,702,702-CL,703,703-CL,704,704-CL,6921,6925
(2) Toolholder assembly E-7,47,102-CL,103-CL,161-A-CL,162-A-CL
(3) Toolholder assembly 226,226-CL,275,275-CL,276-CL,361-CL,431,630,707-A,707-A-CL
(4) Toolholder assembly 100-CL,274,277,277-CL,274-CL,370,383-CL, 6722,6754,6755,6854,6855,6922,51,51-CL,353-CL,167,370-CL
(5) Toolholder assembly 100-CL,274,277,277-CL,274-CL,370,383-CL, 6722,6754,6755,6854,6855,51,51-CL,353-CL,167,370-CL
(6) Toolholder assembly 278,278-CL,279,279-CL,280,280-CL,281,281-CL,375-CL,359-CL,372-CL,A6120,52,52-CL
(7) Minimum cutting width • For DG: 1.0 insert - modify holder
(8) Maximum cutting width
For inserts, see pages: DGN-LF/LFT (441) • 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-WP (444) • DGN-Z (442) • DGR-P (444) • DGR-WP (445) • DGR-Z/ZS (443) • GRIP (254) • GRIP (full radius) (255)
427 PARTING
DGFHR/L-B-D (R/L)
Reinforced Type Blades
with Screw Clamping
36.7
DGFHR/L 26B-2D50 (1)
DGFHL 26B-2D50R (2)
DGFHR 26B-2D50L (2)
DGFHR/L 26B-3D50 (1)
DGFHL 26B-3D50R (2)
DGFHR 26B-3D50L (2)
DGFHR/L 32B-2D50 (3)
DGFHL 32B-2D50R (2)
DGFHR 32B-2D50L (2)
DGFHR/L 32B-3D50 (3)
DGFHL 32B-3D50R (2)
DGFHR 32B-3D50L (2)
DGFHR-B-D50L
DGFHL-B-D50R
DGFHL-B-D50
DGFHR-B-D50
H(4)
CDX(7)
CUTDIA(8)
33.7
31.5
SR M4X20 DIN912
• Insert limit is Tmax=18 mm. If deeper penetration is required, the insert should be modified into single-ended by the user • DG 1.0 insert can be mounted into pocket sizes 2
and 3, in which case the pocket width has to be modified -see page 436 • For user guide, see pages 484-492
(1) For Traub machines, model TNC 30, TNM 28, TNS 26/30/42/112, TNA 300, TNK 260
(2) For Tornos Bechler, Emco 2000/20, 2000/26 machines
(3) For Traub machines, model TNC 42/65, TNM 42/65, TNS 42/60/65, TNA 300/400
(4) Mounted on all ISCAR standard blocks
(5) Minimum cutting width • For DG: 1.0 insert - modify holder
(7) Cutting depth maximum
(8) The specified limit refers to the tool
37.8
DGFHL-26B-TR-D
Reinforced Type Blades with
Screw Clamping for Traub
and Index Machines
DGFHL B
- TR-D-R
DGFHL B- TR-D
- TR-D
54 max
3.5 CWN-CWX
DGFHL 26B-1.5TR-D20 (1)
DGFHL 26B-2TR-D36
DGFHL 26B-2TR-D36R
DGFHL 26B-3TR-D36
DGFHL 26B-3TR-D36R
H(2)
27.9
DG. 1 ./DG. 15
SR M5X20-01172
and 3, in which case the pocket width has to be modified - see page 436 • For user guide, see pages 484-492
(1) Do not use DG 1.4 on this tool!
(2) Mounted on all ISCAR standard blocks
(5) The specified limit refers to the tool
(6) For DG: 1.0 insert - modify holder
428
ISCAR DGTR/L-B-D-SH
CDX=3
Parting and Grooving Short
Head Tools for CNC and
Swiss Automatics
DGTR/L 8B-1.4SH
DGTR/L 10B-1.4D20SH
DGTR/L 10B-1.5D20SH (1)
DGTR/L 10B-2D20SH
DGTR/L 12B-1.4D24SH
DGTR/L 12B-1.5D24SH (1)
DGTR/L 12B-2D24SH
DGTR/L 12B-2D24SH-L85
DGTR/L 12B-3D24SH
DGTR/L 16B-1.5D25SH (1)
DGTR/L 16B-2D25SH
DGTR/L 16B-3D25SH
DGTR/L 20B-1.5D25SH (1)
DGTR/L 20B-3D25SH
15.40
19.40
15.4
13.7
19.7
DG. 3 ./DG. 10
DGTR/L B-1.5D .
with DGN/R/L 1 mm inserts
• DGN/R/L 1 mm inserts can also be mounted into pocket sizes 2 and 3. For insert depth capacity table and modification instructions for the 2 and 3 holder pockets, see page
436 • For user guide, see pages 484-492
(a) Recommended tightening torque for this item: 3 N*M (26.5 lbf*in)
Depth Capacity DGTR/L-B-D
Depth of Cut Function of
Workpiece Diameter
(DGN/R/L-100 . excluded)
DGTR/L 10B-1.4D20
DGTR/L 12B-1.4D30
DGTR/L 16B-1.4D30
DGTR/L 20B-1.4D30
DGTR/L 10B-2D30
DGTR/L 12B-2D30
DGTR/L 16B-2D32
DGTR/L 20B-2D35
DGTR/L 25B-2D35
DGTR/L 12B-3D30
DGTR/L 16B-3D35
DGTR/L 20B-3D40
DGTR/L 25B-3D40
Depth T
NL
øDmax
No Limit
71
113
51
47
59
69
For 9 mm depth of groove on a 75 mm workpiece diameter, six tools may be used.
429 PARTING
CNT (typ.x3)
DGTR/L-B-D-JHP-SL
Parting and Grooving Side
Lock Type Tools with High
Pressure Coolant for CNC
and Swiss Automatics
DGTR/L 12B-2D24-JHP-SL
DGTR/L 16B-2D35-JHP-SL
DGTR/L 20B-2D35-JHP-SL
DGTR/L 12B-3D24-JHP-SL
DGTR/L 16B-3D35-JHP-SL
DGTR/L 20B-3D40-JHP-SL
DGTR/L 25B-2D35-JHP-SL
DGTR/L 25B-3D40-JHP-SL
DGTR/L 25B-4D40-JHP-SL
29.4
35.6
32.1
34.6
25.7
26.7
28.1
33.1
DG. 2 .
DG. 2
DG 4
• For insert depth capacity table and modification instructions for the holder pockets, see page 436
(3) Maximum cutting diameter
• For user guide, see pages 484-492
For inserts, see pages: DGN-MF (442) • DGN-P (444) • DGN-UT/UA (443) • 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)
67
115
For a 9 mm depth of groove on a 75 mm workpiece diameter, six tools may be used.
DGTR/L .2-JHP-SL
DGTR/L .3-JHP-SL
3-4
430
PIN-32121
BLD HW2.5
SW6-SD Parting and Grooving Side Lock
Type Tools with Bottom Inlets
Coolant Inlet
WF CWN-CWX WB
DGTR/L 20B-2D35-JHP-SL-MC
DGTR/L 20B-3D40-JHP-SL-MC
DGTR/L 25B-2D35-JHP-SL-MC
DGTR/L 25B-3D40-JHP-SL-MC
19.15
24.15
102.10
105.60
117.10
120.60
DG. 3 .
DGTR/L-B-D-JHP-SL-MC
For inserts, see pages: DGN-LF/LFT (441) • DGN-MF (442) • DGN-P (444) • DGN-UT/UA (443) • 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)
431 PARTING
DGTL-BC-D
DGTL-B-D
DGTR/L-B/BC-D
Integral Shank Reinforced Parting
and Grooving Tools Especially
for DGNC Type of Inserts
DGTR/L 16BC-3D35 (1)
DGTR/L 20B-3D40 (2)
DGTR/L 20BC-3D40 (1)
DGTR/L 25B-3D40 (2)
CDX(5)
CSP(6)
23.6
29.6
30.6
31.1
6.6
• Important: 1.4 mm width inserts should be used only on tools for 1.4 mm specific width tools • DGN/R/L 1 mm inserts can also be mounted into pocket sizes 2 and 3. •
For insert depth capacity table and modification instructions for the 2 and 3 holder pockets, see page 436 • For user guide, see pages 484-492
(1) Tools for inserts with coolant holes for high temperature alloys and stainless steel
(2) Insert's Tmax=18 mm, for deeper penetration modify insert into single-ended
(6) 0 - Without coolant supply, 1 - With coolant supply
DGTR/L 16BC-3D35
DGTR/L 20BC-3D40
DGTR/L-B-T-SH
Reinforced Parting and
Grooving Short Head Tools for
DGN Double-Ended Inserts
CWN-CWX WF
DGTR/L 2009B-1.5T9SH
• Important: 1.4 mm width inserts should be used only on tools for 1.4 mm specific width
For inserts, see pages: DGN-P (444) • DGN/DGNM-J/JS/JT (440) • DGR-P (444) • DGR/L-J/JS (441)
432
T-15/5 LH
DGTR/L
Integral Shank Parting
DGTR/L 1010-2
DGTR/L 1212-2
DGTR/L 1616-2
DGTR/L 2012-2
DGTR/L 1212-3
DGTR/L 1616-3
DGTR/L 2012-3
DGTR/L 2020-3
DGTR/L 2525-3
DGTR/L 2020-4
DGTR/L 2525-4
DGTR/L 2020-5
DGTR/L 2525-5
DGTR/L 2525-6
35.0 (3)
35.0 (4)
76.0
DG. 5 ./GRIP 5
DG. 6 ./GRIP 6
(3) Dmax=43 mm when single-ended insert is used
(4) Dmax=43(1.69") when single-ended insert is used
DGTR/L-BC-T
Parting and Grooving Tools
with Coolant Holes for DGNC
TYPE JETCUT Inserts
DGTR/L 20BC-4T25
DGTR/L 25BC-4T25
For inserts, see pages: DGN-UT/UA (443) • DGN/DGNC/DGNM-C (438) • DGN/DGNM-J/JS/JT (440) • DGR/L-C DGRC/LC-C (439) • DGR/L-J/JS (441)
433 PARTING
DGTR/L 12B-1.5D .
with DGN/R/L 1000 inserts
DGTR/L-B-D-TR
H OAH
Grooving Tools for DoubleEnded DO-GRIP Inserts
DGTR/L 12B-1.4D20-TR12
DGTL 12B-1.5D20-TR12
DGTR 12B-1.5-D20-TR12
Right -hand shown
• Important: 1.4 mm width inserts should be used only on tools for 1.4 mm specific width! • For Traub machines, model TNL 12/7 • For user guide, see pages 484-492
(a) Recommended tightening torque: 3 N*m (26.5lbf*in)
DGTR/L-XL
and Grooving Tools for Parting
Up to 65 mm Diameters
DGTR/L 20B-2XL-D60
DGTR/L 25B-2XL-D60
DGTR/L 20B-3XL-D65
DGTR/L 25B-3XL-D65
1.74
43.2
• For insert depth capacity table, see page 434 • For user guide, see pages 484-492
For inserts, see pages: DGN-C-XL (447) • DGN-J-XL (447) • DGR/L-C-XL (447) • DGR/L-J-XL (448)
Depth of Cut Function of Workpiece Diameter
Tmax/Dmax for
DGTR/L .-2XL
DGTR/L .-3XL
D max
No limit
SR M4X35DIN912
SR M5X40DIN912
HW 4.0 DGHAL-DECO
Holders for DGAD Adapters for
Tornos Bechler Deco Machines
H5
L6
H H2
DGHAL DECO 7-10 (1)
DGHAL DECO 13 (2)
DGHAL DECO 20-26 (2)
T21
T11
T22
T12
T23
T13
T24
T14
T25
T15
Left-hand shown •
See adapter dimensions
H2
40.3
44.8
35.2
12.8
69.00
• DGAD- . HGAD- . adapters should be ordered separately
(1) Positioning combinations: T11; T25
(2) Positioning combinations: All
For tools, see pages: DGAD-B-D (436) • DGAD/HGAD (436) • SCLCR-PAD (50) • SDJCR-PAD (54) • SVJCR-PAD (60) • SWAPR-PAD (66) • TTADR/L-JHP (651)
DGHAL DECO 7-10
DGHAL DECO 13
DGHAL DECO 20-26
SR 14-519-L9.7(a)
SR 14-519-L12.8(a)
SR 16-212-L9.5(a)
SR 16-212-L7.5(a)
SR 16-212(a)
SR M5X25DIN912
(a) Recommended tightening torque:9 N*m (80lbf*in)
HMSN-New Britain
Holders for Grooving and
Turning Adapters for New Britain
Multi-Spindle Bar Machines
HMSN 35/3722 (1)
S1(2)
36.5
22.4
34.5
181.70
18.4
• DGAD- . HGAD- ., adapters should be ordered separately
(1) For models #42; #52; #60; #61; #62; #602
(2) Comparable Empire block
435 PARTING
DGAD, HGAD 1.4N/2N/3N
DGAD/HGAD
Parting and Grooving Adapters for
DO-GRIP Double-Ended Inserts
DGAD 1.4N
DGAD 2N
DGAD 3N (1)
HGAD 3N
DGAD 4N
DGAD 5N
DGAD 6N
DGAD 4N/5N/6N
50.50
• DG 1.0 insert can be mounted into pocket sizes 2 and 3 in which case the pocket width has to be modified - see page 436 • For user guide, see pages 484-492
(1) Only the DGN/R/L inserts are suitable for this adapter
(4) For 1 mm inserts, modify adapter
For inserts, see pages: 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) • HGN-C (445) • HGN-J (446) •
HGN-UT (446) • HGR/L-C (445) • HGR/L-J/JS (446)
For holders, see pages: 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) • C#-MAHDOR (592) • HSK A63WH-MAHUR/L (598) • HSK A63WH-MAHDR-45 (597) • HSK A63WH-MAHDOR (597) • IM-MAHD (599) • IM-MAHPD
(599) • C#-MAHD-JHP (593) • C#-MAHPD-JHP (593) • MAHR/L-JHP-MC (263) • HMSN-New Britain (435) • DGHAL-DECO (435)
Depth Capacity for DGN/R-1002J Insert on Standard Holders
Depth: T
Up to
830
88.4
68.2
55.6
46.9
40.7
32.3
29.3
21.7
19.4
Cutting Edge
Standard Holders Modification
To achieve no limitation on the workpiece diameter up to 3 mm depth, the steel
support under the insert should be ground, as per the shown sketch.
DGAD-B-D
Parting and Grooving ScrewClamped Adapters for DO-GRIP
Double-Ended Inserts
DGAD 1.4B-D16
DGAD 1.5B-D20 (1)
DGAD 2B-D20
CWN-CWX WB
36.80
• Up to 3 mm depth, without any limitation on the diameter • DG 1.0 insert can also be mounted into pocket sizes 2 and 3, in which case the pocket width has to be
modified-see page 436 • For user guide, see pages 484-492
(264) • C#-MAHD (592) • C#-MAHPD (593) • C#-MAHUR/L (592) • C#-MAHDR-45 (591) • C#-MAHDOR (592) • HSK A63WH-MAHUR/L (598) • HSK A63WH-MAHDR-45
(597) • HSK A63WH-MAHDOR (597) • IM-MAHD (599) • IM-MAHPD (599) • HMSN-New Britain (435) • DGHAL-DECO (435)
436
ISCAR OAL
D/HGAD RE/LE-JHP
DGAD 2R/LE-D38-JHP (1)
DGAD 3LE-D38-JHP (1)
HGAD 3R/LE-D42-JHP
Parting and Grooving Adapters
with Channels for High Pressure
Coolant Carrying DO-GRIP Inserts
4.08
2.45
38.40
54.35
52.35
DGN 2
DGN 3
HGN 3/GRIP 3
(1) For parting and external grooving only
For inserts, see pages: DGN-P (444) • DGN-UT/UA (443) • 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) • HGN-C (445) • HGN-J (446) • HGN-UT (446)
• HGR/L-C (445) • HGR/L-J/JS (446)
DGAD 2LE-D38-JHP
DGAD 2RE-D38-JHP
DGAD 3LE-D38-JHP
DGAD 3RE-D38-JHP
HGAD 3LE-D42-JHP
HGAD 3RE-D42-JHP
HOLDER: MAHPR- .-JHP
Coolant Channels for DO-GRIP
DGPAD 2R/L-D22-JHP
DGPAD 2R/L-D32-JHP
DGPAD 3L-D32-JHP
DGPAD-JHP
HOLDER: MAHL- .-JHP
45.50
For holders, see pages: ABC MAHDR-#-XL-JHP (532) • BI## MAHD#-#-XL-JHP (525) • BMT## MAHD#-#-XL-JHP (520) • C# MAHD#-#-XL-JHP (523) • HSK T
## MAHD#-#-XL-JHP (524) • MA##### MAHD#-#-XL-JHP (522) • MI## MAHD#-#-XL-JHP (526) • MORI## MAHD#-#-XL-JHP (521) • MS##-##-MG-JHP (501) •
MS-ES#####-GWS-MG-JHP (502) • NT## MAHD#-#-XL-JHP (527) • OKUMA # MAHD#-#-XL-JHP (528) • TR45 MAHDR-#-XL-JHP (530) • V## MAHD#-#-XL-##-JHP (529)
• V## MAHD-XL-JHP (530) • VDI##### MAHD#-#-XL-JHP (518) • VDI###-P MAHD#-#-XL-JHP (519)
DGPAD 3R/L-D32-JHP
DGPAD-XL-JHP
Parting and Grooving Extra
Long Adapters with Coolant
Channels for DO-GRIP Inserts
Coolant
inlet
DGPAD-XL 3R/L-D52-JHP
DGPAD-XL 3R/L-D65-JHP
27.70
34.20
54.40
60.40
For holders, see pages: ABC MAHDR-#-XL-JHP (532) • MAHR/L-MG-XL-JHP (457) • MAHR/L-MG-XL-JHP-MC (457) • TR TNK36 MAHDL-R-XL-JHP (531) • TR45TNL
MAHDN-R-XL-JHP (531)
437 Double-Sided Parting Inserts for
Parting and Grooving Bars, Hard
DGNM
19.80
20.70
20.10
- (6)
IC1028
DGN 2002C
DGN 2202C
DGN 2502C
DGN 3102C
DGNC 3102C (1)
DGNM 3202C (2)
DGN 4003C
DGNC 4003C (1)
DGN 4803C
DGN 5003C
DGN 6303C
DGNC
DGN
IC5400
DGN/DGNC/DGNM-C
• • • • • •
• Feed values for grade IC20 should be decreased by 50% • For cutting speed recommendations and user guide, see pages 484-492
(1) Inserts with coolant holes, recommended coolant pressure 10 bar minimum
(2) Single-ended insert.
(5) Cutting depth maximum
(6) No depth limit
For tools, see pages: C#-HELIR/L (249) • C#-HFIR/L-MC (555) • CR HFIR-M (557) • D/HGAD RE/LE-JHP (437) • DGAD-B-D (436) • DGAD/HGAD (436) • DGFH (252) •
DGFH-JHP (253) • DGFHL-26B-TR-D (428) • DGFHR/L (426) • DGFHR/L-B-D (R/L) (428) • DGFHR/L-BC-JHP (427) • DGFS (427) • DGPAD-JHP (437) • DGPAD-XL-JHP
(437) • DGTR/L (433) • DGTR/L-B-D-JHP-SL (430) • DGTR/L-B-D-JHP-SL-MC (431) • DGTR/L-B-D-SH (429) • DGTR/L-B/BC-D (432) • DGTR/L-BC-T (433) • 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) • HFHR/L-6T (549) •
HFIR/L-MC (556) • HFPAD-4 (549) • HFPAD-5 (550) • HFPAD-6 (550) • HGPAD (251) • HGPAD-JHP (251) • IM-HFIR-MC (556)
438
ISCAR DGR/L-C DGRC/LC-C
Double-Sided Inserts for
R PSIRR
DGR/LC
20.80
21.10
18.90
DGL 2202C-6D
DGR 2202C-6D
DGL 3102C-15D
DGL 3102C-6D
DGLC 3102C-6D (1)
DGR 3102C-15D
DGR 3102C-6D
DGR 3102C-8D
DGRC 3102C-6D (1)
DGL 4003C-4D
DGLC 4003C-4D (1)
DGR 4003C-4D
DGRC 4003C-4D (1)
DGR 4800CS-4D
DGR 4800CS-8D
DGR 4803C-4D
DGR 4803C-8D
DGL 5003C-4D
DGR 5003C-4D
DGL 6303C-4D
DGR 6303C-4D
(3) No depth limit
For tools, see pages: C#-HELIR/L (249) • D/HGAD RE/LE-JHP (437) • DGAD-B-D (436) • DGAD/HGAD (436) • DGFH (252) • DGFH-JHP (253) • DGFHL-26B-TR-D
(428) • DGFHR/L (426) • DGFHR/L-B-D (R/L) (428) • DGFHR/L-BC-JHP (427) • DGFS (427) • DGPAD-JHP (437) • DGPAD-XL-JHP (437) • DGTR/L (433) •
DGTR/L-B-D-JHP-SL (430) • DGTR/L-B-D-JHP-SL-MC (431) • DGTR/L-B-D-SH (429) • DGTR/L-B/BC-D (432) • DGTR/L-BC-T (433) • HELIR/L (250)
DGN-W
Double-Sided Inserts with
Central Ridged Chipformer for
Parting and Grooving Hard
Materials and Interrupted Cuts
DGN 5003W
0.12-0.33
• No depth limit • For cutting speed recommendations and user guide, see pages 484-492
For tools, see pages: C#-HELIR/L (249) • C#-HFIR/L-MC (555) • CR HFIR-M (557) • DGAD/HGAD (436) • DGFH (252) • DGFH-JHP (253) • DGTR/L (433) • HELIR/L (250)
• HFAER/L-5T, 6T (552) • HFAIR/L-DG (555) • HFFR/L-T (550) • HFHR/L-5T (548) • HFIR/L-MC (556) • HFPAD-5 (550) • HGPAD (251) • HGPAD-JHP (251) • IM-HFIR-MC
(556)
439 Double-Sided Inserts for Parting
and Grooving Soft Materials,
Parting Tubes, Small Diameters
DGN 1002
DGN 1002J
DGN 1402J
DGN 1502J
DGN 2002JT
DGN 2200JS (1)
DGN 2202J
DGN 2202JT
DGN 3100JS (1)
DGN 3102J
DGN 3102JT
DGN 3202J
DGNM 3202J (2)
DGN 4003J
DGN 4003JT
DGN 4803J
DGN 5003J
DGN 5003JT
DGN 6303J
DGN 6303JT
DGN/DGNM-J/JS/JT
• JT chipformer has the basic positive configuration of the J-type and a reinforced negative frontal edge; most suitable for soft materials at low to medium feeds
speed recommendations and user guide, see pages 484-492
(1) Sharp corners
(2) Single-ended insert
• For cutting
(437) • DGTR/L (433) • DGTR/L-B-D-JHP-SL (430) • DGTR/L-B-D-JHP-SL-MC (431) • DGTR/L-B-D-SH (429) • DGTR/L-B-D-TR (434) • DGTR/L-B-T-SH (432) •
DGTR/L-B/BC-D (432) • DGTR/L-BC-T (433) • 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) • HFHR/L-6T (549) • HFIR/L-MC (556) • HFPAD-4 (549) • HFPAD-5 (550) • HFPAD-6 (550) • HGPAD (251) • HGPAD-JHP (251) •
IM-HFIR-MC (556)
440
DGR/L 1001
DGR/L-J/JS
DGL 1001J-8D
DGR 1001J-8D
DGL 1400JS-15D (1)
DGL 1402J-8D
DGR 1400JS-15D (1)
DGR 1402J-8D
DGR 1500J-8D
DGL 2200JS-15D (1)
DGL 2200JS-6D (1)
DGL 2202J-6D
DGR 2200JS-15D (1)
DGR 2200JS-6D (1)
DGR 2202J-15D
DGR 2202J-6D
DGL 3100JS-15D (1)
DGL 3100JS-6D (1)
DGL 3102J-15D
DGL 3102J-6D
DGR 3100JS-15D (1)
DGR 3100JS-6D (1)
DGR 3102J-15D
DGR 3102J-6D
DGL 4003J-4D
DGR 4000JS-15D (1)
DGR 4003J-4D
DGR 4800JS-4D (1)
DGR 4800JS-8D (1)
DGR 4803J-4D
DGR 4803J-8D
DGL 5003J-4D
DGR 5003J-4D
DGL 6303J-4D
DGR 6303J-4D
Parting Soft Materials, Parting
Tubes, Small Diameters
• For cutting speed recommendations and user guide, see pages 484-492
(3) No depth limit.
DGN-LF/LFT
Double-Sided Inserts for Parting
and Grooving Stainless Steel
DGN 2002LF
DGN 2202LF
DGN 3102LF
DGN 3102LFT
• The LFT chipformer features basically the same design as the LF chipformer, except that it was reinforced by a T-land to improve its durability in interrupted-cut or on hard
materials applications. It can be applied at higher feeds than the LF chipformer
For tools, see pages: DGAD-B-D (436) • DGFH (252) • DGFH-JHP (253) • DGFHL-26B-TR-D (428) • DGFHR/L (426) • DGFHR/L-B-D (R/L) (428) • DGFHR/L-BC-JHP
(427) • DGFS (427) • DGPAD-JHP (437) • DGPAD-XL-JHP (437) • DGTR/L (433) • DGTR/L-B-D-JHP-SL (430) • DGTR/L-B-D-JHP-SL-MC (431) • DGTR/L-B-D-SH (429) •
DGTR/L-B/BC-D (432)
441 7°
and Grooving Soft and Hard
Materials at Medium Feeds
DGN 2002MF
DGN 2202MF
DGN 3002MF
DGN 3102MF
DGN 4003MF
DGN-MF
For tools, see pages: C#-HELIR/L (249) • C#-HFIR/L-MC (555) • CR HFIR-M (557) • DGFH (252) • DGFH-JHP (253) • DGFHR/L-BC-JHP (427) • DGPAD-JHP (437) •
DGPAD-XL-JHP (437) • DGTR/L (433) • DGTR/L-B-D-JHP-SL (430) • DGTR/L-B-D-JHP-SL-MC (431) • HELIR/L (250) • HFAER/L-4 (551) • HFAIR/L-4 (554) • HFAIR/L-DG
(555) • HFFR/L-T (550) • HFHR/L-4T (548) • HFIR/L-MC (556) • HFPAD-4 (549) • HGPAD (251) • HGPAD-JHP (251) • IM-HFIR-MC (556)
DGN-Z
for Parting Tubes, ThinWalled and Small Parts
DGN 2002Z
DGN 3002Z
0.03-0.16
For tools, see pages: D/HGAD RE/LE-JHP (437) • DGAD-B-D (436) • DGAD/HGAD (436) • DGFH (252) • DGFH-JHP (253) • DGFHL-26B-TR-D (428) • DGFHR/L
(426) • DGFHR/L-B-D (R/L) (428) • DGFHR/L-BC-JHP (427) • DGFS (427) • DGPAD-JHP (437) • DGPAD-XL-JHP (437) • DGTR/L (433) • DGTR/L-B-D-JHP-SL (430) •
DGTR/L-B-D-JHP-SL-MC (431) • DGTR/L-B-D-SH (429) • DGTR/L-B/BC-D (432)
442
DGR-Z/ZS
Double-Sided Inserts with Very
Positive Rake for Parting Tubes
and Thin-Walled and Small Parts
DGR 2000ZS-15D (1)
DGR 2000ZS-6D (1)
DGR 2002Z-15D
DGR 2002Z-6D
DGR 3000ZS-15D (1)
DGR 3000ZS-6D (1)
DGR 3002Z-6D
DGN-UT/UA
and Grooving Cr-Ni Alloys,
Low Carbon Steel and Ductile
Materials at Low Feeds
DGN 2202UA
DGN 2202UT
DGN 3003UA
DGN 3003UT
DGN 4003UA
DGN 4003UT
DGN 5003UT
DGN 6008UT
(4) No depth limit
DGTR/L-B-D-JHP-SL (430) • DGTR/L-B-D-JHP-SL-MC (431) • DGTR/L-B-D-SH (429) • DGTR/L-B/BC-D (432) • DGTR/L-BC-T (433) • HELIR/L (250) • HGPAD (251) •
HGPAD-JHP (251)
443 PARTING
DGN 1000
DGN-P
DGN 1000P
DGN 1500P
DGN 2000P
DGN 3000P
DGTR/L-B-D-JHP-SL-MC (431) • DGTR/L-B-D-SH (429) • DGTR/L-B-D-TR (434) • DGTR/L-B-T-SH (432) • DGTR/L-B/BC-D (432)
DGR-P
Parting Soft Materials, Thin
and Miniature Parts
DGR 1000
DGR 1000P-15D
DGR 1000P-6D
DGR 1500P-15D
DGR 1500P-6D
DGR 2000P-15D
DGR 2000P-6D
For tools, see pages: D/HGAD RE/LE-JHP (437) • DGAD-B-D (436) • DGAD/HGAD (436) • DGFH (252) • DGFH-JHP (253) • DGFHR/L (426) • DGFHR/L-B-D (R/L) (428)
• DGFS (427) • DGPAD-JHP (437) • DGTR/L (433) • DGTR/L-B-D-JHP-SL (430) • DGTR/L-B-D-JHP-SL-MC (431) • DGTR/L-B-D-SH (429) • DGTR/L-B-D-TR (434) •
DGTR/L-B-T-SH (432) • DGTR/L-B/BC-D (432)
DGN-WP
Wipers
Double-Sided Parting and
Grooving Inserts with a Wiper
Design for High Flatness
and Surface Finish
DGN 1900WP
DGN 2400WP
For tools, see pages: D/HGAD RE/LE-JHP (437) • DGAD-B-D (436) • DGAD/HGAD (436) • DGFH (252) • DGFH-JHP (253) • DGFHL-26B-TR-D (428) • DGFHR/L (426)
• DGFHR/L-B-D (R/L) (428) • DGFS (427) • DGPAD-JHP (437) • DGTR/L (433) • DGTR/L-B-D-JHP-SL (430) • DGTR/L-B-D-JHP-SL-MC (431) • DGTR/L-B-D-SH (429) •
444
DGR-WP
Double-Sided Parting Inserts
with a Wiper Design for High
Flatness and Surface Finish
DGR 1900WP-12D
DGR 1900WP-5D
DGR 2400WP-12D
DGR 2400WP-5D
• DGFS (427) • DGPAD-JHP (437) • DGTR/L (433) • DGTR/L-B-D-JHP-SL (430) • DGTR/L-B-D-JHP-SL-MC (431) • DGTR/L-B-D-SH (429) • DGTR/L-B/BC-D (432)
HGN-C
for Parting Bars, Hard Materials
HGN 3003C
For tools, see pages: C#-HELIR/L (249) • D/HGAD RE/LE-JHP (437) • DGAD/HGAD (436) • HELIR/L (250) • HFPAD-3 (549) • HGAIR/L-3 (554) • HGFH (251) • HGHR/L-3
(547) • HGPAD (251) • HGPAD-JHP (251)
HGR/L-C
Inserts for Parting Bars, Hard
HGL 3003C-6D
HGR 3003C-6D
For tools, see pages: D/HGAD RE/LE-JHP (437) • DGAD/HGAD (436) • HELIR/L (250) • HGFH (251)
445 PARTING
HGN-J
Inserts for Parting and
Grooving Soft Materials,
HGN 3002J
HGR/L-J/JS
Diameters and Thin-Walled Parts
15.70
HGL 3000JS-15D (1)
HGL 3002J-6D
HGR 3000JS-15D (1)
HGR 3002J-6D
HGN-UT
and Grooving Low Feeds on Cr-Ni
Alloys and Low Carbon Steel
HGN 3003UT
446
DGN-C-XL
Extra Long Parting and Grooving
Inserts for Parting Bars Up to 65
mm Diameters, Hard Materials
DGN 2002C-XL
DGN 3002C-XL
2.05
For tools, see pages: DGTR/L-XL (434)
DGR/L-C-XL
Extra Long Double-Sided Inserts
DGL 2002C-6D-XL
DGR 2002C-6D-XL
DGL 3002C-6D-XL
DGR 3002C-6D-XL
DGN-J-XL
Extra Long Inserts for Parting
DGN 2002J-XL
DGN 3002J-XL
447 PARTING
DGR/L-J-XL
for Parting Soft Materials,
DGL 2002J-6D-XL
DGR 2002J-6D-XL
DGL 3002J-6D-XL
DGR 3002J-6D-XL
BGTR/L-B-JHP
Integral Shank Parting and
Grooving Tools with Coolant
Channels Carrying Narrow Inserts
for Parting up to 20 mm Bars
BGTR/L 16B-D20-JHP
BGTR/L 20B-D20-JHP
BGTR/L 25B-D20-JHP
142.00
For inserts, see pages: BGM N-J (448) • BGM R/L-J (449)
For holders, see pages: C#-ADE (673) • C#-ADES (674) • C#-ASHA (673) • C#-ASHA-HPMC (675) • C#-ASHR/L (672) • C#-ASHR/L-45 (673) • C#-ASHR/L-45-HPMC
(675) • C#-ASHR/L-HPMC (675) • HSK A-WH-ASHR/L-1 (677) • HSK A63WH-ASHN-45 (676) • HSK A63WH-ASHR/L-2 (677) • HSK A63WH-ASHR/L-3 (677) • HSK
A63WH-ASHR/L-45 (677)
BGTL 16B-D20-JHP
BGTR 16B-D20-JHP
BGTL 20B-D20-JHP
BGTR 20B-D20-JHP
BGTL 25B-D20-JHP
BGTR 25B-D20-JHP
BGM N-J
Narrow Material Cost Saving
Inserts for Grooving and Parting
up to 20 mm Bar Diameters
BGM N0801J
BGM N1001J
BGM N1201J
BGM N1501J
38.70
For tools, see pages: BGTR/L-B-JHP (448)
448
f groove CDX
Inserts for Parting up to
20 mm Bar Diameters
BGM R/L-J
BGM R/L1001J-15D
BGM R/L1001J-6D
449 PARTING
Oriented Pocket Carrying
TANG-GRIP Single-Ended
Inserts for Parting and Grooving
ISCAR CWN-CWX
Max
TGFH 26C-3-JHP
TGFH 32C-3-JHP
TGFH 26C-4-JHP
TGFH 32C-4-JHP
TGFH 32C-5-JHP
TGFH 32C-6-JHP (1)
Min
Carrying TANG-GRIP Inserts
TGFH-JHP
TGFH 19-2S
TGFH 19-3S
TGFH-S
Single-Sided Blades for
TANG-GRIP Inserts
• For Dmax and Tmax drawing, see SGBHR/L holder
R/L-C (464) • TAG R/L-J/JS (466)
SGBHR/L
Tool Blocks for SELF-GRIP
Single-Sided Blades
HTPRM
SGBHR/L 1010
SGBHR 1212
SGBHR 1414
SGBHR/L 1616
SGBHR/L 2020
SGBHR/L 2525
154.00
SR M5X25 DIN912
• For Dmax and Tmax dimensions, see TGFH-S adapters
For tools, see pages: TGFH-S (451)
451 PARTING
TGFHR 32 .
TGFHR/L
Single- and Double-Ended
Blades Carrying TANG-GRIP
TGFHL 26T16-2
TGFHR 26T16-3
TGFHR/L 26T23-2
TGFHR/L 26T23-3
TGFHR/L 32T22-2
TGFHR/L 32T22-3
TGFHR/L 32T33-3
TGFHR/L 32T33-4
TGFHR 26 .
110.50
66.0
TGFHL .
TGFHR/L-JHP
Blades with Channels for High
TGFHR . TGFHR .L
TGFHL .R
TGFHR/L 32C-3T33-JHP
TGFHL 32C-3T33R-JHP
TGFHR 32C-3T33L-JHP
452
TGSU .-4Z
TGSU
MAX.
TGSU 35-1.4-IQ
TGSU 35-2-IQ
TGSU 35-3-IQ-4Z
TGSU 35-4-IQ-4Z
TGSU 35-5-IQ
TGSU 35-6-IQ
TGSU 35-7-IQ
TGSU 35C-8-IQ (1)
TGSU 35C-9-IQ (1)
TGSU 56C-7-IQ (1)
TGSU 56C-8-IQ (1)
TGSU 56C-9-IQ (1)
Parting and Grooving Flat
Top Blades with Tangential
Pockets Carrying TANGGRIP Single-Ended Inserts
NOP(4)
59.5
144.0
2.50 (6)
53.6
ETG 8-12
(1) C- Internal coolant, use with TGTBU HD blocks only; cooling tube SGCU 341 should be ordered separately
(4) Number of pockets
(6) Thickness at the D.O.C. area is 1.05 mm
(7) Thickness at the D.O.C. area is 1.65 mm
For holders, see pages: TGTBU (453)
TGSU 35-3-IQ-4
TGSU 35-4-IQ-4
TGTBU
Tool Blocks for TGSU Parting
and Grooving Blades
WTHPRM
OAH H
WF(assembly)=WF(shank)+WF(adapter)
TGTBU 20-35
TGTBU 25-35
TGTBU 32-35
TGTBU 32-35 HD (1)
TGTBU 40-35
TGTBU 40-35 HD (1)
TGTBU 40-56 HD (1)
72.0
BKU 110
BK 509
SR M8X30DIN912
HD - recommended blocks for TGSU .-8, TGSU .-9 blades
For tools, see pages: TGSU (417)
453 PARTING
TGTBU-JHP
Tool Blocks for Parting
G 1/8"
TGTBU 16-5G-JHP
TGTBU 20-5G-JHP
TGTBU 20-35-JHP
TGTBU 20-6G-JHP
TGTBU 25-5G-JHP
TGTBU 25-6G-JHP
TGTBU 25-35-JHP
TGTBU 32-6G-JHP
TGTBU 32-35-JHP
Choose blade by prism height dimension
16.9
20.9
26.1
35.60
39.60
39.20
44.10
49.20
29.9
33.9
41.4
37.3
48.4
44.3
BKU 86
BKU 210
BKU 100
BKU 105
OR 14X2.5N
For tools, see pages: DGFH-JHP (253) • DGFHR/L-BC-JHP (427) • TGFH-JHP (451) • TGFHR/L-JHP (452)
TGFH-MB
Parting and Grooving Blades for
Other Manufacturers Blocks
TGFH 12MB-2 L58
TGFH 17MB-2 L58
TGFH 22MB-2 L58
TGFH 17MB-3
TGFH 22MB-3
TGFH 22MB-3-L84
TGFH 28MB-3
TGFH 17MB-4
TGFH 22MB-4
TGFH 22MB-4-L90
TGFH 28MB-4
TGFH 12MB-2
84.00
12.2
454
TGAD
Adapters for TANG-GRIP
TGAD 1.4N
TGAD 2N
TGAD 3N
TGAD 4N
TGAD 5N
For holders, see pages: 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) • C#-MAHD-JHP (593) •
C#-MAHPD-JHP (593) • IM-MAHPD (599) • MAHR/L-JHP-MC (263)
TGAD RE/LE-JHP
TGAD 2R/LE-D54-JHP
TGAD 3LE-D54-JHP
4.48
44.40
58.30
54.0
455 PARTING
TAGPAD-JHP
with Coolant Channels for
High Pressure Carrying
TAGPAD 2R/L-D42-JHP
TAGPAD 2R/L-D52-JHP
TAGPAD 3L-D42-JHP
TAGPAD 3L-D52-JHP
5.18
48.40
53.40
• For user guide and accessories see pages 484-492
## MAHD#-#-XL-JHP (524) • MA##### MAHD#-#-XL-JHP (522) • MAHR/L-JHP-MC (263) • MI## MAHD#-#-XL-JHP (526) • MORI## MAHD#-#-XL-JHP (521) •
MS##-##-MG-JHP (501) • MS-ES#####-GWS-MG-JHP (502) • NT## MAHD#-#-XL-JHP (527) • OKUMA # MAHD#-#-XL-JHP (528) • TR45 MAHDR-#-XL-JHP (530) • V##
MAHD#-#-XL-##-JHP (529) • V## MAHD-XL-JHP (530) • VDI##### MAHD#-#-XL-JHP (518) • VDI###-P MAHD#-#-XL-JHP (519)
TAGPAD 3R/L-D42-JHP
TAGPAD 3R/L-D52-JHP
TAGPAD-XL-JHP
outlet
Long Adapters with Channels
TAGPAD-XL 2R/L-D65-JHP
TAGPAD-XL 3R/L-D52-JHP
TAGPAD-XL 3L-D65-JHP
TAGPAD-XL 3R/L-D82-JHP
TAGPAD-XL 4L-D52-JHP
TAGPAD-XL 4L-D65-JHP
TAGPAD-XL 4L-D82-JHP
TAGPAD-XL 4R/L-D102-JHP
59.90
70.40
102.0
For holders, see pages: ABC MAHDR-#-XL-JHP (532) • BI## MAHD#-#-XL-JHP (525) • BMT## MAHD#-#-XL-JHP (520) • C# MAHD#-#-XL-JHP (523) • HSK T ##
MAHD#-#-XL-JHP (524) • MA##### MAHD#-#-XL-JHP (522) • MAHR/L-MG-XL-JHP (457) • MAHR/L-MG-XL-JHP-MC (457) • MI## MAHD#-#-XL-JHP (526) • MORI##
MAHD#-#-XL-JHP (521) • NT## MAHD#-#-XL-JHP (527) • OKUMA # MAHD#-#-XL-JHP (528) • TR TNK36 MAHDL-R-XL-JHP (531) • TR45 MAHDR-#-XL-JHP (530) •
TR45TNL MAHDN-R-XL-JHP (531) • V## MAHD#-#-XL-##-JHP (529) • V## MAHD-XL-JHP (530) • VDI##### MAHD#-#-XL-JHP (518) • VDI###-P MAHD#-#-XL-JHP (519)
456
ISCAR Bar Max
Interchangeable Adapters
G1/8x3
MAHR/L 20-MG-XL-JHP
MAHR/L 25-MG-XL-JHP
149.10
MAHR/L-MG-XL-JHP
For tools, see pages: DGPAD-XL-JHP (437) • TAGPAD-XL-JHP (456)
MAHL 25-MG-XL-JHP
MAHR 25-MG-XL-JHP
SR M6X14-XT DIN 912
MAHR/L-MG-XL-JHP-MC
Holders with Bottom Inlets
Channels Carrying Parting
and Grooving Adapters
f3
Right-hand WF
MAHR/L 20-MG-XL-JHP-MC
MAHR/L 25-MG-XL-JHP-MC
116.10
114.00
• For Tmax, refer to the adapters data
457 PARTING
NMAHR/L-JHP
MODU-GRIP Adapters
NMAHR/L 20-MG-JHP
NMAHR/L 25-MG-JHP
WF(assembly)=WF+WF(adapter)
For tools, see pages: D/HGAD RE/LE-JHP (437) • PCAD RE/LE-JHP (301) • TGAD RE/LE-JHP (455)
458
OR 5X1N H
TGFS 0-17-2
TGFS 0-17-3
TGFS 5-17-2
TGFS 5-17-3
TGFS 5-17-4
TGFS 5-22-2
TGFS 5-22-3
TGFS 5-22-4
TGFS 5-28-4
Machines - Replacement for
TGFS
28.6
30.4
TGTR/L-IQ
Integral Shank TANGGRIP Toolholders for
TGTR/L 1010-1.4-IQ
TGTR/L 1212-1.4-IQ
TGTR/L 1616-1.4-IQ
TGTR/L 2020-1.4-IQ
TGTR/L 1010-1.6-IQ
TGTR/L 1212-1.6-IQ
TGTR/L 1616-1.6-IQ
TGTR/L 1010-2-IQ
TGTR/L 1212-2-IQ
TGTR/L 1612-2-L120-IQ
TGTR/L 1616-2-IQ
TGTR/L 2012-2-IQ
TGTR/L 1212-3-IQ
TGTR/L 1612-3-L120-IQ
TGTR/L 1616-3-IQ
TGTR/L 2012-3-IQ
TGTR/L 2020-3-IQ
TGTR/L 2525-3-IQ
TGTR 2525K-3 (1)
TGTR/L 2020-4-IQ
TGTR/L 2525-4-IQ
TGTR/L 2020-5-IQ
TGTR/L 2525-5-IQ
TGTR/L 2525-6-IQ
1.64
120.50
150.50
23.4
57.0
(1) With coolant
459 PARTING
TGTR/L-IQ-2Z
Integral Shank TANG-GRIP
Toolholders with 2 Pockets
TGTR/L 2020-3-IQ-2Z
TGTR/L 2525-3-IQ-2Z
TGTR/L 2020-4-IQ-2Z
TGTR/L 2525-4-IQ-2Z
98.90
20-25 mm shanks
TGTR/L-JHP
10-16 mm shanks
CNT (Inlet ports)
TGTR/L 1010-2JHP
TGTR/L 1212-2JHP
TGTR/L 1616-2JHP
TGTR/L 2012-2JHP
TGTR/L 1616-3JHP
TGTR/L 2020-3JHP
TGTR/L 2525-3JHP
TGTR/L 2020-4JHP
TGTR/L 2525-4JHP
1.72
25.5
TGTR/L .-2JHP
TGTR/L .-3JHP
TGTR/L .-4JHP
TGTL 2525-3JHP
TGTR 2525-3JHP
460
ETG 2-SH-T*
HW 5/32" TGTR/L-JHP-MC
TGTR/L 2020-D42-2-JHP-MC
TGTR/L 2020-D65-3-JHP-MC
TGTR/L 2020-D82-3-JHP-MC
TGTR/L 2525-D65-3-JHP-MC
TGTR/L 2525-D82-3-JHP-MC
Parting and Grooving Toolholders
with Bottom Inlets for High
25.1
99.00
119.00
126.00
134.50
37.6
38.8
40.5
49.5
For holders, see pages: V-ASH-MC (532)
TGTL 2020-D42-2-JHP-MC
TGTR 2020-D42-2-JHP-MC
TGTL 2020-D65-3-JHP-MC
TGTR 2020-D65-3-JHP-MC
TGTL 2020-D82-3-JHP-MC
TGTR 2020-D82-3-JHP-MC
TGTL 2525-D65-3-JHP-MC
TGTR 2525-D65-3-JHP-MC
TGTL 2525-D82-3-JHP-MC
TGTR 2525-D82-3-JHP-MC
TGTR/L-2T SH-L120
Integral Shank Short-Head
TANG-GRIP Toolholders for
TGTR/L 1010-2T10SH-L120-IQ
TGTR/L 1212-2T15SH-L120-IQ
TGTR/L 1616-2T18SH-L120-IQ
TGTR/L 10
10.1
12.1
16.1
CDX(3) CUTDIA(4)
(4) For parting
For inserts, see pages: TAG N-A (467) • TAG N-C/W/M (463) • TAG N-J/JS/JT (465) • TAG N-LF (466) • TAG N-MF (464) • TAG N-UT (467) • TAG R/L-C (464) • TAG
R/L-J/JS (466)
461 PARTING
TGTR/L 19…D65
TGTR/L-D
TGTR/L 16…D52
Toolholders with Reinforced
Blades for Parting and Grooving
Mainly Sub-Spindle Machines
TGTR/L 1616-2-D52-IQ
TGTR/L 2020-2-D65-IQ
TGTR/L 1616-3-D52-IQ
TGTR/L 2020-3-D65-IQ
CW CWN(1) CWX(2)
Depth Capacity DGTR/L-D
Table Determining Depth of Cut
Function of Workpiece Diameter
TGFHL-TR
Reinforced Blades for TRAUB and
Index Machines Carrying TANGGRIP Tangentially Clamped Inserts
TGFHL 26-2TR-D36
TGFHL 26-2TR-D36R
TGFHL 26-3TR-D36
TGFHL 26-3TR-D36R
.TR-D36R
.TR-D36
For holders, see pages: SGTBR/L (587) • SGTBU/SGTBN (586) • UBHCR/L (587)
INDEX
462
TAG N-HF
Single-Ended Inserts for High
Feed Parting & Grooving, Hard
TAG N3HF
TAG N4HF
TAG N5HF
0.040
0.25-0.35
0.30-0.40
For tools, see pages: ADMP D45 (472) • TAGPAD-JHP (456) • TAGPAD-XL-JHP (456) • TGAD (455) • TGAD RE/LE-JHP (455) • TGFH-JHP (451) • TGFH-MB (454) •
TGFH-S (451) • TGFH/R/L (318) • TGFHL-TR (462) • TGFHR/L (452) • TGFHR/L-JHP (452) • TGFS (459) • TGTR/L-D (462) • TGTR/L-IQ (459) • TGTR/L-IQ-2Z (460)
• TGTR/L-JHP-MC (461)
TAG N-C/W/M
Single-Ended Inserts for Parting,
Grooving and Slitting Bars, Hard
3.05
TAG N1.4C
TAG N1.6C
TAG N2C
TAG N2.4C
TAG N3CB (1)
TAG N3C
TAG N3M (2)
TAG N3W
TAG N4C
TAG N4CB (1)
TAG N4M (2)
TAG N4W
TAG N4.8C
TAG N5C
TAG N6.3C
TAG N7W
TAG N8C
TAG N9.5C
TAG N9.5W
TAG N12.7W
0.22-0.80
(1) Larger corner radii for interrupted cut and high feed applications
(2) Similar to C-type, but with a modified edge; improved chip control at medium feeds
For tools, see pages: ADMP D45 (472) • Anti-Vibration Blades (268) • TAGPAD-JHP (456) • TAGPAD-XL-JHP (456) • TGAD (455) • TGAD RE/LE-JHP (455) • TGBHR/L
(316) • TGBHR/L-JHP (317) • TGFH-JHP (451) • TGFH-MB (454) • TGFH-S (451) • TGFH/R/L (318) • TGFHL-TR (462) • TGFHR/L (452) • TGFHR/L-JHP (452) • TGFS
(459) • TGSU (417) • TGTR/L-2T SH-L120 (461) • TGTR/L-D (462) • TGTR/L-IQ (459) • TGTR/L-IQ-2Z (460) • TGTR/L-JHP (460) • TGTR/L-JHP-MC (461)
463 CW
PSIRL PSIRR
4.05
TAG L2C-6D
TAG R2C-6D
TAG R2.4C-8D
TAG L3C-6D
TAG R3C-6D
TAG R3C-8D
TAG L3C-15D
TAG R3C-15D
TAG L4C-4D
TAG R4C-4D
TAG L5C-4D
TAG R5C-4D
TAG L6.3C-4D
TAG R6.3C-4D
Single-Ended Inserts for Parting
Bars, Hard Materials and
Tough Parting Applications
TAG R/L-C
TAG N-MF
Grooving and Slitting Stainless
and Alloy Steel at Medium Feed
TAG N2MF
TAG N3MF
TAG N4MF
TAG N5MF
TGFH-S (451) • TGFH/R/L (318) • TGFHL-TR (462) • TGFHR/L (452) • TGFHR/L-JHP (452) • TGFS (459) • TGTR/L-2T SH-L120 (461) • TGTR/L-D (462) • TGTR/L-IQ
(459) • TGTR/L-IQ-2Z (460) • TGTR/L-JHP (460) • TGTR/L-JHP-MC (461)
464
ISCAR J
Single-Ended Inserts for
Parting, Grooving and
Slitting Soft Materials
0.34
3.25
7.05
TAG N1.4J
TAG N1.6J
TAG N2J
TAG N2JS (1)
TAG N2JT
TAG N3J
TAG N3JS (1)
TAG N3JT
TAG N3.2JT
TAG N4J
TAG N4JT
TAG N5J
TAG N5JT
TAG N6.3J
TAG N6.3JT
TAG N7JT
TAG N-J/JS/JT
• JT chipformer has the basic positive configuration of the J-type and a reinforced negative frontal edge; most suitable for soft materials at low to medium feeds.
(1) Sharp corners cannot be used on TGSF slitting cutters
For tools, see pages: ADMP D45 (472) • TAGPAD-JHP (456) • TAGPAD-XL-JHP (456) • TGAD (455) • TGAD RE/LE-JHP (455) • TGBHR/L (316) • TGFH-JHP (451) •
TGFH-MB (454) • TGFH-S (451) • TGFH/R/L (318) • TGFHL-TR (462) • TGFHR/L (452) • TGFHR/L-JHP (452) • TGFS (459) • TGSU (417) • TGTR/L-2T SH-L120 (461) •
TGTR/L-D (462) • TGTR/L-IQ (459) • TGTR/L-IQ-2Z (460) • TGTR/L-JHP (460) • TGTR/L-JHP-MC (461)
465 CW
TAG L1.4J-8D
TAG R1.4J-8D
TAG L1.4JS-10D (1)
TAG R1.4JS-10D (1)
TAG L2J-6D
TAG R2J-6D
TAG L2JS-6D (1)
TAG R2JS-6D (1)
TAG L2J-15D
TAG R2J-15D
TAG L2JS-15D (1)
TAG R2JS-15D (1)
TAG L3J-6D
TAG R3J-6D
TAG L3JS-6D (1)
TAG R3JS-6D (1)
TAG L3J-15D
TAG R3J-15D
TAG L3JS-15D (1)
TAG R3JS-15D (1)
TAG L4J-4D
TAG R4J-4D
TAG L5J-4D
TAG R5J-4D
TAG L6.3J-4D
TAG R6.3J-4D
TANG-GRIP Inserts for Parting
TAG R/L-J/JS
TAG N-LF
Slitting Stainless Steel
TAG N2LF
TAG N3LF
(459) • TGTR/L-IQ-2Z (460) • TGTR/L-JHP-MC (461)
466
TAG N-UT
Single-Sided Inserts for Parting,
Grooving & Slitting at Low
Feeds on Cr-Ni Alloys, Ductile
Materials & Low Carbon Steel
TAG N2UT
TAG N3UT
TAG N4UT
TAG N5UT
TAG N6UT
TGFH-MB (454) • TGFH-S (451) • TGFH/R/L (318) • TGFHL-TR (462) • TGFHR/L (452) • TGFHR/L-JHP (452) • TGFS (459) • TGTR/L-2T SH-L120 (461) • TGTR/L-D
(462) • TGTR/L-IQ (459) • TGTR/L-IQ-2Z (460) • TGTR/L-JHP-MC (461)
TAG N-A
Grooving and Slitting Aluminum
TAG N2A
TAG N3A
TAG N4A
467 PARTING
OAL assembly
TGTBQ-JHP
Tool Blocks for Parting and
Grooving Square Blades
TANG-F-GRIP & DO-F-GRIP
Coolant inlet G1/8
TGTBQ 20L-D52-JHP
TGTBQ 20R-D52-JHP
TGTBQ 25L-D52-JHP
TGTBQ 25R-D52-JHP
TGTBQ 20L-D82-JHP
TGTBQ 20R-D82-JHP
TGTBQ 25L-D82-JHP
TGTBQ 25R-D82-JHP
TGTBQ 32L-D82-JHP
TGTBQ 32R-D82-JHP
TGTBQ 25L-D120-JHP
TGTBQ 25R-D120-JHP
TGTBQ 32L-D120-JHP
TGTBQ 32R-D120-JHP
38.50
132.00
165.00
Table determining depth of cut for grooving as function of workpiece diameter
TGTBQ .D52-JHP
53
TGTBQ .D82-JHP
107 110 114 119 124 130 137 145 154 165 178 194 213 237 267 308 363 443
57
61
96 107 122 141 169
TGTBQ .D120-JHP 202 210 219 229 240 253 267 283 302 324 349 380 417 462 518 592 689 827
21 20 19 18 17 16 15 14 13 12 11 10 9
89
98 101 103
TGTBQ .D120-JHP 139 141 143 145 148 150 153 156 160 164 168 172 177 183 188 195
37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22
TGTBQ .D120-JHP 121
122 123 123 124 125 125 126 127 128 129 130 131 132 134 135 137
56-60 53-55 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38
3.
4.
5.
6.
7.
Block: TGTBQ .D .
Blade: T/DGAQ .
Locating Pin: Side thrust Pin 3mm
Screw: SR M4x10 ISO 14580
Screw: SR M4x9-Seal-JHP
Seal washer: CSW 1/8’’
O-ring: O-ring 10x2 NBR
SR M4X9-SEAL-JHP
SIDE THRUST PIN 3mm
SR ISO 14580 M4X10 D82
D120
TGAQ-JHP
Parting and Grooving Square
Blades for TANG-GRIP
TGAQ D52-2-2Z-JHP
TGAQ D52-3-2Z-JHP
TGAQ D52-4-2Z-JHP
TGAQ D82-2-4Z-JHP
TGAQ D82-3-4Z-JHP
TGAQ D82-4-4Z-JHP
TGAQ D120-3-4Z-JHP
TGAQ D120-4-4Z-JHP
TGAQ D120-5-4Z-JHP
61.00
90.50
90.5
43.5
58.0
D52
TGAQ D52/82/-2 .-JHP
TGAQ D52/82/120-3- .-JHP
TGAQ D52/82/120-4- .-JHP
TGAQ D120-5-JHP
4-7
6-9
ETG 3-4-SH
469 PARTING
TWISTED 2-SIDED
DGAQ-JHP
D82
DGAQ D52-2-2Z-JHP
DGAQ D52-3-2Z-JHP
DGAQ D52-4-2Z-JHP
DGAQ D82-3-2Z-JHP
DGAQ D82-4-2Z-JHP
DGAQ D82-5-2Z-JHP
DGAQ D120-4-4Z-JHP
DGAQ D120-5-4Z-JHP
64.4
• When using 2 and 3mm double-sided inserts, the depth of cut is limited up to 19mm. For larger depth, use a DGNM type single-ended insert.
DGAQ D52/82-3-2Z-JHP
DGAQ D52/82/120-4- .-JHP
DGAQ D82/120-5- .-JHP
EDG 33A
EDG 33A* Bar Max
CNT (typx3) H
THMPR/L D22-JHP
THMPR/L 16-D22-JHP
THMPR/L 20-D22-JHP
Coolant Channels for Pentagonal
SELF-GRIP Adapters
For tools, see pages: ADMP D22 (471)
THMPR/L .-D22-JHP CDX to CUTDIA
≤2.0
≤3.0
≤4.0
≤5.0
≤6.0
≤7.0
≤8.0
≤11.0
THMPR 16-D22-JHP
THMPL 20-D22-JHP
THMPR 20-D22-JHP
SR M4X8 DIN912
ADMP D22
Adapters With 5 Pockets
for SELF-GRIP Inserts
ADMP D22-1.2
ADMP D22-1.6
1.06
GFT 1.2
GFT 1.6
For holders, see pages: THMPR/L D22-JHP (471)
ESG-SLM*
471 PARTING
GFT-J
Thin Parting, Grooving
& Slitting Single-Ended
THMPR/L D45-JHP
TANG-GRIP Adapters
THMPR/L 20-D45-JHP
THMPR/L 25-D45-JHP
GFT 0.8J-0.1
GFT 1.0J-0.1
GFT 1.2J-0.14
GFT 1.6J-0.16
17.35
22.35
For tools, see pages: ADMP D45 (472)
SR M3X8 ISO 14580 BLACK
T-10/5(a)
For optimal tightening torque, use SW4-FIX T10 optional torque limiting screwdriver.
ADMP D45
With 5 Pockets for TANG-GRIP
ADMP D45-2.0
ADMP D45-3.0
For holders, see pages: THMPR/L D45-JHP (472)
THMPR/L .-D45-JHP Tmax. to Dmax.
T≤3.0
T≤4.0
T≤22.5
472
Dmax (CUTDIA) PARTING
GIM-C
Parting and Grooving Single-Sided
GIM 3C
GIM 4C
GIM 5C
GIM 6C
GIM-J
Utility Single-Sided Inserts
Soft Materials, Tubes
and Small Diameters
IC656
GIM 2.2J
GIM 3J
GIM 4J
473 7°
Soft Materials, Parting Tubes
RA
LA
GIM 2.2J-8LA
GIM 2.2J-8RA
GIM 2.2JS-15LA
GIM 2.2JS-15RA
GIM 3J-4LA
GIM 3J-4RA
GIM 3J-8LA
GIM 3J-8RA
GIM 3JS-15LA
GIM 3JS-15RA
GIM 4J-6LA
GIM 4J-6RA
GIM-J-RA/LA
GIM-W
Single-Sided Inserts with
Central Ridged Chipformer and
Reinforced Edge for Parting
and Grooving Alloy Steel
GIM 2.4
GIM 3
GIM 3.2
GIM 4
GHMR/L (258)
474
0.05-0.08 PARTING
GIM-W-RA/LA
Single-Sided Screw-Clamped
Inserts with Central Ridged
Chipformer for Parting Alloy Steel
GIM 3-4LA
GIM 3-4RA
GIM 3-8LA
GIM 3-8RA
GIM 3S-15RA
GIM 3.2-4LA
GIM 3.2-4RA
GIM 3.2-8LA
GIM 3.2-8RA
GIM 4-4LA
GIM 4-4RA
GIM 4-8LA
GIM 4-8RA
GIM-UT
Single-Ended Screw-Clamped
at Low Feeds on CrNi Alloys
GIM 4.6UT
GIM-UT-RA/LA
Single-Ended ScrewClamped Inserts for Parting
GIM 3UT-1.5RA
3.12
475 PARTING
PCHR/L-D-IQ
Tools Carrying Inserts
with 5 Cutting Edges
PCHR/L 12-D22-2-IQ
PCHR/L 16-D22-2-IQ
PCHR/L 20-D22-2-IQ
PCHR/L 12-D22-3-IQ
PCHR/L 16-D22-3-IQ
PCHR/L 20-D22-3-IQ
PCHR/L 12-D32-2-IQ
PCHR/L 16-D32-2-IQ
PCHR/L 20-D32-2-IQ
PCHR/L 25-D32-2-IQ
PCHR/L 12-D32-3-IQ
PCHR/L 16-D32-3-IQ
PCHR/L 20-D32-3-IQ
PCHR/L 25-D32-3-IQ
PCHR/L 16-D40-3-IQ
PCHR/L 20-D40-3-IQ
PCHR/L 25-D40-3-IQ
PCHR/L 32-D40-3-IQ
30.70
26.9
28.4
33.3
25.70
33.60
33.6
32.6
For inserts, see pages: PENTA D-N-C (478) • PENTA D-N-J (478) • PENTA D-N-PB (479) • PENTA D-R/L-C (479) • PENTA D-R/L-J (478) • PENTA D-R/L-PB (479)
Tmax as a Function of Dmax for PENTA D22
T≤1.2
T≤2.0
T≤11.0
N.L (1)
Tmax as a Function of Dmax for PENTA D32
T≤2
T≤8.0 T≤9.0 T≤16.0
Tmax as a Function of Dmax for PENTA D40
T≤1.2 T≤2 T≤3.0 T≤4.0 T≤5.0 T≤6.0 T≤7.0 T≤8.0 T≤9.0 T≤10.0 T≤11.0 T≤12.0 T≤13.0 T≤16.0 T≤20.0
N.L (1) N.L (1) N.L (1) 350
N.L = No Limit
SR M6-R-L
SR M7-R-L
LEVER PD22-2 INJ
LEVER PD22-3 INJ
LEVER PD32-2 INJ
LEVER PD32-3 INJ
LEVER PD40 INJ
SW6-SD PCHR/L-D-JHP
Grooving and Parting Tools
Edges and Channels for
PCHR/L 12-D22-2-JHP
PCHR/L 16-D22-2-JHP
PCHR/L 20-D22-2-JHP
PCHR/L 12-D32-2-JHP
PCHR/L 16-D32-2-JHP
PCHR/L 20-D32-2-JHP
PCHR/L 25-D32-2-JHP
PCHR/L 16-D40-3-JHP
PCHR/L 20-D40-3-JHP
PCHR/L 25-D40-3-JHP
11.15
15.21
101.50
121.50
25.9
36.3
35.1
PCHR/L D22-2 .-JHP Dmax for Partting Off 22/T11
T≤1.0 T≤2.0 T≤3.0 T≤4.0 T≤5.0 T≤6.0 T≤7.0
PCHR/L D32-2 .-JHP Dmax for Partting Off 32/T16
T≤11.0 T≤12.0 T≤13.0 T≤14.0 T≤15.0
PCHR/L D40-3 .-JHP Dmax for Partting Off 40/T20
49
73
T≤11.0 T≤12.0 T≤13.0 T≤14.0 T≤15.0 T≤16.0 T≤17.0 T≤18.0 T≤19.0
Dmax (CUTDIA)
PCHR/L .-2JHP
PCHR/L .-3JHP
70 bar
100 bar
140 bar
BLD T15/S7(a)
BLD T20/S7(b)
(a) For limiting torque, use optional BLD 4 T15-4.8NM blade & HSD 4-4.8NM handle.
(b) For limiting torque, use optional BLD 6 T20 blade & TSA 6 5-14 handle.
477 PARTING
PENTA D-N-J
PENTA D22N200J020
PENTA D22N300J020
IC808G
For tools, see pages: PCHR/L-D-IQ (476) • PCHR/L-D-JHP (477)
PENTA D-R/L-J
for Parting Tubes, Small
PENTA D22L200J-6D
PENTA D22R200J-6D
PENTA D22L200J-15D
PENTA D22R200J-15D
PENTA D22L300J-6D
PENTA D22R300J-6D
PENTA D22L300J-15D
PENTA D22R300J-15D
PENTA D-N-C
PENTA D32N200C020
PENTA D32N300C020
PENTA D40N300C020
3.02
30.25
37.80
478
f groove Inserts with 5 Cutting Edges for
Parting Hard Materials, Tough
and General Applications
PENTA D32L200C-6D
PENTA D32R200C-6D
PENTA D32L200C-15D
PENTA D32R200C-15D
PENTA D32L300C-6D
PENTA D32R300C-6D
PENTA D32L300C-15D
PENTA D32R300C-15D
PENTA D40L300C-6D
PENTA D40R300C-6D
PENTA D40L300C-15D
PENTA D40R300C-15D
PENTA D-R/L-C
PENTA D-N-PB
and Grooving Bearing Steel
PENTA D40N300PB020
PENTA D-R/L-PB
Pentagonal Inserts for
Parting Bearing Steel and
other Ductile Materials
PENTA D40L300PB-6D
PENTA D40R300PB-6D
PENTA D40L300PB-15D
PENTA D40R300PB-15D
479 PARTING
PENTA 24R/L-J
R.H.
L.H.
PENTA 24L100J15D
PENTA 24R100J15D
PENTA 24L150J06D
PENTA 24L150J15D
PENTA 24R150J06D
PENTA 24R150J15D
PENTA 24L200J06D
PENTA 24L200J15D
PENTA 24R200J06D
PENTA 24R200J15D
(3) For grooving and parting depths relative to part diameter, see page 481
CDX RE
PENTA 24R-C
PENTA 24R150C06D
PENTA 24R200C06D
ISCAR PENTA 24R/L-Z
RH
PENTA 24L150Z06D
PENTA 24L150Z15D
PENTA 24R150Z06D
PENTA 24R150Z15D
PENTA 24L200Z06D
PENTA 24L200Z15D
PENTA 24R200Z06D
PENTA 24R200Z15D
PENTA 24L300Z06D
PENTA 24L300Z15D
PENTA 24R300Z06D
PENTA 24R300Z15D
medium feeds • For cutting speed recommendations and user guide, see pages 484-492
W±0.02
W=0.50
W=0.80
W=1.00
1.04≤W≤1.40
W=1.47
W=1.50
1.57≤W≤1.96
W=2.00
2.22≤W≤2.30
2.39≤W≤2.50
2.70≤W≤3.18
3.19≤W≤3.74
3.75≤W≤4.00
4.01≤W≤4.23
Tmax(1)
Tmax / Dmax
6.0(2)
Dmax as a Function of Parting / Grooving Depth (T) for PENTA 24 Inserts
T≤3.5
T≤4.5
T≤5.5
T≤6.2
T≤6.4
Dmax for parting = 2 x Tmax
For full radius insert , Tmax = 3.0, Dmax = No limit
481 PARTING
PENTA 24R-P
for Parting Soft Materials, Thin
Walls and Miniature Parts
PENTA 24R100P06D
PENTA 24R100P15D
PENTA 24R150P06D
PENTA 24R150P15D
PENTA 24R200P06D
PENTA 24R200P15D
PENTA 34R/L-C
R.H. L.H.
PENTA 34L150C08D
PENTA 34R150C08D
PENTA 34L200C06D
PENTA 34R200C06D
PENTA 34L200C15D
PENTA 34R200C15D
PENTA 34L300C06D
PENTA 34R300C06D
PENTA 34L300C15D
PENTA 34R300C15D
CUTDIA(1)
(1) For grooving and parting depths relative to part diameter, see page 483
482
0.06-0.14
0.06-0.12 PSIRL
PENTA 34R/L-J
PENTA 34L150J06D
PENTA 34L150J15D
PENTA 34R150J06D
PENTA 34R150J15D
PENTA 34L200J06D
PENTA 34L200J15D
PENTA 34R200J06D
PENTA 34R200J15D
CUTDIA(2)
(2) For grooving and parting depths relative to part diameter, see page 483
PENTA 34R/L-PB
PENTA 34R150PB-6D
PENTA 34L150PB-6D
PENTA 34R200PB-6D
PENTA 34L200PB-6D
PENTA 34R300PB-6D
PENTA 34L300PB-6D
• For cutting speed recommendations and user guide, see page 483
1.50 ≤ W ≤ 2.69
2.70 ≤ W ≤ 4.00
Dmax as a Function of Parting / Grooving Depth (T) for PENTA 34 Inserts
483 PARTING
Non-alloy steel and cast steel, free
cutting steel
(less than 5% of alloying elements)
cast steel
Titanium Ti alloys
wrought alloy
alloyed
Aluminum-
Aluminum-cast,
Ferritic/pearlitic
Cast iron nodular (GGG)
Stainless steel and
High alloyed steel, cast steel,
and tool steel
41 USER GUIDE
Parting Speed Recommendations
IC1010/
IC908/808/1008
IC1030/
IC830/928/1028
130 - 190
135 - 200
110 - 160
100 - 150
95 - 140
120 - 160
125 - 170
100 - 135
95 - 125
85 - 120
125 - 190
85 - 130
80 - 130
100 - 170
85 - 140
55 - 95
50 - 85
170 - 300
110 - 200
85 - 150
80 - 140
75 - 135
150 - 290
100 - 190
75 - 145
140 - 260
85 - 160
70 - 130
65 - 120
60 - 110
170 - 305
145 - 270
70 - 125
150 - 215
60 - 90
140 - 230
190 - 320
170 - 280
360 - 1080
330 - 990
300 - 900
270 - 900
250 - 825
225 - 750
180 - 540
165 - 495
150 - 450
180 - 360
150 - 300
130 - 270
120 - 250
110 - 225
90 - 180
80 - 165
75 - 150
40 - 180
40 - 165
35 - 150
IC830/328/928/1028
50 - 70
45 - 70
40 - 60
40 - 65
30 - 40
20 - 35
115 - 190
110 - 185
95 - 160
485 PARTING
ISCAR Parting Grades Chart
K15-K30 S10-S20
N05-N25 S10-S25
AlTiCrN
486
A very hard submicron substrate with AlTiCrN + TiN PVD coating and a special SUMO TEC
surface treatment. Suitable for parting and grooving of steel, alloy steels, austenitic stainless steel,
high temperature alloys and hard steels at medium to high cutting speeds.
A tough submicron substrate with AlTiCrN + TiN PVD coating and a special SUMO TEC surface treatment.
Recommended for general use in parting and grooving operations on large variety of materials as well as
steel, alloy steels, austenitic stainless steel, heat resistant alloys at low to medium cutting speeds.
AlTiCrN + TiN PVD coated grade with a special SUMO TEC surface treatment on very tough substrate
for parting and grooving of steel and stainless steel at low to medium speeds and medium to high feeds.
A very hard submicron substrate with AlTiCrN PVD coating. Suitable for parting and grooving of steel, alloy
steels, austenitic stainless steel, high temperature alloys and hard steels at medium to high cutting speeds.
A tough submicron substrate with AlTiCrN PVD coating. Recommended for general use in parting and grooving operations on
large variety of materials as well as steel, alloy steels, stainless steel, high temperature alloys at low to medium cutting speeds.
A tough submicron substrate with AlTiCrN + TiN PVD coating. Recommended for general
use in parting and grooving operations on large variety of materials as well as steel, alloy
steels, stainless steel, high temperature alloys at low to medium cutting speeds.
AlTiN + TiN PVD coated grade overlays on tough submicron substrate. Recommended for general
use in parting and grooving operations on large variety of materials as well as steel, alloy steels,
austenitic stainless steel, high temperature alloys at low to medium cutting speeds.
AlTiN + TiN PVD coated grade on very tough substrate for parting and grooving applications
at high feeds and low to medium speeds. Suitable for steels and stainless steel.
MTCVD TiCN and Al2O3 coated grade with the SUMO TEC post coating treatment on very tough substrate for parting
and grooving of steel and stainless steel at low to medium cutting speeds under stable and unstable cutting conditions.
A cermet grade, used for parting and grooving 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 carbide grade. Used for parting and grooving of aluminum and other nonferrous materials at medium
to high cutting speeds. Suitable also for titanium and high temperature alloys machining at low cutting speeds.
487 USER GUIDE
Insert Support
A self-clamped tool is recommended
for deep radial machining.
A screw-clamp holder is recommended for
axial and small D.O.C. machining.
Width of Cut (W.O.C.) and
Depth of Cut (D.O.C.)
Holder or Blade Size
The workpiece material affects all of the above factors.
Machine Power and Setup Rigidity
Excessive W.O.C. on a light-duty machine will yield
vibration and may even stop spindle rotation.
Expensive Workpiece Material
On costly metals the narrowest applicable
W.O.C. should be used.
To minimize risk of vibration and deflection always choose:
Blade or toolholder with smallest possible overhang.
Toolholder with maximum shank dimension.
Blade height (B) dimension which is larger than Tmax.
Blade or holder with maximum blade width
(largest possible insert seat size).
A W.O.C. 9.5 mm on blade TGFH 53K-9
(B=52.6 mm) extends the ratio of D.O.C.
to W.O.C. by some 50% to 120 mm.
It is very important that the insert is mounted at 90º
to the center line of the workpiece in order to obtain
perpendicular surfaces and reduce the risk of vibration.
Workpiece Machinability
In selecting W.O.C., the main factor to consider is the
required D.O.C. The ratio D.O.C.≈ 8xW.O.C. is of practical
use on alloy steel of average machinability.
For example, applying a 3 mm W.O.C. insert TAG N3C
to cut-off a 48 mm solid bar.
Additional factors which affect D.O.C.
capacity, relative to the ratio, are:
90˚ Mounting
Selection of Inserts
For a proper match of insert and cutting
material to application, the following variables
must be taken into consideration:
Width of cut (width of insert)
Chipformer style
Lead angle
Corner radius
Carbide grade
0.1/1000
Insert Positioning
The Twisted Insert for Cut-Off and
Grooving Applications
Machining depths longer than insert length is made
possible with the double-ended, twisted insert body.
The rear edge is slanted in relation to the frontal
edge so it does not come into contact with
the machined groove surface when the tool
penetrates deeply into the workpiece.
Extended, prismatic surfaces guarantee reliable, foolproof
clamping even in unstable machining conditions.
Screw-Clamping
Small diameters (D.O.C.)
with screw-clamped Inserts
Self-Clamping
Large diameters (D.O.C.)
with self-clamped Inserts
488
ISCAR USER GUIDE
Setup
Usage
• The optimal cutting edge height above the center of
TANG-GRIP tools is up to 0.08 mm + 0.025 mm
W.O.C., an advantage when cutting solid bar to center
• Cut-off as close to chuck as possible
• On new applications, first machine in the low or
middle range of recommended speeds and feeds
• Replace worn inserts promptly, the price of a
new one is much less than the risk of damage
from continuing with one that is worn out
• Replace blades that have worn or damaged pockets
• Never try to repair damaged pockets
• Chip curling is dependent on the chipformer
type and the machining conditions
Machining
Consistency of speed and feed improves performance
Apply coolant abundantly
Secure inserts into clean pockets
Cutting forces on soft workpiece materials may
be insufficient to push insert well into pocket.
Tap insert into place using a plastic hammer
• On a conventional lathe, lock the carriage
to prevent axial motion during cut-off
Chipformer Features
• Narrows the chip
• Eliminates friction with groove walls,
prevents chip jam overload
• Permits higher feeds
• Produces unscratched surfaces,
eliminating additional facing
• Curls the chips into compact spirals for easy disposal
(0.08+0.025) max.
Center Height
Selection of Corner Radius
"S" Sharp Corners
Radii
JS/P
1. A smaller corner radius (r) will reduce the load on
the workpiece and produce a smaller size burr
2. At the same time, a large corner radius allows for
higher feeds and increased tool life
JS
"B" Large Corner Radius
Standard Corner Radius
• Standard medium corner size
• For general applications
and materials
• Cutting edge with positive
rake and sharp corners
• When a minimum burr
(pip) size is essential
• For small feeds
• For small diameters or thin walls
• For CNCs, multi-spindle
and screw machines
Medium (standard)
corner radius
• Reinforced corners with
stronger cutting edge
• For tough applications and
interrupted cuts
Large corner radius
489 PARTING
Lead Angle
Lead angle (K) on cut-off inserts reduces size of burr
remaining on workpiece. Increasing the lead angle
reduces the burr, but also reduces possible feed
rates and tool life.
Therefore, neutral inserts are recommended
for parts on which a burr is tolerated.
Insert designations such as TAG R . DGR (R.H.) and
TAG L . DGL (L.H.) comply with standard terms for
Left
TAG L/DGL
Neutral
TAG N/DGN
TAGR/GFR/DGR
Right
TAG R/DGR
turning direction. When looking toward the chuck from the
workpiece, R.H.=counterclockwise (C.C.) rotation of
workpiece and L.H.=clockwise (C)
rotation of workpiece. C.C. requires right-hand inserts; C
requires left-hand inserts.
A neutral insert with 0º lead angle increases
D.O.C. capacity.
TAGR/GFN/DGN
TAG R/DGR - WRONG
Neutral Insert vs. Lead Angle Type
Lifetime
Chip Control
Burr Size
490
Surface Finish
Part
Straaightness
4 USER GUIDE
General Rules for Specific Applications
Chamfer and Cut-Off
Break in and/or groove
Chamfer
Cut-off
V-Belt Pulley Grooves
3-4.
Break in
Multiple plunge to depth at minor width of groove
Bevel, plunge and turn to minor diameter
Neck Recessing
Multiple plunge grooves
Necking On neck turning, DOC (a)=up
to size of insert corner radius
Cut-Off on Eccentric Tubes
Inserts with 4º lead angle are usually recommended
for tubes. However, the combination of eccentric
bore and machine resiliency may increase feedsnap on breakthrough and damage the cutting
edge. Changing to 6º lead angle inserts will
moderate breakthrough. Alternatively, inserts
with an extra negative rake-land that strengthens
the cutting edge are available on request.
Clamping / Extraction Instructions
The tools are equipped with a user-friendly clamping and extraction device
ETG
5-7 (for 5-7 mm tools)
2 (for 2 mm tools)
1.4 (for 1.4 mm tools)
8-12 Extractor for 8 to 12.7 mm Inserts
Extracting
ETG 3-4 (for 3 and 4 mm tools)
The flat side of the
pin must face up
491 PARTING
Extractor for DGN/R/L Double-Ended Inserts
DO-GRIP Insert Clamping/Extracting
the insert
Eccentric Extractor for Insert Indexing
Simple to operate; controlled rotation requires low
force; guarantees limited upper jaw movement
and secures maximum load on blade.
Grade Application Range
IC807 (IC907)
IC1010 (IC808)
IC1030 (IC830)
Feed / Interrupted cut
Selection Guide for Parting Grades
Austenitic&Duplex
(Ferritic-Austenitic)
Harder IC807 (IC907) IC807 (IC907) IC807 (IC907)
Tougher IC1030
Temperature
Hard Steel
& Cast Iron
(IC907)
492
ISCAR 493
PARTING PARTING
MODULAR GRIP
Parting
ADAPTATIONS
Modular Adaptations Systems for
Turning Lathes and Multi-Spindle
Machine Tools Carrying ISCAR’s
MODULAR-GRIP Adapters Featuring
Directed Internal Coolant Channels
Product Features
• The unique combination of a rigid tool and
efficient coolant improves the insert’s tool life,
surface finish and part straightness
• Designed for high-pressure coolant up to
150 bars and also very efficient when using
low coolant pressure of 7-10 bars
• No coolant tubes involved, which means
no obstruction for chip evacuation
• Each adapter can carry several types
of MODULAR-GRIP blades
• Excellent tool location repeatability after
blade replacement for fast set-up
• Easy and user-friendly mounting
Available adapters for the following
specific machines:
STAR
DOOSAN
MAZAK
MORI SEIKI
BIGLIA
MIYANO
NAKAMURA-Tome
INDEX ABC
TRAUB
OKUMA
Multi-Spindle machine tools
• INDEX CNC
• Göltenbodt
All trademarks and logos are the property of their respective companies
Toolholder Systems for Multi-Spindle Machines
Features and Benefits
INDEX CNC Multi-Spindle Machines 496
Göltenbodt GWS System 497
Modular Grip Adapter with Internal Coolant 498
Tool Selection
INDEX CNC Multi-Spindle Machines 499
Göltenbodt GWS System . 500
Technical Information
INDEX CNC Multi-Spindle Machines 501
Göltenbodt GWS System . 502
Toolholder Systems for Turning Lathes
User Guide
Tool Selection Technical Information
ISCAR Modular System / Overview . 503
VDI Tools for STAR Turret 518
VDI Tools for STAR Turret 505
VDI Tools for Disc-Type Turret 519
VDI Tools for Disc-Type Turret . 506
BMT tools for DOOSAN Machines 520
BMT Tools for DOOSAN Machines . 507
Tools for MORI SEIKI Machines . 521
Tools for MORI SEIKI Machines . 508
Tools for MAZAK Machines . 522
Tools for MAZAK Machines . 509
Tools with CAMFIX Adaptation 523
Tools with CAMFIX Adaptation . 510
Tool with HSK-T Shank . 524
Tools with HSK Shank . 511
Tools for BIGLIA Machines 525
Tools for BIGLIA Machines 512
Tools for MIYANO Machines 526
Tools for MIYANO Machines 512
Tools for NAKAMURA-TOME Machines . 527
Tools for NAKAMURA-TOME Machines . 512
Tools for OKUMA Machines . 528
Tools for INDEX ABC Machines . 513
ISCAR Modular System Intermediate Holders . 529
Tools for TRAUB Machines 514
Tools for TRAUB Machines 530
MODULAR-GRIP-XL Adaptation 515
Tools for INDEX ABC Machines . 532
Tool Design - Overview 516
495 PARTING
Toolholder Systems for INDEX CNC
Multi-Spindle Machines with
MODULAR-GRIP Adaptation
and Directed Internal Coolant
Features and Benefits of Directed Internal Coolant
No coolant tube
Features:
Customized to
the work space
Easy indexing
Slide
Bar stopper
Benefits:
Coolant connection
through the slide
• High-end stability due to • Chips do not
optimized holder design
accumulate in
• No interfering contour
with the sub-spindle
(no coolant
• Reduced setup time due
tube/hose required)
to fixed adapter length
• Reliable coolant
• Exchangeable bar stopper
supply due to fixed
flow orientation
(no adjustable
coolant nozzle)
Coolant hole
• No tube/hose in
• Reduced setup time as
there are no
tube/hoses to
be installed
• Easy handling
due to clamping
screw accessible
from the side
• Stable screw clamping
496
ISCAR •
Toolholder Systems for Göltenbodt GWS
Multi-Spindle Machines with MODULAR-GRIP
Adaptation and Directed Internal Coolant
For various common multi-spindle machines such as:
GILDEMEISTER
MORI-SAY
TORNOS
and others
Matches intermediate
holders with internal
coolant
• Low investment
• Easy switching to toolholders
with internal coolant
Coolant connection directly
from the intermediate
holder
• Chips do not accumulate in
the work space (no coolant
• Reliable coolant supply due
to fixed flow orientation (no
adjustable coolant nozzle)
• Uninterrupted work space
Flexible system due to
different adapters
• Variable tool length due
to different adapters
• Tool length can be adjusted
to the travel slide
497 PARTING
Adapters with Internal Coolant
with Directed Internal Coolant
Extremely stable
ø 22
ø 42
connection from
the holder into the
adapter
Coolant /
lubrication in the
cutting zone
ø 32
ø 52
• Adapters designed for
common bar diameters
• Reduced vibration due
to strong adapter body
• Strong clamping force
by screw clamping
Vario-system
• Chips do not
accumulate in the work
space
• No tube/hoses to
be removed in case
of tool breakage
• Free work space
• Increased tool life
• Improved process
safety
• Better chip control
• Different cutting
systems can be used
• Grooving and turngroove operations
can be performed
with the same holder
• Extremely flexible
498
ISCAR Tool Selection for INDEX CNC Multi-Spindle Machines
TAGPAD
TAG
Geometry /
1,5 mm
DGFH MS16-1.5D16-JHP
low
DGN 150 J
MS16JHP
2 mm
DGPAD
Machine
Toolholder
DGN 2002
Index MS16
high
MS1822-MGJHP
DGPAD 2L-D22-JHP
Index MS18
Index MS22
DGPAD 2L-D32-JHP
3,1 mm
DGN 3102
TAGPAD 2L-D42-JHP
TAG N2
MS3240-MGJHP
3 mm
TAG N3
Index MS40
TAGPAD 2L-D52-JHP
oder
Index MS52
Index MS32
MS52-MGJHP
499 Tool Selection for Göltenbodt GWS Systems
Length
Right Hand
51mm
20 mm
System
Size
59mm
59,5mm
67,5mm
GWS02
32 mm
Left Hand
Width of
Cut (W)
MS-ES02012GWS-MG-JHP
DGPAD 2R/
L-D20-GWS-JHP*
MS-ES02013GWS-MG-JHP
L-D32-JHP*
MS-ES02013-
GWS-MG-JHP
DGPAD 3R/
*Selection of righthand or lefthand adapter see page 502
61mm
62,6mm
42 mm
GWS09
62,4mm
67,6mm
67,4mm
52 mm
70,6mm
70,4mm
75,6mm
75,4mm
GWS41
MS-ES09003GWS-MG-JHP
MS-ES09003-
MS-ES09003MS-ES09003GWS-MG-JHP
MS-ES41008-
MS-ES41009-
TAGPAD 2R/
L-D42-JHP*
TAGPAD 3R/
L-D52-JHP*
of Cut
Ddiameter (W)
ISCAR 2
MS##-##-MG-JHP
Toolholders for INDEX CNC
Internal Coolant Supply for
MS 16
MS 16-JHP
MS 18/22-MG-JHP
MS 18/22-MG-JHP L-69.7
MS 32/40-MG-JHP
MS 32/40-MG-JHP-5.1
MS 32C-HUBVERL-MG-JHP
MS 40-6/8-MG-JHP
MS 40-6/8-MG-JHP-7.1
MS 52-MG-JHP
WF (assembly) = WF+WF (Adapter)
MS 18-52
Adapter2
46.20
74.50
46.60
69.80
99.30
79.80
DGPAD 2/3L-D32-JHP
TAGPAD 2/3L-D42-JHP
TAGPAD 2/3-D52-JHP
TAGPAD 2/3-D42-JHP
TAGPAD 2/3L-D32-JHP
DGPAD 2/3L-D42-JHP
• For user guide, see pages 496-500
For tools, see pages: DGPAD-JHP (437) • TAGPAD-JHP (456)
13 / 14
1 / 2
MS16
Spare Parts MS##-##-MG-JHP
No. Designation
1 Screw
2 Key
3 Screw
4 Wedge
5 Key
6 Screw
7 Wedge
8 ZI screw
9 Screw
10 Coolant Tube*
11 O-Ring
12 Bar stopper
13 Screw
14 Key
15 Screw
MS18-52
3 / 5
MS16-JHP
MS18/22-MG-JHP
MS32/40-MG-JHP
SR 16-212-L7.5
SR M6X6DIN6912-5112367
KEIL 12X30DEG-5112247
WN99-08.0010.0
WN-11.0012.0
ISO 4017-DIN 933 M8X30
SR M6X20DIN912 12.9
ROHR M4X1-40
PLATTE-MS18-22-5112868
DIN7991-M4X8-8.8
SR 34-535
W00014.0017
ISO 4017-DIN 933 M10X30
SR M4x6 DIN913 45H
W00019.0064
SR M4x30DIN912
MS32/40-MG-JHP-5.1
MS52-MG-JHP
WN-11.0014.0
PLATTE-MS18-22-5112868*
DIN7991-M4X8-8.8*
* Optional, please order separately.
501 PARTING
View A
MS-ES#####-GWS-MG-JHP
Toolholders for Goltenbodt
GWS Systems with
MS-ES02012-GWS-MG-JHP
MS-ES02013-GWS-MG-JHP
MS-ES09003-GWS-MG-JHP
MS-ES41008-GWS-MG-JHP
MS-ES41009-GWS-MG-JHP
HF, HF_2
WF_2
OAL (assembly) = LF+OAL (adapter)
WF (assembly) = WF (holder)+WF (adapter)
HF_2(2)
(1) center height adjustment for GWS43
(2) center height adjustment for GWS60
Wedge Selection Guide (must be ordered separately)
Left hand
Right hand
DGPAD #LD##-JHP
DGPAD #R-D##GWS-JHP
DGPAD #L-D##-GWS-JHP
DGPAD #R-D##-JHP
BCL-GWS-MG-L
BCL-GWS-R-N
BCL-GWS-L-N
BCL-GWS-MG-R
Spare Parts MS-ES#####-GWS-MG-JHP
Key
Dummy
Wedges*
MS-ES41008GWS-MG-JHP
MS-ES41009GWS-MG-JHP
SR 16-212-L9.5
DIN912-M4X10-12.9
SR M6X6-DIN6912-10.9
GWS Dummy
* Should be ordered separately
502
ISCAR Modular System for Turning Lathes
Toolholder System with Machine-Specific
Adaptations for Turning Lathes
Features and Benefits of Machine-Specific Toolholder Systems
Optimized
Holder Design
No Coolant
Tubes / Hoses
Flexible Vario
• Uniform intermediate
holders and adapters
on different machine
adaptations
• Low tool stock
• Modular design
• Optimal tool life due to
adjustable center height
• Reliable tool life
• Turret malpositions
can be balanced
• Long tool life due to
reduced bar overhang,
less vibrations
• Slim design
• Low risk of collision
• Suitable for any
machine-specific
clamping interface
space (no coolant
tube / hose required)
503 PARTING
System Overview
VDI
CAMFIX
VDI-P
HSK
BMT
NAKAMURA-TOME
TRAUB TNL18 / 32
TRAUB TNK 42 / 65
TRAUB TNK 36 / TNL26
TANG-GRIP-XL
DO-GRIP
504
Toolholder System for Star Turrets with
VDI and MODULAR-GRIP-XL Adaptations
Adaptation Sizes
VDI20
Alignment Systems
VDI25
W serration
VDI30
VDI Shank Can Be
Rotated By 180°
Vee bar
VDI40
TRI-FIX
DIN69880 (ISO 10889-1)
• Extremely stable, torsion resistant
and high-end precision
Turned
by 180°
• The serration can be mounted
at the top or bottom
• Double-serration is not necessary
505 PARTING
Toolholder System for Disc-Type Turrets with
Parting Next to Main
Spindle or Sub-Spindle
Reliable Processes
VDI30-P
VDI40-P
• DIN69880 (ISO 10889-1)
• VDI30-P
• VDI40-P
• Low risk of collision due
to optimized tool design
• Parting next to main spindle
or sub-spindle depending
on component length
• Chips do not accumulate in the
work space (no coolant
506
Toolholder System for DOOSAN Machines
with BMT and MODULAR-GRIP-XL
Adaptations and Directed Internal Coolant
Holder Turning
Ability 180°
BMT45
BMT55
BMT65
BMT (Base Mounted Turret)
• Tool can be mounted on the
left or right of the turret
• Extremely flexible due
to few elements
507 PARTING
Toolholder System for MORI SEIKI
Machines with MODULAR-GRIP-XL
Two Pockets for
Intermediate Holders
MORI60
(For MORI60)
MORI40
ø 40
ø 60
1. pocket
next to (main)
spindle
Mori Seike turrets
for NZ machines
• MORI40
• For NL machines
• MORI60
2. pocket
next to (sub-)
• Intermediate holder can
be mounted on the left or
right side of the turret
• Modular flexibility due
508
Toolholder System for MAZAK Machines
with MODULAR-GRIP-XL Adaptation and
Directed Internal Coolant
MA4016E
MA####E
MA4020E
MA4020T
MA5020E
Adaptation Features
MA4016T
For Mazak Quick Turn, Hyper
Quardrex and Multiplex machines
MA####T
• Suitable for any common
Mazak adaptations
509 PARTING
Toolholder System for Machines with
MODULAR-GRIP-XL
Spindle and Sub-Spindle
For CAMFIX turrets and for
turn-mill centers with a
CAMFIX ISO26623-1
milling spindle
• C4
• C5
• C6
• Low risk of collision due to
optimized tool design
on the component length
510
Toolholder Systems for Turn-Mill Centers
with HSK Shank and MODULAR-GRIP-XL
HSK T 40
HSK T 63
Relief for Automatic Tool
Changers
For HSK T turrets and for
turn-mill centers with HSK
T milling spindles
• HSK T 40
• HSK T 63
Relief for tool
exchanger
• Tools can be used
on machines with an
automatic tool exchanger
flexible coolant nozzle)
511 PARTING
Toolholder Systems for BIGLIA, MIYANO
and NAKAMURA TOME with
MODULAR-GRIP-XL Adaptation and
Directed internal Coolant
Toolholder systems for BIGLIA, MIYANO and NAKAMURA TOME
Nakamura-Tome
Holder for BIGLIA turrets
• BI40
• BI55
Holder for MIYANO turrets
• MI40
• MI45
• MI55
Holder for NAKAMURATOME turrets
• NT55
• NT65
Optimized Holder Design
• Long tool life due to small bar
overhang and less vibrations
• Suitable for any machinespecific clamping devices
or sub-spindle depending on
the correspondent length
512
Toolholder System for INDEX ABC
Height Adjustment
+0.2 mm
Machine Optimized Tool
Design
For INDEX ABC machines
turret 2
• Prismatic adaptation
• Mismatch of turrets can be
adjusted
• Extremely long tool life due
to exact center height
to very stable tool design
• Reduced vibrations due to
reduced bar overhang
513 PARTING
Toolholder System for Integral Shank 45
TNL 18 / TNL 32
TNK 42 / TNK 65
TNK 36 / TNL 26
Dovetail connection for TRAUB
TNK36 and TNL26 Machines
• Tools are suitable for parting and
grooving applications
• Suitable for any machine-specific
clamping device
• Integral shank 45 for
Traub TNL18 and TNL32
• Tools are suitable for parting
and grooving applications
• Suitable for any grooving systems
with directed internal coolant
machine-specific tool design
• Tool is suitable for parting
• Suitable for any machinespecific clamping device
514
ISCAR Adapters with internal coolant
Coolant Directly to the
Cutting Zone
Additional External
Diameters
Extremely Stable
• Very long tool life as the cutting
forces are directly transmitted
to the intermediate holder
• Very rigid due to additional
clamping screw in the MODULARGRIP-XL adapters pocket
• Less vibrations due to
rigid tool design
• Reliable tool life due to
fixed flow orientation (no
• Very efficient due to small
distance between coolant
exit and cutting zone
• Long tool life due to reduced
vibrations by reinforced tool body
• Suitable for all popular
bar diameters
MODULAR-GRIP/
Vario System
TAGPAD-XL-JHP HGPAD-JHP
• Very flexible due to compatibility
with existing adapter systems
• MODULAR-GRIP and MODULARGRIP-XL adapters can be mounted
• High rigidity using MODULAR-GRIP
adapters by additional support
Coolant Connection
From the Turret into
the Cutting Zone
• Very flexible
• Suitable for any JHP
grooving systems
• Direct cooling for grooving
and turn-groove operations
• A variety of options with
a single holder
• Fast set-up, less downtime
• Chips do not accumulate
in the work space
• Easy handling, low risk of error
515 PARTING
Tool Design - Overview
L-R
#### MAHDL-R-XL-JHP
Upside down
R-L
#### MAHDR-L-XL-JHP
R-R
#### MAHDR-R-XL-JHP
L-L
#### MAHDL-L-XL-JHP
516
VDI30MAHDR-LXL-JHP
Turning direction at
the main spindle
Machine interface
Position of the
adapter pocket
1. Defined Machine Adaptations
with Wserration
VDI25W
VDI30W
VDI40W
VDI with
Vee-bar
VDI for
disc type
turret
MORI
SEIKI
HSK T
Biglia
Miyano
NakamuraTome
VDI25V
BI40
MI40
NT45
VDI30V
BI55
MI45
NT55
MI55
NT65
VDI40V
For details on adaptation please see technical information (starting at page 518).
2. Defined Turning Direction at the Main Spindle
View through the spindle into the work space
Right-Turn Direction
M3 in CNC program
Left-Turn Direction
M4 in CNC program
3. Position of the Adapter Pocket
Adapter on the Right
Adapter on the Left
517 PARTING
VDI##### MAHD#-#-XL-JHP
Toolholders for Star Turrets
with VDI Adaptation and
MODULAR-GRIP-XL Adapters
VDI##
VDI20 MAHDL-L-XL-JHP
VDI25 MAHDL-L-XL-JHP
VDI25TF MAHDL-L-XL-JHP
VDI25V MAHDL-L-XL-JHP
VDI25W MAHDL-L-XL-JHP
VDI30-MAHDL-L-XL-JHP
VDI30TF MAHDL-L-XL-JHP
VDI30V MAHDL-L-XL-JHP
VDI30W MAHDL-L-XL-JHP
VDI40 MAHDL-L-XL-JHP
VDI40TF MAHDL-L-XL-JHP
VDI40V MAHDL-L-XL-JHP
VDI40W MAHDL-L-XL-JHP
VDI20 MAHDL-R-XL-JHP
VDI25 MAHDL-R-XL-JHP
VDI25TF MAHDL-R-XL-JHP
VDI25V MAHDL-R-XL-JHP
VDI25W MAHDL-R-XL-JHP
VDI30-MAHDL-R-XL-JHP
VDI30TF MAHDL-R-XL-JHP
VDI30V MAHDL-R-XL-JHP
VDI30W MAHDL-R-XL-JHP
VDI40 MAHDL-R-XL-JHP
VDI40TF MAHDL-R-XL-JHP
VDI40V MAHDL-R-XL-JHP
VDI40W MAHDL-R-XL-JHP
VDI20 MAHDR-L-XL-JHP
VDI25 MAHDR-L-XL-JHP
VDI25TF MAHDR-L-XL-JHP
VDI25V MAHDR-L-XL-JHP
VDI25W MAHDR-L-XL-JHP
VDI30-MAHDR-L-XL-JHP
VDI30TF MAHDR-L-XL-JHP
VDI30V MAHDR-L-XL-JHP
VDI30W MAHDR-L-XL-JHP
VDI40 MAHDR-L-XL-JHP
VDI40TF MAHDR-L-XL-JHP
VDI40V MAHDR-L-XL-JHP
VDI40W MAHDR-L-XL-JHP
VDI20 MAHDR-R-XL-JHP
VDI25 MAHDR-R-XL-JHP
VDI25TF MAHDR-R-XL-JHP
VDI25V MAHDR-R-XL-JHP
VDI25W MAHDR-R-XL-JHP
VDI30 MAHDR-R-XL-JHP
VDI30TF MAHDR-R-XL-JHP
VDI30V MAHDR-R-XL-JHP
VDI30W MAHDR-R-XL-JHP
VDI40-MAHDR-R-XL-JHP
VDI40TF MAHDR-R-XL-JHP
VDI40V MAHDR-R-XL-JHP
VDI40W MAHDR-R-XL-JHP
VDI##W
VDI##V
Shown ## MAHDR-L
Shown ## MAHDR-R
Align.
Holder 2
38.10
70.60
54.60
58.60
61.2
85.0
96.00
74.00
TriFix
V-Bar
W-toothing
VDI20 V60-JHP
VDI25 V60-JHP
VDI25W V60-JHP
VDI30 V60-JHP
VDI30W V60-JHP
VDI40 V85-JHP
VDI40W V85-JHP
V60 MAHDL-L-XL-JHP
V85 MAHDL-L-XL-JHP
V60 MAHDL-R-XL-JHP
V85 MAHDL-R-XL-JHP
V60 MAHDR-L-XL-JHP
V85 MAHDR-L-XL-JHP
V60 MAHDR-R-XL-JHP
V85 MAHDR-R-XL-JHP
For tools, see pages: DGPAD-JHP (437) • TAGPAD-JHP (456) • TAGPAD-XL-JHP (456)
• For user guide, see pages 503-517
Holder Spare Parts
VDI20 MAHD#-#-XL-JHP
VDI25 MAHD#-#-XL-JHP
VDI30 MAHD#-#-XL-JHP
VDI40 MAHD#-#-XL-JHP
(1) Screw
(2) Shim
SR M6x16DIN912 12.9
DIN7984-M8X20-8.8 l1
ISO 7091 WASHER 6X12
ISO 7091 WASHER 8X16
3x
For intermediate holder spare parts see page 530.
d
Tool Dimensions with Adapter
All trademarks
and logos are the property of their respective companies
518
L = Total tool length For intermediate holder spare parts see page 530.
L = Total tool length
D1= max. diameter of
sub-spindle
D2
DGPAD …-D22-JHP
DGPAD …-D32-JHP
TAGPAD …-D42-JHP
TAGPAD …-D52-JHP
TAGPAD-XL …-D52-JHP
TAGPAD-XL …-D65-JHP
TAGPAD-XL …-D82-JHP
TAGPAD-XL …-D102-JHP
93,1
101
107,6
117,6
130,6
127
100,1
114,6
124,6
137,6
147
101,1
115,6
125,6
138,6
104,1
118,6
128,6
141,6
VDI###-P MAHD#-#-XL-JHP
LTA
VDI30-P MAHDL-L-XL-JHP
VDI40-P MAHDL-L-XL-JHP
VDI30-P MAHDL-R-XL-JHP
VDI40-P MAHDL-R-XL-JHP
VDI30-P MAHDR-L-XL-JHP
VDI40-P MAHDR-L-XL-JHP
VDI30-P MAHDR-R-XL-JHP
VDI40-P MAHDR-R-XL-JHP
LTA_2
Toolholders for Disc - Type
Turrets with VDI Adaptation
and Internal Coolant Supply for
72.60
76.60
34.50
VDI30-P V60-JHP
VDI40-P V60-JHP
VDI30-P MAHD#-#-XL-JHP
VDI40-P MAHD#-#-XL-JHP
D1= Max. diameter of
118,1
121
132,6
142,6
155,6
122,1
136,6
146,6
159,6
519 PARTING
BMT## MAHD#-#-XL-JHP
MHD2
Toolholders for BMT Turrets
with Internal Coolant Supply for
Shown
## MAHDR-L
BMT45 MAHDL-L-XL-JHP
BMT55 MAHDL-L-XL-JHP
BMT65 MAHDL-L-XL-JHP
BMT75 MAHDL-L-XL-JHP
BMT45 MAHDL-R-XL-JHP
BMT55 MAHDL-R-XL-JHP
BMT65 MAHDL-R-XL-JHP
BMT75 MAHDL-R-XL-JHP
BMT45 MAHDR-L-XL-JHP
BMT55 MAHDR-L-XL-JHP
BMT65 MAHDR-L-XL-JHP
BMT75 MAHDR-L-XL-JHP
BMT45 MAHDR-R-XL-JHP
BMT55 MAHDR-R-XL-JHP
BMT65 MAHDR-R-XL-JHP
BMT75 MAHDR-R-XL-JHP
h3(1)
77.0
98.0
112.0
114.50
60.60
63.60
68.60
72.10
53.10
52.10
55.10
58.10
40.50
BMT45 V85-JHP
BMT55 V85-JHP
BMT65 V85-JHP
BMT75 V85-JHP
Slot Nut
BMT45 MAHD#-#-XL-JHP
BMT55 MAHD#-#-XL-JHP
BMT65 MAHD#-#-XL-JHP
(2) Screw
SR M10x20DIN912 12.9 DIN7984-M8X20-8.8
SR M12X25
DIN7984-M8X20-8.8
(3) Shim
(4) Slot Nuts
(5) Screw
(6) O-Ring
ISO 709115WASHER 8X16
ISO7091 WASHER 8X16
NS 20x8.7x15
NS 18x10x18
DIN912 XM 5X10
DIN912 XM 6X12
OR 7x1.5xPERBUNAN
OR 9x1.5xPERBUNAN
D1= Max. diameter of sub-spindle
106,1
120,6
143,6
109,1
117
123,6
133,6
114,1
151,6
4x
4 4x 5
2x
ISCAR MORI## MAHD#-#-XL-JHP
Toolholders for MORI SEIKI Turrets
H5 OAH DCONMS
MORI40 MAHDL-L-XL-JHP
MORI60 MAHDL-L-XL-JHP
MORI40 MAHDL-R-XL-JHP
MORI60 MAHDL-R-XL-JHP
MORI40 MAHDR-L-XL-JHP
MORI60 MAHDR-L-XL-JHP
MORI40 MAHDR-R-XL-JHP
MORI60 MAHDR-R-XL-JHP
## MAHDR-R
109.3
172.00
94.0
39.90
59.60
100.60
62.60
MORI40 V85-JHP
MORI60 V85-JHP
MORI40 MAHD#-#-XL-JHP
MORI60 MAHD#-#-XL-JHP
SR M10x20DIN912 12.964
SR M12x25
(4) Shank
SS-40NZBMT
SS-60NLBMT
SR M8X25DIN912
15ISO 7091 WASHER 8X16
120,5
125,5
132,1
142,1
521 PARTING
MA##### MAHD#-#-XL-JHP
DAH
Toolholders for Mazak Turrets
30˚
MA4016T MAHDL-L-XL-JHP
MA4020T MAHDL-L-XL-JHP
MA4016T MAHDL-R-XL-JHP
MA4020T MAHDL-R-XL-JHP
MA4016T MAHDR-L-XL-JHP
MA4020T MAHDR-L-XL-JHP
MA4016T MAHDR-R-XL-JHP
MA4020T MAHDR-R-XL-JHP
MA4016E MAHDL-L-XL-JHP
MA4020E MAHDL-L-XL-JHP
MA5020E MAHDL-L-XL-JHP
MA4016E MAHDL-R-XL-JHP
MA4020E MAHDL-R-XL-JHP
MA5020E MAHDL-R-XL-JHP
MA4016E MAHDR-L-XL-JHP
MA4020E MAHDR-L-XL-JHP
MA5020E MAHDR-L-XL-JHP
MA4016E MAHDR-R-XL-JHP
MA4020E MAHDR-R-XL-JHP
MA5020E MAHDR-R-XL-JHP
Shown MA####T MAHDL-L
132.50
137.50
162.50
71.10
88.70
13.90
45.30
21.40
66.50
80.60
79.10
MA4016T V60-JHP
MA4020T V60-JHP
MA4016E V60-JHP
MA4020E V60-JHP
MA5020E V85-JHP
MA4016E MAHD#-#-XL-JHP
MA4020E MAHD#-#-XL-JHP
MA5020E MAHD#-#-XL-JHP
MA4016T MAHD#-#-XL-JHP
MA4020T MAHD#-#-XL-JHP
ISO 7091 WASHERØd
6X12
(3) Positioning pin
(4) O-Ring
FB10001 16x9x24
FB12001 20x15x27
Ød1
FB12001
20x15x27
OR 9x2xPERBUNAN
AS-ABSTREIFER 10x16x3X4.5 N359 NBR 90
D1= max. diameter of sub-spindle
MA40###
116,6
119,5
124,5
131,1
141,1
154,6
134,1
148,6
158,6
171,6
522
ISCAR View A
C# MAHD#-#-XL-JHP
Toolholders for CAMFIX
Adaptations with Internal
Coolant Supply for
C4 MAHDL-L-XL-JHP
C5 MAHDL-L-XL-JHP
C6 MAHDL-L-XL-JHP
C4 MAHDL-R-XL-JHP
C5 MAHDL-R-XL-JHP
C6 MAHDL-R-XL-JHP
C4 MAHDR-L-XL-JHP
C5 MAHDR-L-XL-JHP
C6 MAHDR-L-XL-JHP
C4 MAHDR-R-XL-JHP
C5 MAHDR-R-XL-JHP
C6 MAHDR-R-XL-JHP
76.40
78.40
C4 V60-JHP
C5 V60-JHP
C6 V60-JHP
C4 MAHD#-#-XL-JHP
C5 MAHD#-#-XL-JHP
C6 MAHD#-#-XL-JHP
ød
121,9
124,8
129,8
136,4
146,4
159,4
123,9
126,8
131,8
138,4
148,4
161,4
523 PARTING
HSK T ## MAHD#-#-XL-JHP
Toolholders for HSK-T
HSK T 40 / HSK T 63
HSK T 40 MAHDL-L-XL-JHP
HSK T 63 MAHDL-L-XL-JHP
HSK T 40 MAHDL-R-XL-JHP
HSK T 63 MAHDL-R-XL-JHP
HSK T 40 MAHDR-L-XL-JHP
HSK T 63 MAHDR-L-XL-JHP
HSK T 40 MAHDR-R-XL-JHP
HSK T 63 MAHDR-R-XL-JHP
99.60
HSK T 40 V60-JHP
HSK T 63 V60-JHP
For tools, see pages: DGPAD-JHPl1(437) • TAGPAD-JHP (456) • TAGPAD-XL-JHP (456)
Ød Spare Parts
HSK T 40 MAHD#-#-XL-JHP
HSK T 63 MAHD#-#-XL-JHP
145,1
153
169,6
182,6
524
ISCAR BI## MAHD#-#-XL-JHP
Toolholders for Biglia Adaptation
BI40 MAHDL-L-XL-JHP
BI55 MAHDL-L-XL-JHP
BI40 MAHDL-R-XL-JHP
BI55 MAHDL-R-XL-JHP
BI40 MAHDR-L-XL-JHP
BI55 MAHDR-L-XL-JHP
BI40 MAHDR-R-XL-JHP
BI55 MAHDR-R-XL-JHP
67.10
43.60
BI40 V60-JHP
BI55 V85-JHP
BI40 MAHD#-#-XL-JHP
BI55 MAHD#-#-XL-JHP
SR M8X20DIN912 12.9
SR M10X25 DIN912-12.9
DIN7984-M8x20-8.8
NS 12x10x12
SR M5x12DIN912 12.9
DIN912xM5x10
For intermediate holder spare parts see page 530
108,1
122,6
145,6
112,6
115,5
127,1
137,1
150,1
525 PARTING
MI## MAHD#-#-XL-JHP
Toolholders for Miyano Adaptation
with Directed Internal Coolant for
MI40 MAHDL-L-XL-JHP
MI45 MAHDL-L-XL-JHP
MI55 MAHDL-L-XL-JHP
MI40 MAHDL-R-XL-JHP
MI45 MAHDL-R-XL-JHP
MI55 MAHDL-R-XL-JHP
MI40 MAHDR-L-XL-JHP
MI45 MAHDR-L-XL-JHP
MI55 MAHDR-L-XL-JHP
MI40 MAHDR-R-XL-JHP
MI45 MAHDR-R-XL-JHP
MI55 MAHDR-R-XL-JHP
89.00
104.00
38.60
55.80
57.10
48.80
51.60
49.60
36.20
MI40 V60-JHP
MI45 V60-JHP
MI55 V60-JHP
MI40 MAHD#-#-XL-JHP
MI45 MAHD#-#-XL-JHP
MI55 MAHD#-#-XL-JHP
(4) Positioning pin
SR M8x20DIN912 12.9
PIN 12-5118172
Ø12
84,1
98,6
108,6
121,6
101,3
104,2
109,2
115,8
125,8
526
ISCAR A
NT## MAHD#-#-XL-JHP
Toolholders for NakamuraTome Adaptation with Internal
Coolant Supply for MODULARGRIP-XL Adapters
NT45 MAHDL-L-XL-JHP
NT55 MAHDL-L-XL-JHP
NT65 MAHDL-L-XL-JHP
NT45 MAHDL-R-XL-JHP
NT55 MAHDL-R-XL-JHP
NT65 MAHDL-R-XL-JHP
NT45 MAHDR-L-XL-JHP
NT55 MAHDR-L-XL-JHP
NT65 MAHDR-L-XL-JHP
NT45 MAHDR-R-XL-JHP
NT55 MAHDR-R-XL-JHP
NT65 MAHDR-R-XL-JHP
H5 h3
86.0
76.50
87.50
99.50
40.60
42.60
NT45 V60-JHP
NT55 V60-JHP
NT65 V60-JHP
NT45 MAHD#-#-XL-JHP
NT55 MAHD#-#-XL-JHP
NT65 MAHD#-#-XL-JHP
(4) Slot nut
SR M8x20DIN912
SR M10x20DIN912 12.9
NS 20x10x20
SR M6x12DIN912 12.9
(6) Stopper
(7) Screw
KL-WT250-01 25x5x30
(8) O-Ring
O-RING 7.3x2.2NBR70
60 20
55 20
71 20
527 PARTING
OKUMA # MAHD#-#-XL-JHP
H5 h H5
OKUMA 1 V60-JHP
Toolholders for Okuma Adaptation
OKUMA 1 MAHDL-L-XL-JHP
OKUMA 2 MAHDL-L-XL-JHP
OKUMA 1 MAHDL-R-XL-JHP
OKUMA 2 MAHDL-R-XL-JHP
OKUMA 1 MAHDR-L-XL-JHP
OKUMA 2 MAHDR-L-XL-JHP
OKUMA 1 MAHDR-R-XL-JHP
OKUMA 2 MAHDR-R-XL-JHP
OKUMA 2 V60-JHP
OKUMA 1 MAHDR-L OKUMA 2 MAHDR-R
107.00
110.00 (1)
55.40
61.10
66.10
52.60
55.60
also available in 100.00 mm
528
ISCAR Intermediate Holders for ISCAR
Modular System Holders with
Directed Internal Coolant for
WF (assembly) OAW
V60 MAHDL-L-XL-LH-JHP
V60 MAHDL-L-XL-SH-JHP
V85 MAHDL-L-XL-LH-JHP
V85 MAHDL-L-XL-SH-JHP
V60 MAHDL-R-XL-LH-JHP
V60 MAHDL-R-XL-SH-JHP
V85 MAHDL-R-XL-LH-JHP
V85 MAHDL-R-XL-SH-JHP
V60 MAHDR-L-XL-LH-JHP
V60 MAHDR-L-XL-SH-JHP
V85 MAHDR-L-XL-LH-JHP
V85 MAHDR-L-XL-SH-JHP
V60 MAHDR-R-XL-LH-JHP
V60 MAHDR-R-XL-SH-JHP
V85 MAHDR-R-XL-LH-JHP
V85 MAHDR-R-XL-SH-JHP
Shown ## MAHDL-R
Shown ## MAHDL-L
CSI
V60
V85
85.5
64.50
42.65
69.15
18.65
43.65
26.65
32.80
41.30
V## MAHD#-#-XL-##-JHP
For machines without
Long Version
XL-LH-JHP
- 24 mm
Standard Version
.-XL-JHP
- 36,6 mm
Short Version
.-XL-SH-JHP
Short Design
MAHD-XL-JHP
For machines with a small
swing diameter
+ 26,5 mm
For machines with big
sub-spindle diameter
Intermediate Holder Spare Parts
(3) Height
Adjustment Screw
(1) Clamping Screw
SR M6x16DIN912 12.9 Dummy-MG-XL-5113377
(2) Dummy
SR 14-0194-56113373 O RING 8x3 NBR 70 SR M5-04451
(6) Screw
(7) O-Ring
SR M6x10DIN6912
OR 5x1N
V## MAHD#-#- XL-SH-JHP
V## MAHD#-#- XL-JHP
V## MAHD#-#- XL-LH-JHP
205
215
247
171
187
529 PARTING
V## MAHD-XL-JHP
Intermediate Holders for ISCAR
V60 MAHD-XL-JHP
V85 MAHD-XL-JHP
61.60
6.05
V60 V60-L##
Spacer for ISCAR
Modular System
V60 V60-L15
V60 V60-L30
Toolholders for Traub TNK45
/ TNK 65 Machines with
TR45 MAHDR-L-XL-JHP
TR45 MAHDR-#-XL-JHP
91.50
33.50
Dummy-MG-XL-5113377
(3) Screw
(4) Screw
(5) O-Ring
530
ISCAR TR45TNL MAHDN-R-XL-JHP
Toolholders for Traub TNL16
to TNL18 / TNL32 Machines
TR45TNL MAHDN-R-XL-JHP
Toolholders for Traub TNK36
/ TNL26 Machines with
TR TNK36 MAHDL-R-XL-JHP
48 38
LPR (assembly)
TR45
74.0
531 PARTING
ABC MAHDR-#-XL-JHP
Toolholders for Index ABC
Speedline with Internal Coolant
Supply for MODULARGRIP-XL Adapters
ABC MAHDR-L-XL-JHP
44.55
For tools, see pages: DGPAD-JHP (437) • DGPAD-XL-JHP (437) • TAGPAD-JHP (456) • TAGPAD-XL-JHP (456)
(5) Pin
SR M4x5DIN913 45H
(6) Stopper Screw
(7) Height Adjustment Screw (8) O-Ring
DIN913-M6x80-45H
SR M5x8DIN913 45H
RADH
V-ASH-MC
Axially Oriented, Short, RightHand, Wedge Clamping Holders
for Square Shank Tools
WF B
V60 ASH 20-MC
V60 ASH 25-MC
V85 ASHD 25-MC
87.00
81.00
532
ISCAR Selection Guide .
Tools and Inserts
PICCO-CUT
CHAMGROOVE .
MINCUT
HELI-FACE and HELI-GRIP .
CUT-GRIP
TANG-GRIP .
SELF-GRIP
PENTACUT
User Guide .
FACE GROOVING
FACE GROOVING AND TURNING
534
541
543
544
546
561
566
568
570
572
533 FACE GROOVING
A Variety of Inserts for
Face Machining Applications
XN
Face Grooving DAXN 6–30 mm
DA
_
541-543
MIFR
545
GFQR
HGPL
560
559-560
438-440
TNF
567
HFPN
557
ISCAR Face Grooving DAXN 24–80 mm
HFPR/L
558
PENTA 34F
570-571
GDMY/N
GIF 8
563
GIFG 8
GIMM 8CC
565
GDMM CC
272-273,
564-565
535 FACE GROOVING
Small Diameter
Face Machining Systems
B A
Tool: HGHR/L see page 547
Insert: GRIP… / HGPL…
CW = 3 mm
CDX = 6 mm
DAXN = 12 mm
Integral shank toolholder which
uses double-ended 3 mm inserts.
Used for face grooving and face
turning of small parts for 12 mm
minimum groove diameter.
Tool: HGAER/L… (adapter) see page 551
Tool: HFAER/L… (adapter) see pages 551-552
Insert: HFPR/L…
CW = 3-6 mm
CDX = 32 mm
Exchangeable external adapters.
Used with HELIFACE and GRIP
inserts for deep face machining.
Tool: PCHPR/L see page 571
Insert: PENTA 34F .
CW = 2.39-4 mm
CDX = 5 mm
DAXN = 22 mm
Pentagonal insert for face
grooving and recessing up to
5 mm depth of cut at a
minimum of 22 mm diameter.
C B
Tool: PICCO R010 see page 541
CW = 1-3 mm
DAXN = 6 mm
Small solid carbide bars for
machining shallow grooves from 6
mm minimum diameter.
536
ISCAR B
Tool: PICCO R015 see page 542
CW = 2.5-3 mm
Tool: MIFHR . see page 544
Insert: MIFR …
CW = 2-3 mm
CDX = 30 mm
CDX = 9 mm
DAXN = 15 mm
DAXN = 10 mm
machining deep face grooves
of up to 30 and 15 mm minimum
diameter.
MINCUT - A family of internal face
grooving and face turning tools
for machining small diameters
ranging from 10-34 mm.
Strong and stable tangential
pocket with internal coolant.
CW = 1.5-3 mm
CDX = 5.5 mm
DAXN = 8 mm
MINCUT - A family of internal
face grooving and face turning
tools for machining small
diameters ranging from 8-17
mm.
B C
Tool: MGCH 09C see page 543
Insert: GFQR…
CW = 1-2.5 mm
CDX = 3 mm
A screw-clamped insert on an
internal coolant solid carbide
bar. Used for machining shallow
grooves from 12 mm minimum
Main Applications
AX
Grooving Next to a Shaft
Internal Grooving
537 FACE GROOVING
Medium Diameter
Tool: HFHR/L… see pages 547-549
DAXN = 25 mm
Integral shank toolholders carrying
HELIFACE and GRIP inserts.
For deep face grooving and side
face turning.
Tool: HFPAD… (adapter) see pages 549-550
CDX = 22 mm
Slanted, screw-clamped adapter
carrying HELIFACE and GRIP inserts.
A part of the MODULAR-GRIP
system. Very rigid, for tough face
operations.
Tool: TNFFH see page 566
Insert: TNF 3-6C…
DAXN = 30 mm
Adapter and blade toolholders
carrying TNF 3-6C inserts.
For deep face grooving.
538
Tool: HFFR/L… see page 550
A B
Tool: TNFFA see page 566
CW = 4-6 mm
CDX = 38 mm
DAXN = 48 mm
Economical, double-ended
blades carrying HELIFACE
and GRIP inserts.
Recommended for deep face
grooving and face turning to a
maximum depth of 38 mm.
Reinforced blades carrying
TNF 3-6C inserts.
Recommended for face
grooving only.
Can machine along a shaft.
Excellent chip evacuation. B A
Tool: PCHPRS/LS see page 571
Insert: PENTA 34F-RS/LS…
Tool: HFHR/L -M see page 552
DAXN = 20 mm
grooving and recessing next to
shoulders up to 5 mm depth
of cut at a minimum of 22 mm
Integral toolholders carrying
For machining up to 5 mm depth
of cut. 3-6 mm wide inserts can be
mounted in the same pocket.
Tool: HFAIR/L…& HGAIR/L
(adapter) see pages 554-555
CDX = 12 mm
DAXN = 32 mm
Exchangeable, internal coolant
adapters carrying HELIFACE and
GRIP inserts. Recommended for
deep internal face machining.
Tool: HFIR/L -MC see page 556
Boring bars for shallow face
machining of up to 5 mm
depth carrying HELIFACE and
GRIP inserts. Internal coolant.
3-6 mm width inserts can be
mounted on the same pocket.
539 FACE GROOVING
Large Diameter
Tool: CGFG 51- R/L-P8
see page 563
Insert: GIMY 8…
CW = 8 mm
CDX = 120 mm
DAXN = 180 mm
Blades carrying 8 mm singleended CUT-GRIP inserts. Can
machine up to 120 mm depth
next to a shaft. Used for large
diameters.
Tool: GHFG R/L-8 see page 561
Insert: GDMY 8
CDX = 25 mm
DAXN = 50 mm
Integral toolholders carrying 8
mm CUT-GRIP inserts. For heavy
machining of medium and large
parts. Can machine next to a shaft
of up to 25 mm depth.
Tool: GAFG R/L-8 (adapter)
see page 562
Insert: GDMM 8CC
DAXN = 80 mm
Exchangeable adapters carrying
8 mm CUT-GRIP inserts. Can
machine up to 25 mm depth next
to a shaft.
For heavy machining of medium
and large parts.
540
Internal Grooving OAL
Inserts for Face Grooving
PICCO R 010.1006-10
PICCO R 010.1506-10
PICCO R 010.1008-10
PICCO R 010.1008-20
PICCO R 010.1008-30
PICCO R 610.1008-10
PICCO R 610.1008-20
PICCO R/L 010.1508-20
PICCO R/L 010.1508-30
PICCO R 010.1508-10
PICCO R 610.1508-10
PICCO R 610.1508-20
PICCO R/L 010.2008-30
PICCO R 010.2008-10
PICCO R 010.2008-20
PICCO R 610.2008-10
PICCO R 610.2008-20
PICCO R 010.2508-10
PICCO R 010.2508-20
PICCO R 010.2508-30
PICCO R 610.2508-10
PICCO R 610.2508-20
PICCO R 010.3008-10
PICCO R 010.3008-20
PICCO R 010.3008-30
PICCO R 610.3008-10
PICCO R 610.3008-20
PICCO-010/610 (face
grooving)
• Only right-hand inserts are available as standard • All inserts are with sharp corners • For detailed cutting data, see pages 574-575
PICCO-010 (round face
groove)
Inserts for Round Profile
PICCO R 010.1005-10
PICCO R 010.1005-20
PICCO R 010.1608-10
PICCO R 010.1608-20
PICCO R 010.2010-10
PICCO R 010.2010-20
PICCO R 010.2512-10
PICCO R 010.2512-20
PICCO R 010.3015-10
PICCO R 010.3015-20
• Only right-hand inserts are available as standard, left-hand inserts on request
• For detailed cutting data, see pages 574-575
541 DCONMS
Inserts for Grooving Along
a Shaft DAXN 6 mm
PICCO R 620.1006-20
PICCO R 620.1506-20
PICCO R 620.2006-20
PICCO R 620.2506-20
PICCO R 620.3006-20
PICCO-620
(groove along shaft)
• All carbide inserts are with sharp corners • For detailed cutting data, see pages 574-575
PICCO-016/020
(face grooving)
Inserts with Coolant Holes
for Deep Face Grooving
PICCO R 016.0300-10
PICCO R 016.0300-20
PICCO R 016.0400-10
PICCO R 016.0400-20
PICCO R 020.0300-25
PICCO R 020.0300-30
PICCO R 020.0300-35
PICCO R 020.0300-40
PICCO R 020.0400-25
PICCO R 020.0400-30
PICCO R 020.0400-35
PICCO R 020.0400-40