| Shape |
Thông số kỹ thuật |
Tooling Sheet |
Feature |
 |
BTAH
|
 |
- Screw-on type.
- For gang type tool posts.
|
 |
BTVH |
 |
- For gang type tool posts.
- Screw-on type.
|
 |
CSVH |
 |
- For cam type tool posts.
- Single holder for front turning,back turning,grooving,threading and cutting off operations.
|
 |
CTAH |
 |
- Due tu the design of handed tool holders,able to minimize accumulation of workpieces.
- For gang type tool posts.
|
 |
CTAH-S |
 |
- For gang type tool posts.
- Due tu the design of handed tool holders,able to minimize accumulation of workpieces.
|
 |
CTBH |
 |
- For gang type tool posts.
|
 |
CTCH |
 |
- For gang type tool posts.
- Due tu the design of handed tool holders,able to minimize accumulation of workpieces.
|
 |
CTDH |
 |
- For gang type tool posts.
- Due tu the design of handed tool holders,able to minimize accumulation of workpieces.
|
 |
CTEH |
 |
- For gang type tool posts.
- Due tu the design of handed tool holders,able to minimize accumulation of workpieces.
|
 |
DTGN |
 |
- New double clamp type.
- Small insert series.
- Economical negative insert.
- Holds inserts securely.
- Excellent cutting edge tolerance.
|
 |
GTAH |
 |
- For gang type tool posts.
- High rigidity due to desigh of vertical insert.
|
 |
GTBH |
 |
- For gang type tool posts.
- High rigidity due to desigh of vertical insert.
|
 |
GTCH |
 |
- For gang type tool posts.
- High rigidity due to desigh of vertical insert.
|
 |
GYS00 |
 |
- Highly reliable insert clamping
- High accuracy, long life inserts for a wide variety of machining applications
- Innovative Tri Lock System
- Dimensions shown are when the gauge insert is used.
|
 |
MMTE |
 |
- Available with a wiper cutting edge to provide a precise thread geometry.
|
 |
MTJN |
 |
- High rigidity due to double clamp structure.
- Simple insert exchange.
- Economical negative insert.
|
 |
PTGN |
 |
- Various holder shapes.
- Suitable for light to heavy cutting.
- Economical negative insert.
- Lever lock type.
- ISO standard.
|
 |
SCAC-SM |
 |
- For gang type tool posts.
- High accuracy ISO insert
- Screw-on type.
|
 |
SCLC |
 |
- Screw-on type
- 7°positive insert.
|
 |
SCLC-SM |
 |
- For gang type tool posts.
- High accuracy ISO insert
- Screw-on type.
|
 |
SDJC |
 |
- Screw-on type
- 7°positive insert.
|
 |
SDJC-SM |
 |
- For gang type tool posts.
- High accuracy ISO insert
- Screw-on type.
|
 |
SDNC |
 |
- Screw-on type
- 7°positive insert.
|
 |
SDNC-SM |
 |
- For gang type tool posts.
- High accuracy ISO insert
- Screw-on type.
|
 |
SH |
 |
- Also availale for turning with a CNC lathe sub spindle.
- More Tools can be made available by attaching sleeve holder tools with round shanks to the sleeve holder for solid tools and boring bars.
|
 |
SMGH |
 |
- Applicable to narrow grooving and threading.
- Screw-on type
- Positive insert suffers from negligible chattering and thus produces good finished surface.
- Groove width 0.3 - 1.3mm
|
 |
SSSC |
 |
- Screw-on type
- 7°positive insert.
|
 |
STGC |
 |
- Screw-on type
- 7°positive insert.
|
 |
SVJB-SM |
 |
- For gang type tool posts.
- High accuracy ISO insert
- Screw-on type.
|
 |
SVJC |
 |
- Screw-on type
- 7°positive insert.
|
 |
SVLP-SM |
 |
- The 35 degree rhombic insert with 11 degree positive rake angle demonstrates excellent cutting performance for recessing and profiling small work pieces.
|
 |
SVPP-SM |
 |
- The 35 degree rhombic insert with 11 degree positive rake angle demonstrates excellent cutting performance for recessing and profiling small work pieces.
|
 |
SVVB-SM |
 |
- For gang type tool posts.
- High accuracy ISO insert
- Screw-on type.
|
 |
SVVC |
 |
- Screw-on type
- 7°positive insert.
|
 |
TTAH |
 |
- For gang type tool posts.
- High rigidity due to desigh of vertical insert.
- Screw-on type.
|
 |
C |
 |
- it covers a wide cutting range (threading, grooving copying, etc.).
- Min.cutting diameter 3.2mm.
- SOLID CARBIDE
- l/d is 5 times the diameter.
- Cutting edge can be shaped according to the application.
|
 |
CB |
 |
- Solid carbide type with 2 cutting edges.
- Continuous turning from internal turning to face turning.
- Each boring bar comes in two types, with or without breaker.
- The minimum cutting dameter is from 2.2mm.
|
 |
CG |
 |
- Solid carbide type with 2 cutting edges.
- Continuous turning from internal turning to face turning.
- Each boring bar comes in two types, with or without breaker.
- The minimum cutting dameter is from 2.2mm.
|
 |
CR |
 |
- Each boring bar comes in two types, with or without breaker.
- Solid carbide type with 2 cutting edges.
- Continuous turning from internal turning to face turning.
- The minimum cutting dameter is from 2.2mm.
|
 |
CT |
 |
- The minimum cutting dameter is from 2.2mm.
- Solid carbide type with 2 cutting edges.
- Continuous turning from internal turning to face turning.
- Each boring bar comes in two types, with or without breaker.
|
 |
FSCLC_P |
 |
- l/d is 3 to 5 times the diameter (Carbide shank is 7 to 8 times the diameter).
- The minimum cutting dameter is from 10mm.
- Employs positive insert 5°,7°,11°.
- Excellent vibration resistance due to light dimple head.
- Chip disposal is improved by having two channels for chip evacuation.
|
 |
FSCLC_P_E |
 |
- Excellent vibration resistance due to light dimple head.
- Chip disposal is improved by having two channels for chip evacuation.
- Employs positive insert 5°,7°,11°.
- l/d is 3 to 5 times the diameter (Carbide shank is 7 to 8 times the diameter).
- The minimum cutting dameter is from 10mm.
|
 |
FSDQC |
 |
- Employs positive insert 5°,7°,11°.
- Excellent vibration resistance due to light dimple head.
- Chip disposal is improved by having two channels for chip evacuation.
- l/d is 3 to 5 times the diameter (Carbide shank is 7 to 8 times the diameter).
|
 |
FSDQC_E |
 |
- l/d is 3 to 5 times the diameter (Carbide shank is 7 to 8 times the diameter).
- Chip disposal is improved by having two channels for chip evacuation.
- Employs positive insert 5°,7°,11°.
- Excellent vibration resistance due to light dimple head.
|
 |
FSDUC |
 |
- Employs positive insert 5°,7°,11°.
- l/d is 3 to 5 times the diameter (Carbide shank is 7 to 8 times the diameter).
- Excellent vibration resistance due to light dimple head.
- Chip disposal is improved by having two channels for chip evacuation.
|
 |
FSDUC_E |
 |
- l/d is 3 to 5 times the diameter (Carbide shank is 7 to 8 times the diameter).
- Employs positive insert 5°,7°,11°.
- Excellent vibration resistance due to light dimple head.
- Chip disposal is improved by having two channels for chip evacuation.
|
 |
FSL51 |
 |
- Min.cutting diameter 10mm.
- Screw-on type
- Usable for various applications.
- Max. depth of groove: 3mm
|
 |
FSL52 |
 |
- Screw-on type
- Usable for various applications.
- Max. depth of groove: 3mm
- Min.cutting diameter 10mm.
|
 |
FSTUP |
 |
- The minimum cutting dameter is from 10mm.
- Employs positive insert 5°,7°,11°.
- Excellent vibration resistance due to light dimple head.
- Chip disposal is improved by having two channels for chip evacuation.
- l/d is 3 to 5 times the diameter (Carbide shank is 7 to 8 times the diameter).
|
 |
FSTUP_E |
 |
- Employs positive insert 5°,7°,11°.
- Excellent vibration resistance due to light dimple head.
- Chip disposal is improved by having two channels for chip evacuation.
- l/d is 3 to 5 times the diameter (Carbide shank is 7 to 8 times the diameter).
- The minimum cutting dameter is from 10mm.
|
 |
FSVPB_C |
 |
- Employs positive insert 5°,7°,11°.
- Excellent vibration resistance due to light dimple head.
- Chip disposal is improved by having two channels for chip evacuation.
- l/d is 3 to 5 times the diameter (Carbide shank is 7 to 8 times the diameter).
|
 |
FSVUB_C |
 |
- Excellent vibration resistance due to light dimple head.
- Chip disposal is improved by having two channels for chip evacuation.
- l/d is 3 to 5 times the diameter (Carbide shank is 7 to 8 times the diameter).
- Employs positive insert 5°,7°,11°.
|
 |
FSWL1 |
 |
- 7°positive insert.
- The minimum cutting dameter is from 5.8mm.
- 11°positive insert.
- l/d is 3 to 5 times the diameter.
- Screw-on type/Clamp-on type
|
 |
FSWL2_C |
 |
- The minimum cutting dameter is from 5.8mm.
- 11°positive insert.
- 7°positive insert.
- l/d is 3 to 5 times the diameter.
- Screw-on type/Clamp-on type
|
 |
FSWUB_P |
 |
- The minimum cutting dameter is from 10mm.
- Employs positive insert 5°,7°,11°.
- Excellent vibration resistance due to light dimple head.
- Chip disposal is improved by having two channels for chip evacuation.
- l/d is 3 to 5 times the diameter (Carbide shank is 7 to 8 times the diameter).
|
 |
FSWUB_P_E |
 |
- Employs positive insert 5°,7°,11°.
- Excellent vibration resistance due to light dimple head.
- The minimum cutting dameter is from 10mm.
- Chip disposal is improved by having two channels for chip evacuation.
- l/d is 3 to 5 times the diameter (Carbide shank is 7 to 8 times the diameter).
|
 |
SBAH |
 |
- For gang type tool posts.
- Indexable insert series covering diameter 3mm and larger diameter boring.
- 2 shank sizes, 10mm and 12mm available.
|
 |
SBAH_OFFSET |
 |
- For gang type tool posts.
- Indexable insert series covering diameter 3mm and larger diameter boring.
- 2 shank sizes, 10mm and 12mm available.
|
 |
SCLC_C |
 |
- The minimum cutting dameter is from 5mm.
- 7°positive insert.
- Carbide shank
- Easy-to-use tool geometries.
- The most suitable for machining of small parts
- l/d is 5 times the diameter.
|
 |
STUC_C |
 |
- The minimum cutting dameter is from 5mm.
- 7°positive insert.
- Carbide shank
- Easy-to-use tool geometries.
- The most suitable for machining of small parts
- l/d is 5 times the diameter.
|
 |
SWUB_C |
 |
- The minimum cutting dameter is from 5mm.
- 7°positive insert.
- Carbide shank
- Easy-to-use tool geometries.
- The most suitable for machining of small parts
- l/d is 5 times the diameter.
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