Product Description :
★ Productivity- High feed rates with axial depth of cut up to 0.5mm.
★ High Feed Milling- Increase chip removal capability and productivity.
★ Low cutting resistance and outstanding anti-vibration for high efficiency milling.
★ diameter 10~16mm are offered, for all components and small mold high feed machining.
★ There are two inscribed circle diameter 1.2mm, providing customer with programming.
Product Description :
SIMPLE
Tool is clamped in 8 seconds by pushing
only one single button.
SAFE
No heat up – high clamping force. Excellent vibration dampening.
HIGH PRECISION
Toolholder runout TIR ≤ 1 μm
Total system runout TIR ≤3 µm at 3 x D.
powRgrip®
The tool clamping system of today and the future.
Product Description :
Characteristics
1.Body is made of "S45C" with heat treatment.
2.Body and Center is under precise grinding process.
3.Application to lathe and grinder.
4.Morse Taper complies with DIN806 standard.
Product Description :
High hardness grinding and polishing.
Flexible grinding and polishing CBN for high speed steel, alloy steel, heat resistance steel, etc.
Diamond for tungsten carbide, ceramic, glass, stones, etc.
Product Description :
1. Use in high speed machining and hard workpiece machining. It improves the quality and machining speed which is the best choice for precision processing.
◆Carbide Asymmetric Corner Radius End Mill (Steel)-Asymmetric helix angle 40º/42º and unequal flute design to effectively reduce the vibration rate and increase the tool's stability.
◆Carbide Asymmetric End Mill (Aluminum)- Reinforced asymmetric 50/50.5/51 and unequal flute design to effectively reduce the vibration rate and increase the tool's stability. This makes the surface smoother.
◆Carbide Asymmetric End Mill (Steel)-Reinforced asymmetric 36º/38 º design with special grinding technique to reach better surface roughness. Avoid vibration problem during machining and increase tool's stability.
◆Carbide Asymmetric End Mill (Aluminum)- Reinforced asymmetric 44.5º/45º/45.5º design with special grinding technique to reach better surface roughness. Avoid vibration problem during machining and increase tool's stability.