32
Axial toolholder – form C1 right C1 – 50 x 32
Application:
Mainly for external machining. For face machining.
Precision coolant supply: Improves chip evacuation and decreases the risk for chip jamming, critical factors for successful deep face grooving operations. Effective from low to high coolant pressures.With high precision coolant you get improved
chip breaking, longer tool life, better process security and productivity. Improves chip evacuation and decreases the risk for chip jamming, critical factors for successful deep face grooving operations. Effective from low to high coolant pressures.
Axial toolholder – form C2 left C2 – 50 x 32
Application:
Mainly for external machining. For face machining.
Precision coolant supply: Improves chip evacuation and decreases the risk for chip jamming, critical factors for successful deep face grooving operations. Effective from low to high coolant pressures.With high precision coolant you get improved
chip breaking, longer tool life, better process security and productivity. Improves chip evacuation and decreases the risk for chip jamming, critical factors for successful deep face grooving operations. Effective from low to high coolant pressures.
Axial toolholder – form C3 overhead right C3 – 50 x 32
Application:
Mainly for external machining. For face machining.
Precision coolant supply: Improves chip evacuation and decreases the risk for chip jamming, critical factors for successful deep face grooving operations. Effective from low to high coolant pressures.With high precision coolant you get improved
chip breaking, longer tool life, better process security and productivity. Improves chip evacuation and decreases the risk for chip jamming, critical factors for successful deep face grooving operations. Effective from low to high coolant pressures.
Axial toolholder – form C4 overhead left C4 – 50 x 32
Application:
Mainly for external machining. For face machining.
Precision coolant supply: Improves chip evacuation and decreases the risk for chip jamming, critical factors for successful deep face grooving operations. Effective from low to high coolant pressures.With high precision coolant you get improved
chip breaking, longer tool life, better process security and productivity. Improves chip evacuation and decreases the risk for chip jamming, critical factors for successful deep face grooving operations. Effective from low to high coolant pressures.
Parting-off toolholder HSK 63-32-112 ISO 12164-3 HSK-T
Parting-off toolholders left – form AL 40 – 32
Parting-off toolholders left – form AL 50 – 32
Radial toolholder – form B1 right short B1 – 50 x 32 – 55
Application:
Mainly for external machining. For face machining.
Precision coolant supply: Improves chip evacuation and decreases the risk for chip jamming, critical factors for successful deep face grooving operations. Effective from low to high coolant pressures.With high precision coolant you get improved
chip breaking, longer tool life, better process security and productivity. Improves chip evacuation and decreases the risk for chip jamming, critical factors for successful deep face grooving operations. Effective from low to high coolant pressures.
Radial toolholder – form B2 left short B2 – 50 x 32 – 55
Application:
Mainly for external machining. For face machining.
Precision coolant supply: Improves chip evacuation and decreases the risk for chip jamming, critical factors for successful deep face grooving operations. Effective from low to high coolant pressures.With high precision coolant you get improved
chip breaking, longer tool life, better process security and productivity. Improves chip evacuation and decreases the risk for chip jamming, critical factors for successful deep face grooving operations. Effective from low to high coolant pressures.
Radial toolholder – form B3 overhead right short B3 – 50 x 32 – 55
Application:
Mainly for external machining. For face machining.
Precision coolant supply: Improves chip evacuation and decreases the risk for chip jamming, critical factors for successful deep face grooving operations. Effective from low to high coolant pressures.With high precision coolant you get improved
chip breaking, longer tool life, better process security and productivity. Improves chip evacuation and decreases the risk for chip jamming, critical factors for successful deep face grooving operations. Effective from low to high coolant pressures.
