Combi shell mill holder BT 40 – 22 – 55
Application:
For mounting milling cutters with transverse or longitudinal groove.
Delivery:
With retaining screw, driving ring and feather key
- All holders are made of forged steel
- Specific, low warpage hardened
- Surface hardened HRC 58~60
- Hardening depth 0,8mm~0,9mm
- Taper angle tolerance < AT 3 according to DIN 2080
- Surface roughness Ra < 0,4 µm
- Tensile strength in the core of min. 800 N/mm? after DIN
- All functional surfaces fine machined
KPS-Collet chuck HSK 40 – 4/16 – 80 | KPS 16
Application:
For mounting straight-shank tools in collets. To use for high speed cutting and high precision milling.
Delivery:
With balanced clamping nut
- All holders are made of forged steel
- Specific, low warpage hardened
- Surface hardened HRC 58~60
- Hardening depth 0,8mm~0,9mm
- Surface roughness Ra < 0,4 µm
- Tensile strength in the core of min. 800 N/mm? after DIN
- All functional surfaces fine machined
ER-Collet with seal for IC ER25 | 430EA | < 15µm | O 6
Application:
Collets sealed with seal for IC DIN 6499 B (ISO 15488 B) ER-system
Note:
Only nominal size d can be clamped with sealing plug for internal cooling (applicable up to 21 bar) In order to achieve an optimum sealing the tool must be clamped on the complete length of the ground drill of the collet.
End mill holder Weldon SK 40 – 25 – 100
Application:
For mounting straight-shank tools with lateral flat according to DIN 1835 form B (Weldon).
Delivery:
With clamping screw
- All holders are made of forged steel
- Specific, low warpage hardened
- Surface hardened HRC 58~60
- Hardening depth 0,8mm~0,9mm
- Taper angle tolerance < AT 3 according to DIN 2080
- Surface roughness Ra < 0,4 µm
- Tensile strength in the core of min. 800 N/mm? after DIN
- All functional surfaces fine machined
ER-Precision collet | stainless steel ER25 | 430ESP | < 5 µm | O 6,0 - 5,5
Radial toolholder – form B3 overhead right short B3 – 40 x 25 – 44
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.
OZ-Precision collet OZ16 | 415EP | < 5µm | O 7 - 6,5
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