Showing 289–300 of 559 results

KPS-Collet chuck BT 40 – 4/16 – 60 | KPS 16

129.00

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
  • 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 BT 40 – 4/16 – 90 | KPS 16

138.00

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
  • 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 BT 50 – 1/10 – 105 | KPS 10

234.00

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
  • 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 BT 50 – 1/10 – 135 | KPS 10

250.00

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
  • 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 BT 50 – 1/10 – 165 | KPS 10

271.00

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
  • 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 BT 50 – 4/16 – 105 | KPS 16

238.00

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
  • 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 BT 50 – 4/16 – 135 | KPS 16

259.00

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
  • 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 BT 50 – 4/16 – 165 | KPS 16

280.00

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
  • 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

 

 

Milling arbors for screw-in cutters BT 40 – M10 – 102 – LB75

116.00

Application:
For mounting screw-in cutters with thread.


  • 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

 

 

Milling arbors for screw-in cutters BT 40 – M10 – 127 – LB100

133.00

Application:
For mounting screw-in cutters with thread.


  • 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

 

 

Milling arbors for screw-in cutters BT 40 – M10 – 52 – LB25

93.00

Application:
For mounting screw-in cutters with thread.


  • 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

 

 

Milling arbors for screw-in cutters BT 40 – M10 – 77 – LB50

105.00

Application:
For mounting screw-in cutters with thread.


  • 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