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DIPLAT

DIPLAT

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    • Element Six
    • ETH Zurich
    • Reishauer
    • Struers
    • The University of Nottingham
    • Walter / EWAG
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    • Laser structuring
    • PCD tools for ceramics
    • Increased wear resistance
    • Laser ablation of positive clearance
    • PCD core drill
    • PLA simulator
    • Laser finishing
    • PLA abrasive surfaces
    • Laser touch dressing
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HomeProject results

Project results

DSC_8181_1_lq

Laser structuring of electroplated diamond dressing tools


Mill

Solid PCD milling tools for ceramics processing


 

SEMnew

Increased wear resistance of PCD tools


Fig04 clearance

Laser ablation of positive clearance on single layer electroplated diamond tools


 


Solid polycrystalline diamond core drill

Solid polycrystalline diamond core drill


Pulsed laser ablation simulator

Pulsed laser ablation simulator


Tangential laser finishing

Tangential laser finishing


Geometrically defined laser generated abrasive surface

Geometrically defined, laser-generated abrasive surface


Laser touch dressing process to generate positive clearance on stochastic abrasive surfaces

Laser touch dressing process to generate positive clearance on stochastic abrasive surfaces

News

  • European Conference Industrial Technologies 2016 July 4, 2016
  • Impact: the new EFFRA newsletter June 30, 2016
  • Newsletter #9 June 27, 2016
  • 7th Cirp Conference on High Performance Cutting June 3, 2016
  • Aerospace Techdays 2016 April 14, 2016

© 2015 DIPLAT

The DIPLAT project has received funding from the European Union Seventh Framework Programme (FP7/2007-2013) under grant agreement n° 314731