Enabling advanced functionalities of Diamond and other ultra-hard materials by Integrated Pulsed Laser Ablation Technologies

Full project page
Enabling advanced functionalities of Diamond and other ultra-hard materials by Integrated Pulsed Laser Ablation Technologies

Reducing emissions in manufacturing processes


Specifics for Project DIPLAT | Enabling advanced functionalities of Diamond and other ultra-hard materials by Integrated Pulsed Laser Ablation Technologies

Description DIPLAT will lead to a technological breakthrough that will push European manufacturing industries to the cutting edge of high-performance machining and tooling technology.
Organisation Institute for Advanced Manufacturing - University of Nottingham
Comments The diamond and CBN tool produced in DIPLAT exhibit a maximum tool lifetime, which makes them most suitable for high precision processes and high levels of automation while reducing the amount tool waste
 Pulsed Laser Ablation (PLA) simulator Result description The need to machine micro features on ever harder and tougher material helped the rise of pulsed laser ablation in many manufacturing industries like aerospace, defence, biomechanics etc.
 Tangential laser finishing Result comments Manufacturing Manufacture of machinery and equipment n.e.c. Production of ultrahard tools (diamond, PCBN)
 Reducing emissions in manufacturing processes Taxon title Reducing emissions in manufacturing processes
 Control technologies Taxon description order to come forward to the demands of increased speed and precision in manufacturing.
 Economic sustainability Comments The diamond and CBN tool produced in DIPLAT exhibit a maximum tool lifetime, which makes them most suitable for high precision processes and high levels of automation while reducing the amount tool waste