Opis projektu
Smart Factories: Energy-aware, agile manufacturing and customisation
High power Adaptable Laser beams for materials prOcessing
Materials processing is by far the highest value application of lasers, and Europe is a power-base for this technology. HALO will develop the next generation of materials processing lasers, which will have adaptable beams actively optimised for specific processes. They will produce better processing results exploiting the as yet unused potential of:Fibre guided high power CW lasers for metal sheet cutting (addressing the largest market share of laser machines)Pico-second lasers operating at high average powersPulsed lasers emitting at new wavelengths for precision cutting of thin metal sheets and brittle materials like glass (addressing products of consumer markets such as high end phones or PC systems).
This will require a range of new technologies: HALO will develop the necessary elements to bring about a step change in lasers for materials processing:
Components tailored for adaptable beams and new beam shapesNew approaches to adaptable hollow beam sources at new wavelengthsTechniques for beam shaping and formingProcess optimisation for adaptable beam processing using IT-based meta-modelsAdaptable jet-assisted laser cutting.
The project addresses these two most important markets of laser processing and will be demonstrated in specific industrial applications by important end users:
Sheet metal cutting (sheet thickness 1 to 25 mm)Precision cutting of glass and thin metal sheets (<1 mm).
The HALO project consortium includes market leading laser component and system manufacturers, world renowned researchers, beta end users of the system manufacturers and one end user representing excellence in EU SMEs.
Dziedzina nauki
Not validated
Not validated
Zaproszenie do składania wniosków
FP7-2012-NMP-ICT-FoF
Zobacz inne projekty w ramach tego zaproszenia
System finansowania
CP - Collaborative project (generic)Koordynator
TQ2 7QL Torquay Devon
Zjednoczone Królestwo