ultraSURFACE | Ultra Dynamic Optical Systems for High Throughput Laser Surface Processing

Summary
In nearly every sector of industrial manufacturing surface processing techniques are used, e.g. for structuring or polishing of aesthetical or functional surfaces. In many applications laser based surface processing techniques already achieve highest precision and quality. But often the throughput is limited.

State of the art for many applications in laser surface processing is the utilization of one round laser beam. The idea of ultraSURFACE is to increase the throughput for laser surface processing by at least a factor of 10 without any drawbacks in the quality of the processing results. Therefore, two different optics concepts will be realised and combined with a fast and synchronized machine, scanner and optics control.

Optics Concept 1 refers to a dynamic and flexible beam-shaping approach with piezo-deformable mirrors which enables the realisation and the fast adaption of application specific intensity distributions. This will allow significant increase in feed speed and track offset and therefore of throughput.
Optics Concept 2 is a beam splitting approach which allows simultaneous processing with multiple laser beams and thus a significant increase of throughput.

For both concepts the implementation of prototypes is planned as well as their industrial validation in different fields of application (laser structuring, laser polishing, laser thin-film processing). The main ultraSURFACE Objectives are
uSO1 Dynamic and flexible beam-shaping optics for laser surface processing
uSO2 Multi-beam optics for parallel laser surface processing
uSO3 Ultrafast synchronisation of optics and machine for 3D processing
uSO4 Validation in industrial scenarios
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More information & hyperlinks
Web resources: https://cordis.europa.eu/project/id/687222
Start date: 01-01-2016
End date: 30-06-2019
Total budget - Public funding: 3 739 955,00 Euro - 2 927 455,00 Euro
Cordis data

Original description

In nearly every sector of industrial manufacturing surface processing techniques are used, e.g. for structuring or polishing of aesthetical or functional surfaces. In many applications laser based surface processing techniques already achieve highest precision and quality. But often the throughput is limited.

State of the art for many applications in laser surface processing is the utilization of one round laser beam. The idea of ultraSURFACE is to increase the throughput for laser surface processing by at least a factor of 10 without any drawbacks in the quality of the processing results. Therefore, two different optics concepts will be realised and combined with a fast and synchronized machine, scanner and optics control.

Optics Concept 1 refers to a dynamic and flexible beam-shaping approach with piezo-deformable mirrors which enables the realisation and the fast adaption of application specific intensity distributions. This will allow significant increase in feed speed and track offset and therefore of throughput.
Optics Concept 2 is a beam splitting approach which allows simultaneous processing with multiple laser beams and thus a significant increase of throughput.

For both concepts the implementation of prototypes is planned as well as their industrial validation in different fields of application (laser structuring, laser polishing, laser thin-film processing). The main ultraSURFACE Objectives are
uSO1 Dynamic and flexible beam-shaping optics for laser surface processing
uSO2 Multi-beam optics for parallel laser surface processing
uSO3 Ultrafast synchronisation of optics and machine for 3D processing
uSO4 Validation in industrial scenarios

Status

CLOSED

Call topic

ICT-27-2015

Update Date

27-10-2022
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Horizon 2020
H2020-EU.2. INDUSTRIAL LEADERSHIP
H2020-EU.2.1. INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies
H2020-EU.2.1.1. INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies - Information and Communication Technologies (ICT)
H2020-EU.2.1.1.0. INDUSTRIAL LEADERSHIP - ICT - Cross-cutting calls
H2020-ICT-2015
ICT-27-2015 Photonics KET