METAMORPHA | Made-to-measure micromachining with laser beams tailored in amplitude and phase

Summary

The METAMORPHA concept is a single agile USP laser micromachining platform to replace many conventional manufacturing process chains. It has the potential to eliminate thousands of environmentally damaging production processes. METAMORPHA is all-electric, all-digital, produces no waste chemicals and enables novel processes for product rework and repair.

All-in-one module: The key to this agility is a combination of two cascaded spatial light modulators (SLM) and a galvo scanner resulting in the most sophisticated beam shaping and steering ever developed. This allows a single module to perform the job of several laser processing heads: e.g. polishing, milling, drilling and cutting (importantly including any wall angle).

Made-to-measure laser processes: Each infeed component is scanned with a high resolution 3D sensor. A machine learning algorithm determines an individualised laser process to maximise efficiency and ensure ""first time right"".
In-line process control: Data from additional online sensors are processed using an edge device running a self-learning algorithm to provide real-time feedback for system control. The ultra-fast edge-based signal processing and synchronisation are key project topics.
Agile and scalable: Suitable for any standard industrial production line including 2-, 3- or 5-axis, rotating and roll-to-roll, and for scale up to parallel processing with multiple modules. The three end use cases (UCs) show the versatility and scope for replacing existing process chains:

  1. UC-1 PHILIPS: Small complex metal parts (shaving heads) requiring 90 degree wall angles.
  2. UC-2 TKSE: Large area embossing rollers and the re-writing of old rollers.
  3. UC-3 CERAT: Very hard carbide parts and refurbishment of worn parts.

Sustainability assessment: A life cycle analysis (LCA) and social LCA will be carried out to quantify the environmental and socioeconomic benefits. A detailed plan for exploitation and an extensive dissemination and communication plan are in place.

Unfold all
/
Fold all
More information & hyperlinks
Web resources: https://cordis.europa.eu/project/id/101057457
https://metamorpha.eu/
Start date: 01-09-2022
End date: 31-08-2026
Total budget - Public funding: 6 494 297,00 Euro - 6 494 296,00 Euro
Cordis data

Original description

"The METAMORPHA concept is a single agile USP laser micromachining platform to replace many conventional manufacturing process chains. It has the potential to eliminate thousands of environmentally damaging production processes. METAMORPHA is all-electric, all-digital, produces no waste chemicals and enables novel processes for product rework and repair.
All-in-one module: The key to this agility is a combination of two cascaded spatial light modulators (SLM) and a galvo scanner resulting in the most sophisticated beam shaping and steering ever developed. This allows a single module to perform the job of several laser processing heads: e.g. polishing, milling, drilling and cutting (importantly including any wall angle).
Made-to-measure laser processes: Each infeed component is scanned with a high resolution 3D sensor. A machine learning algorithm determines an individualised laser process to maximise efficiency and ensure ""first time right"".
In-line process control: Data from additional online sensors are processed using an edge device running a self-learning algorithm to provide real-time feedback for system control. The ultra-fast edge-based signal processing and synchronisation are key project topics.
Agile and scalable: Suitable for any standard industrial production line including 2-, 3- or 5-axis, rotating and roll-to-roll, and for scale up to parallel processing with multiple modules. The three end use cases (UCs) show the versatility and scope for replacing existing process chains:
UC-1 PHILIPS: Small complex metal parts (shaving heads) requiring 90 degree wall angles.
UC-2 TKSE: Large area embossing rollers and the re-writing of old rollers.
UC-3 CERAT: Very hard carbide parts and refurbishment of worn parts.
Sustainability assessment: A life cycle analysis (LCA) and social LCA will be carried out to quantify the environmental and socioeconomic benefits. A detailed plan for exploitation and an extensive dissemination and communication plan are in place."

Status

SIGNED

Call topic

HORIZON-CL4-2021-TWIN-TRANSITION-01-03

Update Date

27-10-2022
Geographical location(s)
Structured mapping
Unfold all
/
Fold all

Factories of the Future Partnership - Made in Europe Partnership

Made in Europe (MiE)
HORIZON-CL4-2021-TWIN-TRANSITION-01
HORIZON-CL4-2021-TWIN-TRANSITION-01-03: Laser-based technologies for green manufacturing (Photonics - Made in Europe Partnerships) (RIA)
Specific Objective 1: Excellent, responsive and smart factories & supply chains
R&I Objective 1.3: Zero-defect and zero-downtime high-precision manufacturing, including predictive quality and non-destructive inspection methods
HORIZON-CL4-2021-TWIN-TRANSITION-01-03: Laser-based technologies for green manufacturing (Photonics - Made in Europe Partnerships) (RIA)
R&I Objective 1.5: Advanced Manufacturing processes for smart and complex products
HORIZON-CL4-2021-TWIN-TRANSITION-01-03: Laser-based technologies for green manufacturing (Photonics - Made in Europe Partnerships) (RIA)
R&I Objective 1.6: Manufacturing for miniaturisation and functional Integration
HORIZON-CL4-2021-TWIN-TRANSITION-01-03: Laser-based technologies for green manufacturing (Photonics - Made in Europe Partnerships) (RIA)
Horizon Europe
HORIZON.2 Global Challenges and European Industrial Competitiveness
HORIZON.2.4 Digital, Industry and Space
HORIZON.2.4.1 Manufacturing Technologies
HORIZON-CL4-2021-TWIN-TRANSITION-01
HORIZON-CL4-2021-TWIN-TRANSITION-01-03: Laser-based technologies for green manufacturing (Photonics - Made in Europe Partnerships) (RIA)