Summary
Recent events such as the COVID pandemic and the Ukraine war have increased global uncertainty and prompted European companies to rethink their global supply chain and production methods. Given the unpredictable nature of potential shocks, it is crucial for European industry to maintain a high degree of flexibility and adaptability in order to swiftly respond to sudden changes, whenever they may occur.
The LaserWay project aims to revolutionize the manufacturing industry by replacing conventional, inefficient, and environmentally harmful methods with highly flexible production lines based on high-speed laser technology. Laser blanking, laser micro-drilling, and extreme high-speed laser material deposition (EHLA) are the three laser manufacturing technologies selected for their potential to create more sustainable manufacturing processes and products.
The project focuses on developing WayFASTER machines to improve the performance of the laser technologies through lightweight designs, vibration control techniques, and program optimizations tailored for high-speed laser applications. WayFASTER Photonics aims to ensure precise delivery of the laser beam at extreme speeds, targeting three laser technologies with unique demands. The WaySTRONGER integration concept aims to enhance the sustainability, resilience, and flexibility of current manufacturing processes by integrating new technologies mechanically and digitally.
The project's success will provide a competitive edge for industries, such as automotive and aerospace, by reducing processing times, improving material usage, and enhancing end-product quality. The advancements made through the LaserWay project will drive innovation in high-speed laser processing, solidifying Europe's position as a global leader in advanced manufacturing technologies.
The LaserWay project aims to revolutionize the manufacturing industry by replacing conventional, inefficient, and environmentally harmful methods with highly flexible production lines based on high-speed laser technology. Laser blanking, laser micro-drilling, and extreme high-speed laser material deposition (EHLA) are the three laser manufacturing technologies selected for their potential to create more sustainable manufacturing processes and products.
The project focuses on developing WayFASTER machines to improve the performance of the laser technologies through lightweight designs, vibration control techniques, and program optimizations tailored for high-speed laser applications. WayFASTER Photonics aims to ensure precise delivery of the laser beam at extreme speeds, targeting three laser technologies with unique demands. The WaySTRONGER integration concept aims to enhance the sustainability, resilience, and flexibility of current manufacturing processes by integrating new technologies mechanically and digitally.
The project's success will provide a competitive edge for industries, such as automotive and aerospace, by reducing processing times, improving material usage, and enhancing end-product quality. The advancements made through the LaserWay project will drive innovation in high-speed laser processing, solidifying Europe's position as a global leader in advanced manufacturing technologies.
Unfold all
/
Fold all
More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/101138739 |
| Start date: | 01-01-2024 |
| End date: | 31-12-2026 |
| Total budget - Public funding: | - 5 392 275,00 Euro |
Cordis data
Original description
Recent events such as the COVID pandemic and the Ukraine war have increased global uncertainty and prompted European companies to rethink their global supply chain and production methods. Given the unpredictable nature of potential shocks, it is crucial for European industry to maintain a high degree of flexibility and adaptability in order to swiftly respond to sudden changes, whenever they may occur.The LaserWay project aims to revolutionize the manufacturing industry by replacing conventional, inefficient, and environmentally harmful methods with highly flexible production lines based on high-speed laser technology. Laser blanking, laser micro-drilling, and extreme high-speed laser material deposition (EHLA) are the three laser manufacturing technologies selected for their potential to create more sustainable manufacturing processes and products.
The project focuses on developing WayFASTER machines to improve the performance of the laser technologies through lightweight designs, vibration control techniques, and program optimizations tailored for high-speed laser applications. WayFASTER Photonics aims to ensure precise delivery of the laser beam at extreme speeds, targeting three laser technologies with unique demands. The WaySTRONGER integration concept aims to enhance the sustainability, resilience, and flexibility of current manufacturing processes by integrating new technologies mechanically and digitally.
The project's success will provide a competitive edge for industries, such as automotive and aerospace, by reducing processing times, improving material usage, and enhancing end-product quality. The advancements made through the LaserWay project will drive innovation in high-speed laser processing, solidifying Europe's position as a global leader in advanced manufacturing technologies.
Status
SIGNEDCall topic
HORIZON-CL4-2023-TWIN-TRANSITION-01-02Update Date
29-01-2024
Images
No images available.
Geographical location(s)
Structured mapping
Unfold all
/
Fold all
FoF and Made in Europe Partnership
Factories of the Future Partnership - Made in Europe Partnership
MiE SRIA R&I Priorities
EU-Programme-Call
Search
Contacts
Not specified (see website if available)
Latest news
Organisations
-
| IDEKO (Coördinator)
-
| ACUNITY GMBH
-
| AERNNOVA ENGINEERING DIVISION SAU
-
| CESKE VYSOKE UCENI TECHNICKE V PRAZE
-
| COMPO TECH PLUS SPOL SRO
-
| Cedrat Technologies SA
-
| ECOMATTERS B.V.
-
| FAGOR ARRASATE S.COOP.
-
| FAGOR AUTOMATION S COOP LTDA
-
| FRAUNHOFER GESELLSCHAFT ZUR FOERDERUNG DER ANGEWANDTEN FORSCHUNG E.V.
-
| ModuleWorks GmbH
-
| Precitec KG
-
| SISTEMA AZUD SA
-
| TEMATYS
-
| Tekniker