LAY2FORM | Efficient Material Hybridization by Unconventional Layup and Forming of Metals and Composites for Fabrication of Multifunctional Structures

Summary

LAY2FORM will create a new cost-effective multistage manufacturing platform based on flexible machinery concepts, cognitive automation, inline monitoring and inspection, as well as simulation and modelling, enabling the efficient integration of unconventional technologies (laser and ultrasound) in established composites-based processes, namely tape-laying and hot-forming, to enable the production of multifunctional 3D hybrid parts from thin layered metals and thermoplastic-matrix composites. Framed by an end-to-end engineering approach, LAY2FORM will shorten the design and manufacturing cycle time and improve reliability, presenting a substantial potential to, in the middle term, turn the manufacturing of complex and intricate hybrid composite-metal parts highly cost competitive. The enhanced LAY2FORM manufacturing system will be a system of systems, containing the enabling process modules and digital sub-systems to create a continuous and automated manufacturing chain. Moreover, LAY2FORM will apply an integrated and systemic approach to implement full manufacturing routes and create new value chains, from materials conditioning to materials disassembly, being a robust basis for the efficient production of hybrid lightweight structures. The multidisciplinary approach proposed in LAY2FORM comprises a complex interconnection of leading R&I topics to develop an industrially-feasible and competitive manufacturing platform, compatible with the Industry 4.0 vision.

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More information & hyperlinks
Web resources: http://lay2form-project.eu/
https://cordis.europa.eu/project/id/768710
Start date: 01-10-2017
End date: 31-03-2022
Total budget - Public funding: 4 931 303,00 Euro - 4 931 303,00 Euro
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Original description

LAY2FORM will create a new cost-effective multistage manufacturing platform based on flexible machinery concepts, cognitive automation, inline monitoring and inspection, as well as simulation and modelling, enabling the efficient integration of unconventional technologies (laser and ultrasound) in established composites-based processes, namely tape-laying and hot-forming, to enable the production of multifunctional 3D hybrid parts from thin layered metals and thermoplastic-matrix composites. Framed by an end-to-end engineering approach, LAY2FORM will shorten the design and manufacturing cycle time and improve reliability, presenting a substantial potential to, in the middle term, turn the manufacturing of complex and intricate hybrid composite-metal parts highly cost competitive. The enhanced LAY2FORM manufacturing system will be a system of systems, containing the enabling process modules and digital sub-systems to create a continuous and automated manufacturing chain. Moreover, LAY2FORM will apply an integrated and systemic approach to implement full manufacturing routes and create new value chains, from materials conditioning to materials disassembly, being a robust basis for the efficient production of hybrid lightweight structures. The multidisciplinary approach proposed in LAY2FORM comprises a complex interconnection of leading R&I topics to develop an industrially-feasible and competitive manufacturing platform, compatible with the Industry 4.0 vision.

Status

CLOSED

Call topic

FOF-07-2017

Update Date

27-10-2022
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Factories of the Future Partnership (FoF) - Made in Europe Partnership (MiE)
H2020 - Factories of the Future
H2020-FOF-2017
FOF-07-2017 Integration of unconventional technologies for multi-material processing into manufacturing systems
Horizon 2020
H2020-EU.2. INDUSTRIAL LEADERSHIP
H2020-EU.2.1. INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies
H2020-EU.2.1.5. INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies - Advanced manufacturing and processing
H2020-EU.2.1.5.1. Technologies for Factories of the Future
H2020-FOF-2017
FOF-07-2017 Integration of unconventional technologies for multi-material processing into manufacturing systems