REcycling technologies for Circular REuse and remanufacturing of fiber-reinforced composite mATErials

Digital, Industry & SpaceHORIZON-RIAID: 101058756
EC Contribution
โ‚ฌ83,580
Consortium Size
23 orgs
Start Year
2022
โ–ถSummary

The general objective of the RECREATE project is to develop a set of innovative technologies aimed at exploiting the potential of End-of-Life (EoL) complex composite waste as feedstock for profitable reuse of parts and materials in the manufacturing industry. In the light of this, more specific objectives are:-to develop and validate in relevant environment (TRL6) novel reuse strategies for large EoL composite parts based on smart recognition and inspection for sorting (Laser Induced Breakdown Spectroscopy), high precision dismantling (laser-shock) and repair, temperature-assisted reshaping, design for disassembly based on reversible joints, AI-assisted decision support systems;-to develop and validate in relevant environment (TRL6) innovative recycling technologies (catalyst-assisted green solvolysis and electrofragmentation) allowing simultaneous recovery of high quality, integer, clean fibers and of an organic resin fraction reusable as coating material, at the very end of the multiple reuse processes of parts;-to demonstrate at TRL6 the use of smart and green reversible thermoset resins as enabling materials for the realization of the next generation of fiber-reinforced composites with easier repairability and enhanced reusability, facilitating the transition towards recyclable-by-design composites;-to develop digital tools for the quantitative evaluation of the environmental and economic performance of the proposed technologies (LCA/LCC), as well as their circularity assessment and acceleration;-to co-design innovative digital learning resources, based on MOOCs, gamification and digital twins of some specialty technologies developed in the project, with easy adoption and high replicability.The objectives and ambition of RECREATE are fully compliant with the general requirements of the Horizon Europe - Digital, Industry and Space 2021 Work Programme, and with the specific requirements of the call Horizon-CL4-2021-Resilience-01-01.

Consortium (23)

Project Results (18)

Source: CORDIS, the EU research results database.

โ–ถPublications (9)
Fully biobased epoxy vitrimers from phloroglucinol triglycidyl ether and 2,5-furandicarboxylic acid
Reactive and Functional Polymersยท 2025DOI
Giulia Altamura, Marta Mazzucchelli, Eleonora Manarin, Anastasiia Nosova, Gianmarco Griffini, Stefano Turri
Optimization of a chemical recycling process for epoxy-amine thermosets and their carbon fiber reinforced composites using a design of experiments approach
Cleaner Engineering and Technologyยท 2025DOI
Valeria De Fabritiis, Leonardo Matta, Gianmarco Griffini, Stefano Turri
Revisiting Unsaturated Polyesters: Recyclable-by-Design Vinylester Resins for the Circular Economy
European Polymer Journalยท 2025DOI
Giulia Altamura, Eleonora Manarin, Gianmarco Griffini, Stefano Turri
Exploiting High Voltage Fragmentation to Enable Demand-Driven Recycling of End-of-Life Wind Blades
Procedia CIRPยท 2024DOI
Marco Diani; Shravan Torvi; Marcello Colledani
Towards a zero-waste chemcycling of thermoset polymer composites: Catalyst assisted mild solvolysis for clean carbon fiber liberation and circular coating development
Sustainable Materials and Technologiesยท 2024DOI
Eleonora Manarin, Oussama Boumezgane, Angela Giannino, Valeria De Fabritiis, Gianmarco Griffini, Stefano Turri
Diels-Alder Macromolecular Networks in Recyclable, Repairable and Reprocessable Polymer Composites for the Circular Economy โ€“ A Review
Macromolecular Materials and Engineeringยท 2023DOI
Gianmarco Griffini, Benedetta Rigatelli, Stefano Turri
On the Definition, Assessment, and Enhancement of Circular Economy across Various Industrial Sectors: A Literature Review and Recent Findings
Sustainabilityยท 2023DOI
Christina Vogiantzi, Konstantinos Tserpes
Viability of recycled fibres extracted from EoL composites
IOP Conference Series: Materials Science and Engineeringยท 2023DOI
Pekka Laurikainen, Essi Sarlin
Bio-Based Vitrimers from 2,5-Furandicarboxylic Acid as Repairable, Reusable, and Recyclable Epoxy Systems
ACS Applied Polymer Materialsยท 2022DOI
Eleonora Manarin, Federico Da Via, Benedetta Rigatelli, Stefano Turri, and Gianmarco Griffini
โ–ถDeliverables (8)
โ–ถOther Results (1)
Periodic Reporting for period 2 - RECREATE (REcycling technologies for Circular REuse and remanufacturing of fiber-reinforced composite mATErials)