The project is based on the realization of three macro use-cases, further detailed in eight demonstrators, entailing the design and production of new composite made products re-using GFRP and CFRP materials / components:
Use-case 1: Mechanical recycling of short GFRP and re-use in added-value customized applications, including furniture, sport and creative products. The input products will be EoL wind turbine blades and construction components. Emerging manufacturing technologies like UV-assisted 3D-printing and metallization by Physical Vapor Deposition will be used. Three demonstrators will be developed in this use-case:
• Demo-case 1.1: Use of a fraction (at least 40% w/w) of GFRP recyclate in open mould spray applications of GFRP for sanitary products (bath tubs, shower trays);
• Demo-case 1.2: Use of a fraction (at least 30% w/w) of GFRP recyclate for prototyping personalized and creative products (i.e. creative packaging etc).
• Demo-case 1.3: Use of a fraction (at least 10% w/w) of GFRP recyclate to strengthen PU compounds for the realization of sport equipment (e.g. skis).
Use-case 2: Thermal recycling of long fibers (glass and carbon) and re-use in high-tech, high-resistance applications. The input products will be aerospace components and the re-use of composites in automotive (aesthetical and structural components) and construction will be demonstrated by applying controlled pyrolysis and custom remanufacturing solutions. Three demonstrators will be developed in this use-case:
• Demo-case 2.1 use of a fraction (at least 20%) of thermally recycled GF for structural components in automotive.
• Demo-case 2.2 use of a fraction (at least 20%) of thermally recycled CF for structural components in automotive.
• Demo-case 2.3 use of a fraction (at least 30%) of thermally recycled GFRP for the building industry (roofs).
Use-case 3: Inspection, repair and remanufacturing for EoL CFRP products in high-tech applications. Two demonstrators will be developed in this use-case:
• Demo-case 3.1: design and remanufacturing of a CFRP body structure parts composed of detachable and repairable parts.
• Demo-case 3.2: design and remanufacturing of inner modular car structures (e.g. seats) for re-using CFRP components.
The FiberEUse consortium has elaborated a preliminary, value-chain oriented, business plan that shows the expected impacts of the project solution in terms of economic, social and environmental aspects:
• A total increase in value added by 2025 of 0.226 B€/year in three target sectors (automotive, wind energy systems, and aeronautics).
• A total increase in employment triggered by FiberEUse of close to 4500 jobs.
• Total savings of emissions of 1200 kTons CO2/year, of energy of 1.75 TWh/year and of materials, that without FiberEUse would be landfilled, of 33.8kTons/year by 2025.