CRECOF From recyclable to effective recycling Mathieu SCHWANDER PEP Franco-British Symposium on Composite Materials April 29th 2015 - London
PEP Technical and Innovation Center for Plastics & Composites Expert in thermoplastic injection & composites Objective : To improve the competitiveness of the industry through innovation by using technological platforms. Key figures 80 employees (researcher, engineer, technicians ) 25 R&D projects in progress Annual sales 2014: 9 M Training 4 Business Units
CRECOF CRECOF Established 2011 11 clusters, 1 technical centre & 1 professional organization Objective : contribute to the setting of comprehensive composites recycling chains. Actions First actions concentrated on technological research and development Spectrum now covering wider issues
Composites recycling : economical stakes Protect the environment Limiting the amount of waste Comply with regulation European & national legislation Existing or planned ban on landfilling Directing waste towards reuse Build a green image Preserve growth of composites market Not recyclable Build a new economy Creating value from waste
Waste resource Production waste End-of-life waste French production 300 kt (87 % GFRP) Waste types : scrap (5-30% according to processes, cutting scrap, parts with defects, out-of-date prepregs ) State : polymerized or not? painted?, presence of insets, films.. Not localized Complex waste (multi-component), Lower volumes vs plastics Key figures Dismantling Automotive : 1,8m «VHU» / an Leisure boats : x 4 by 2025 Aeronautics : 7200 planes / 20 years Wind energy :market rise x 7-8 by 2020 WASTE RESOURCE ESTIMATION (France) 10 22 kt / year
Main treatment technologies Elimination No valorisation Landfilling Energy valorisation Incineration Mixt valorisation (energy + material) Material valorisation (output properties < input properties) Material valorisation (output properties = input properties) Cement kiln co-processing Pyrolysis Grinding Solvolysis Direct re-use - Composites recycling solutions exist at industrial scale - Key = choose the best way according to base materials, valorisation perspectives and economical analysis
Secondary raw materials & re-use First-stage recycled products Short/long fibres according to grinding type & powders Re-use in TP/TS compounds (new parts in same applications) and cement Actual experience* BMC Same performances with 30% of reinforcement substitution by recycled fibres SMC compounds with recycled carbon fibres up to 98% properties retention Second-stage recycled products & parts In the past three years, «textile» products have come to market (veils, multi-axial, tapes) Manufacturing of new composite parts = Industrial reality. To be developed
CRECOF aim From «recyclable» to «recycled» Systematic collection Sort waste at source Effectively collect composites waste at dismantling stage Inform about composite recycling chains Production End of life Re-use Recycling Guarantee reliable secondary raw materials (volumes, properties) Develop (new) applications Develop technologies Bring treatment processes up to industrial scale
CRECOF Program Information Demonstrate that composites recycling works today! Give up-to-date and clear information to companies about current solutions & potential RECYCLING GUIDE Collective action Key issue is gathering of waste volumes Helping initiatives from local organizations or specific professions Mutualize R&D efforts Giving general orientations Initiating projects Bringing ideas to project stage