| Source DB | nl |
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| Institution | KU Leuven |
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| Code | 46cc5780-7ebf-4fc5-9ee9-028f371e971f |
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| Unit | fd59c53d-f999-420c-bfa3-6f6fe009580d
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| Begin | 9/1/2017 |
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| End | 8/31/2021 |
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| title fr |
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| title nl | Duurzame structurele en multifunctionele biocomposieten van hybride natuurlijke vezels en biogebaseerde polymeren
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| title en | Sustainable structural and multifunctional biocomposites from hybrid natural fibres and bio-based polymers
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| Description fr |
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| Description nl | The project SSUCHY falls within the framework of the development and optimization of innovative and eco-efficient processes and constituents for structural and multifunctional bio-based composites. It is fully integrated into the research program of the Bio-Based Industries (BBI) Joint Technology Initiative operating under Horizon 2020, and particularly focused on BBI Value Chains 1 which is dedicated partly to the transformation of lignocellulosic feedstock to advanced bio-based materials. Our project is clearly positioned on the development of composite constituents, based on a renewable resource (i.e. biopolymers and plant fibre reinforcements) for the development of multifunctional biodegradable and/or recyclable bio-based composites with advanced functionalities for applications in transportation (automotive and aerospace) and a high value market niche (acoustic and electronics).It is dedicated to the development of specific concepts, technologies and materials to achieve a complete value chain and prove the principle at the scale of product demonstrators.
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| Description en | The project SSUCHY falls within the framework of the development and optimization of innovative and eco-efficient processes and constituents for structural and multifunctional bio-based composites. It is fully integrated into the research program of the Bio-Based Industries (BBI) Joint Technology Initiative operating under Horizon 2020, and particularly focused on BBI Value Chains 1 which is dedicated partly to the transformation of lignocellulosic feedstock to advanced bio-based materials. Our project is clearly positioned on the development of composite constituents, based on a renewable resource (i.e. biopolymers and plant fibre reinforcements) for the development of multifunctional biodegradable and/or recyclable bio-based composites with advanced functionalities for applications in transportation (automotive and aerospace) and a high value market niche (acoustic and electronics).It is dedicated to the development of specific concepts, technologies and materials to achieve a complete value chain and prove the principle at the scale of product demonstrators.
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| Qualifiers | - bio-based polymers - biocomposites - hybrid natural fibres - |
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| Personal | Van Vuure Aart Willem |
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| Collaborations | |
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