Within CUBIC project, two complex end-products which are neither sustainable nor recyclable have been selected to demonstrate the potential of the materials, intermediates and technologies developed, building up two value chains (in packaging and automotive sector) and opening replicability options in many others.
CUBIC project designs novel materials to obtain circular by design biobased and recyclable thermoplastic and thermoset B2B intermediates that permits eco-design of complex products adapting their intrinsic characteristics to novel unconventional manufacturing processes as new paradigm to advance the mass production of advanced products. These are divided into: i) innovations related to sustainable biobased materials, ii) unconventional manufacturing processes that permits the design, production and diversification of B2B intermediate products; and iii) the combination of the previous innovations give rise to the eco-design of Safe and Sustainable bt Design and circular end-products that permits the substitution of a multitude of current complex products which are neither biobased nor recyclabe at all.
The results will be demonstrated through the development and manufacturing of two products:
1. Pressure vessel for carrying gas. It is formed by a bioPA liner and a wrapping layer of endured 3R-CAN-bioepoxy and bioCF. It will be a 100% sustainable and circular product, being remanufacturable, recyclable and upgrading the waste hierarchy.
2. Automotive seats. It is formed by a bioPA organosheet infused with bioPA wetting coverture, manufactured by T-RTM technology. Showing a sustainable alternative (aiming at 100% biobased material) and being 100% recyclable through chemical recycling, upgrading in waste hierarchy.
The main innovations of the project are:
1. Sustainability related to material science: development of 100% biobased 3R-CAN-bioepoxy system, different biopolyamide grades and carbon fibre from lignin
2. Adapting manufacturing processes related to low maturity unconventional technologies that allows obtaining a broad range of novel B2B intermediates and final products: enduring impregnation in wet filament winding of bioCF, melt spinning of bicomponent-monomaterial self-reinforced composites followed by stamp forming or thermoplastic press consolidation, thermo-resin transfer molding and rotomolding
3. Reaching functionality through modularity; the manufacturing of B2B intermediate formats opens the possibility of developing a wide range of end-products