Scalable manufacturing of bio-inspired & bio-based Graphene Foam components of extreme performance

Digital, Industry & SpaceHORIZON-RIAID: 101174399
EC Contribution
โ‚ฌ49,996
Consortium Size
14 orgs
Start Year
2025
โ–ถSummary

Nature uses foam or sponge-like structures in various organisms for purposes like shock absorption, noise reduction, and vibration compensation in a remarkable example of evolutionary adaptation and functional design. On the other hand, many products still rely on non-sustainable materials of fossil-based origin, for example foams and elastomeric used for vibratory motion, sound, harshness, energy, and shock-impact absorption in industries such as automotive, aerospace and marine. Example of such Noise Vibration and Harshness (NVH) materials are rubber and engineering resins. Bio.3DGREEN develops and demonstrates a novel manufacturing approach for a cost-effective bio-inspired platform of bio-based components based on graphene foam (GF) to meet the industrial needs, i.e. vibration, sound and shock-impact absorption and durability in extreme conditions. Bio.3DGREEN democratizes graphene technology and enables the unscalable fabrication of graphene-based components of complex geometries to be demonstrated at TRL 6 through a high throughput, laser-based Additive Manufacturing (AM) procedure. The procedure is bio-inspired, mimicking structures such as the human bone, and is based solely on bio-based graphene system with vegetable oil as the raw material, resulting in carbon-positive manufacturing of the new components. Bio.3DGREEN demonstrates the superior bio-based GF parts in four different industries, aiming to drive the optimization of the new manufacturing approach through an application-driven approach: Automotive suspension systems & isolation panels, aerospace applications and quiet shipping. Bio.3DGREEN achieves a multi-disciplinary approach to develop, optimize, and improve smart manufacturing application-driven, bio-based GF components, also considering the performance of current materials used, their cost, market size, wastage and recyclability, sustainability of manufacturing process, inclusion in Europeโ€™s circular economy and LCA, LCC aspects.

Consortium (14)