In cooperation with the Institute of Polymer Materials and Plastics Technology at Clausthal University of Technology, the ITA investigates the potential of highly oriented natural fibre fabrics for structural fibre composite applications as part of the HyPer-NFP (High-Performance Natural Fibre Reinforced Plastics) project. With this innovative approach, the otherwise necessary yarn building process can be eliminated. The natural fibres can thus be oriented more in load direction so that the composite show better mechanical properties comparable to those of glass fibre-reinforced plastic (GRP). At the same time, the savings in the spinning process lead to a significant reduction in process costs. Compared to GRP, signifi-cantly less energy is also required for the production, making the new composite material more ecological.
By improving the mechanical properties and reducing the price of materials, the course is set for the application of NRP in structural components.
Non-crimp fabrics are often used as reinforcement structures for mechanically highly stressed composite fibre structures in industrial lightweight construction. These are made of continuous filament rovings made from glass, carbon or ara-mid. Using these materials requires a high energy input in fiber production and thus leads to high CO2 emissions in the production of fiber composites (FRP). Compared to GRP, during NFP production, energy savings of about 40% can be achieved which is mirrored in about 30% lower CO2-emissions. NFP is therefore already used for selected, non-structural components with low mechanical proper-ties (EU 2015: 120,000 t). Due to the additionally necessary process step of yarn production, natural fibre fabrics are however rather expensive (flax fabrics: 16-20 €/kg). In addition, the maximum achievable mechanical component tenacity is re-duced by the use of staple fibre yarns.
Industries: Sports, Leisure & Recreation