Multifunctional Three-Dimensional Non-Crimp Fibre Preforms for Polymer Composites: Innovative High-Value Products for the Australian Textiles Industry. This project aims to develop a new three-dimensional (3D) weaving technology for fabricating multi-functional fabrics for advanced fibre-reinforced composites. 3D woven fabrics with low fibre waviness for high structural performance, integrally woven optical fibre sensors for loads monitoring and damage detection, and woven thermoplastic filament ....Multifunctional Three-Dimensional Non-Crimp Fibre Preforms for Polymer Composites: Innovative High-Value Products for the Australian Textiles Industry. This project aims to develop a new three-dimensional (3D) weaving technology for fabricating multi-functional fabrics for advanced fibre-reinforced composites. 3D woven fabrics with low fibre waviness for high structural performance, integrally woven optical fibre sensors for loads monitoring and damage detection, and woven thermoplastic filaments for self-healing aim to meet the emerging demands of industry for light-weight high-performance composites. This new technology aims to deliver to the Australian textiles and clothing industry a new capability in manufacturing carbon-fibre based fabrics as reinforcements in advanced composites, thus helping reinvigorate and realign an important Australian industry sector.Read moreRead less
High performance bioderived hybrid fillers for rubber composite. This project aims to address a significant problem in polymer composite synthesis by production and application of high performance bioderived hybrid silica fillers from renewable biomass feedstock. The project expects to generate new knowledge in the area of advanced manufacturing using interdisciplinary approaches in biorefining, filler and composite production and characterization. Expected outcomes of this project include a mo ....High performance bioderived hybrid fillers for rubber composite. This project aims to address a significant problem in polymer composite synthesis by production and application of high performance bioderived hybrid silica fillers from renewable biomass feedstock. The project expects to generate new knowledge in the area of advanced manufacturing using interdisciplinary approaches in biorefining, filler and composite production and characterization. Expected outcomes of this project include a more sustainable filler production process for producing novel bioderived silica fillers with properties superior to commercial silica fillers. The successful implementation of this project will lead to the development of a new advanced manufacturing industry, creating jobs in regional Australia. Read moreRead less