Fibre-reinforced composites: Single-crystal mullite fibres from topaz. The project aims to develop the means of fabricating single-crystal mullite fibres from topaz that are suitable for reinforcement of metal and ceramic matrix composites. Single-crystal mullite is the most sought after fibrous additive, but is not available commercially. It is expected to attract an immediate clientele in laboratories and companies servicing the aviation industry and the military. This will allow large depos ....Fibre-reinforced composites: Single-crystal mullite fibres from topaz. The project aims to develop the means of fabricating single-crystal mullite fibres from topaz that are suitable for reinforcement of metal and ceramic matrix composites. Single-crystal mullite is the most sought after fibrous additive, but is not available commercially. It is expected to attract an immediate clientele in laboratories and companies servicing the aviation industry and the military. This will allow large deposit of topaz in Torrington, NSW to be used to develop a high-value niche product (fibres) and a large-volume, low-value product (fluoride). This will provide significant economic and environmental benefits and it addresses the research priorities - Resources and Advanced Manufacturing.Read moreRead less
Designing starches for increased productivity in mineral flotation. Designing starches for increased productivity in mineral flotation. This project aims to understand the process of starch-mineral surface interactions, and design and develop tailored starch depressant/flocculant biopolymers for mineral beneficiation via the froth flotation process. Natural and modified starches are used as depressants and flocculants in mineral flotation, but scientists lack knowledge of mechanisms describing s ....Designing starches for increased productivity in mineral flotation. Designing starches for increased productivity in mineral flotation. This project aims to understand the process of starch-mineral surface interactions, and design and develop tailored starch depressant/flocculant biopolymers for mineral beneficiation via the froth flotation process. Natural and modified starches are used as depressants and flocculants in mineral flotation, but scientists lack knowledge of mechanisms describing starch-mineral surface interactions, particularly how they process base metal sulphides. This project also intends to develop starch characterisation techniques and novel methods for modifying starch structures and functionalities. Anticipated outcomes are new novel manufacturing applications for starch in Australia.Read moreRead less
Industrial Transformation Training Centres - Grant ID: IC160100036
Funder
Australian Research Council
Funding Amount
$4,881,754.00
Summary
ARC Training Centre in Alloy Innovation for Mining Efficiency. ARC Training Centre in Alloy Innovation for Mining Efficiency. This centre aims to make Australian manufacturers dominant in the multi-billion dollar mining equipment sector by training innovators to design the world’s best highly customized long-life, wear resistant components. It intends to rapidly develop customized alloys that excel in severe mining conditions, using three-dimensional printing, novel characterisation and its netw ....ARC Training Centre in Alloy Innovation for Mining Efficiency. ARC Training Centre in Alloy Innovation for Mining Efficiency. This centre aims to make Australian manufacturers dominant in the multi-billion dollar mining equipment sector by training innovators to design the world’s best highly customized long-life, wear resistant components. It intends to rapidly develop customized alloys that excel in severe mining conditions, using three-dimensional printing, novel characterisation and its networked training environment. It expects these innovations will enable much needed efficiencies after the end of the mining super-cycle. Anticipated outcomes are the design of products with superior alloy design and material selection; jobs growth and security in the mining component production sector; and increased mining efficiency and cost reduction.Read moreRead less
Tough bio-derived and biodegradable wood plastic composites. This project aims for the development of tough bio-based and biodegradable wood plastic composites (WPCs), directly addressing a key end-user demand that performance of bio-WPCs must be at least comparable with existing commercial WPCs. The project expects to generate key innovations such as developing a new, high performance, bio-based and biodegradable WPC by incorporating native spinifex-derived nano-cellulose fibres, ensuring excel ....Tough bio-derived and biodegradable wood plastic composites. This project aims for the development of tough bio-based and biodegradable wood plastic composites (WPCs), directly addressing a key end-user demand that performance of bio-WPCs must be at least comparable with existing commercial WPCs. The project expects to generate key innovations such as developing a new, high performance, bio-based and biodegradable WPC by incorporating native spinifex-derived nano-cellulose fibres, ensuring excellent, molecular-level dispersion with a novel low-cost and energy-efficient wet-mix technology. This will provide significant benefits as it will lead to new products and markets for the Australian forestry industry and for rural and indigenous Australia, maximising Australia’s competitive advantage in biomass-derived products.Read moreRead less