Development of design guidelines for recycled plastic material and structural components. It is estimated that by 2010 over 1.2 million tonnes of plastic will be used annually by Australians of which only 3% is currently recycled. Preliminary testing of recycled plastic products has demonstrated their potential usefulness in structural engineering applications. However, the lack of guidelines suitable for advanced applications of recycled plastic is limiting the growth of this technology. This p ....Development of design guidelines for recycled plastic material and structural components. It is estimated that by 2010 over 1.2 million tonnes of plastic will be used annually by Australians of which only 3% is currently recycled. Preliminary testing of recycled plastic products has demonstrated their potential usefulness in structural engineering applications. However, the lack of guidelines suitable for advanced applications of recycled plastic is limiting the growth of this technology. This project aims to develop a set of rational guidelines for the testing, analysis and design of recycled plastic material and structural components that will enable the continued expansion of this technology, significantly reducing waste plastic.Read moreRead less
Durability of carbon fibre reinforced polymer (CFRP) strengthened steel structures against environment-assisted degradation. This research project will challenge conventional methods of repairing or strengthening steel structures by using carbon fibre reinforced polymer with advanced epoxy. The outcome of this research is to remove the biggest barrier to the full utilization of such advanced material in civil, offshore and mining industry.
Next generation bioplastics: Production of polyhydroxyalkanoate (PHA) bioplastics from organic waste. Production of next generation bioplastics by using waste as a resource supports an environmentally sustainable Australia and provides wide-ranging commercial opportunities for Australian businesses. Fundamental research in this field will provide a platform for creation of an Australian Centre of Excellence in PHA bioplastics, which will play an integral role in progressing research on sustainab ....Next generation bioplastics: Production of polyhydroxyalkanoate (PHA) bioplastics from organic waste. Production of next generation bioplastics by using waste as a resource supports an environmentally sustainable Australia and provides wide-ranging commercial opportunities for Australian businesses. Fundamental research in this field will provide a platform for creation of an Australian Centre of Excellence in PHA bioplastics, which will play an integral role in progressing research on sustainable materials development. The project will provide training and PhD education in environmental biotechnology, and direct commercial benefits to Australia by the development of significant Intellectual Property and linkage between an Australian University and leading players in environment technology commercialisation.Read moreRead less
Development of structural-functional integrated concrete. This project seeks to create a structural concrete to control indoor temperature using thermal energy storage aggregates (TESA). Such concrete would improve indoor comfort without human intervention and significantly reduce the energy consumed in heating and cooling. TESA concrete is made of porous lightweight aggregate impregnated with phase-change materials. The aim of this project is to investigate and optimise the structural and funct ....Development of structural-functional integrated concrete. This project seeks to create a structural concrete to control indoor temperature using thermal energy storage aggregates (TESA). Such concrete would improve indoor comfort without human intervention and significantly reduce the energy consumed in heating and cooling. TESA concrete is made of porous lightweight aggregate impregnated with phase-change materials. The aim of this project is to investigate and optimise the structural and functional performance of TESA concrete. In particular, it aims to reveal the microstructure, mechanical, thermal, durability properties of TESA concrete and ways to optimise its overall performance. This knowledge would provide a solid foundation for the numerical simulation of TESA concrete and its use in engineering applications.Read moreRead less