Novel bioderived and biodegradable wood plastic composites from wastes. This project pioneers the development of high performance wood plastic composites from polyhydroxyalkanoates (PHAs) generated from pulp and paper waste. The key innovations are: developing a new bioderived and biodegradable high performance wood fibre composite with improved melt flow leading to better binding; and making direct use of PHA-rich biomass so avoiding the cost and environmental burden of polymer extraction. The ....Novel bioderived and biodegradable wood plastic composites from wastes. This project pioneers the development of high performance wood plastic composites from polyhydroxyalkanoates (PHAs) generated from pulp and paper waste. The key innovations are: developing a new bioderived and biodegradable high performance wood fibre composite with improved melt flow leading to better binding; and making direct use of PHA-rich biomass so avoiding the cost and environmental burden of polymer extraction. The project aims to lead to new products and more diverse markets for the Australian forestry industry and maximise Australia’s competitive advantage in biomass-based product development.Read moreRead less
Flowable composite system with short S-glass fibre and halloysite nanotubes. Flowable composite system with short S-glass fibre and halloysite nanotubes. This project aims to design dental materials with reduced amalgams, using a strong but flowable composite with randomly distributed short S-glass fibres and a non-toxic natural nano-composite overlay. This alternative dental composite material is expected to meet international regulatory bodies’ intention to reduce amalgams. Using advanced phot ....Flowable composite system with short S-glass fibre and halloysite nanotubes. Flowable composite system with short S-glass fibre and halloysite nanotubes. This project aims to design dental materials with reduced amalgams, using a strong but flowable composite with randomly distributed short S-glass fibres and a non-toxic natural nano-composite overlay. This alternative dental composite material is expected to meet international regulatory bodies’ intention to reduce amalgams. Using advanced photonic and micro-mechanical techniques to make engineered material is also expected to enhance Australian manufacturing.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100030
Funder
Australian Research Council
Funding Amount
$1,200,000.00
Summary
Advanced focused ion beam (FIB) / scanning electron microscopes (SEM) for nanometre scale characterisation and fabrication. These instruments are designed to provide fundamental insights into physical and biological systems though characterisation and fabrication of structures at nanometre length scales. These versatile platforms will support a wide range of projects covering three national research priority areas. These range from the characterisation of light alloys for improving and building ....Advanced focused ion beam (FIB) / scanning electron microscopes (SEM) for nanometre scale characterisation and fabrication. These instruments are designed to provide fundamental insights into physical and biological systems though characterisation and fabrication of structures at nanometre length scales. These versatile platforms will support a wide range of projects covering three national research priority areas. These range from the characterisation of light alloys for improving and building Australia's Aluminium, Magnesium and Titanium alloy industries, to the study of aerosol particles for improved pulmonary drug delivery for asthma patients, the development of advanced solar cells and the study of the integrated behaviour of the soil-microbe system for sustainable agriculture.Read moreRead less