Discovery Early Career Researcher Award - Grant ID: DE190100614
Funder
Australian Research Council
Funding Amount
$408,000.00
Summary
New classes of aluminium-magnesium-silicon alloys via scandium additions. This project aims to establish the knowledge required to be able to improve Aluminium (Al) alloys using scandium (Sc). The transport sector accounts for 20 per cent of all greenhouse gas emissions globally, and the use of Al to reduce the weight of vehicles offers the potential to significantly reduce these emissions, however the properties of current Al alloys do not meet the necessary requirements. To overcome this chall ....New classes of aluminium-magnesium-silicon alloys via scandium additions. This project aims to establish the knowledge required to be able to improve Aluminium (Al) alloys using scandium (Sc). The transport sector accounts for 20 per cent of all greenhouse gas emissions globally, and the use of Al to reduce the weight of vehicles offers the potential to significantly reduce these emissions, however the properties of current Al alloys do not meet the necessary requirements. To overcome this challenge there is a need for new Al alloys with optimal balance of cost and performance. One opportunity in this area is the use of Sc, however the high Sc price has restricted research thus far. With the recent discovery of rich sources of Sc in Australia, the price of Sc will drop and become a viable solution. This will provide benefits by securing Australia’s position as a leader in the field of advanced Al products for engineering applications.Read moreRead less
Triboelectric separation - fundamentals and practice. Triboelectric separation is a novel way to refine mineral ores without using scarce water resources, based on the familiar generation of electrostatic charge by friction. This project will provide a practical dry particle separation process, and a better understanding of a common and important problem in electrostatics.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100223
Funder
Australian Research Council
Funding Amount
$1,000,000.00
Summary
Advanced in-situ electron microscope facility for research in alloys, nanomaterials, functional materials, magnetic materials and minerals. This advanced in situ electron microscope facility will provide Australia with a new and critical capability to understand and design technologically important materials. It will enable advances in the areas of energy, environment, transport, construction and mining.