The Development of High Strength Aluminium and Magnesium Alloys Using "Edge-to-edge" Matching Model. The theoretical, crystallographic "edge-to-edge" matching model for diffusion-controlled phase transformations will be applied to the practical development of improved industrial aluminium and magnesium alloys with assistance of computer simulations. The model will be used to enhance the precipitation hardening response and to identify more effective grain refiners in these light alloys. The aim ....The Development of High Strength Aluminium and Magnesium Alloys Using "Edge-to-edge" Matching Model. The theoretical, crystallographic "edge-to-edge" matching model for diffusion-controlled phase transformations will be applied to the practical development of improved industrial aluminium and magnesium alloys with assistance of computer simulations. The model will be used to enhance the precipitation hardening response and to identify more effective grain refiners in these light alloys. The aims will be the development of one high strength aluminium alloy with good ductility and one high strength magnesium alloy with good creep resistance at elevated temperatures. A computer program that will help to identify the most effective grain refiners for specific light alloys will also be produced.Read moreRead less
Development of corrosion resistant aluminium alloys for potable water systems. Maintaining Australia's operational advantage through superior capabilities is fundamental to national benefit. This project fosters breakthrough science to underpin technological innovation (new materials with enhanced functionality). In a global market, any promotion of aluminium usage provides direct benefit nationally, Australia being the key primary, secondary and tertiary producer. Aluminium exports are critical ....Development of corrosion resistant aluminium alloys for potable water systems. Maintaining Australia's operational advantage through superior capabilities is fundamental to national benefit. This project fosters breakthrough science to underpin technological innovation (new materials with enhanced functionality). In a global market, any promotion of aluminium usage provides direct benefit nationally, Australia being the key primary, secondary and tertiary producer. Aluminium exports are critical to the ongoing success of the Australian economy. This project provides excellent research training with unique industry focus for young researchers, fostering the international competitiveness of local research. Such work also benefits Australia via development of international capability in an interdisciplinary field.Read moreRead less