Quantitative Atom Probe Tomography for Nanostructural Analysis of Materials. The ultimate in microscopy would involve the ability to image and chemically identify every atom or molecule in a specimen. This project involves the development of reconstruction and analysis methodologies for more accurately determining relative atomic positions in atom probe tomography. We will develop a comprehensive, platform-independent approach to enable quantitative atom probe tomography for the Australian resea ....Quantitative Atom Probe Tomography for Nanostructural Analysis of Materials. The ultimate in microscopy would involve the ability to image and chemically identify every atom or molecule in a specimen. This project involves the development of reconstruction and analysis methodologies for more accurately determining relative atomic positions in atom probe tomography. We will develop a comprehensive, platform-independent approach to enable quantitative atom probe tomography for the Australian research community. This development will be used to address current questions on the influence of the chemistry, crystallography, type and dispersion of sub-critical atomic clusters and supra-critical nanoscale precipitates on the strengthening mechanisms in light alloys used for structural applications in transport.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
A Novel Surface Alloying Technique to Improve the Corrosion and Wear Resistance of Magnesium Alloys. Surface mechanical attrition treatment will be used to generate nanometer-sized grains in the surface layer of engineering magnesium alloys, and therefore activate the surface of this material. Together with the use of efficient activators, the project will develop a novel low temperature surface alloying technique to significantly improve the wear and corrosion resistance of magnesium alloys wi ....A Novel Surface Alloying Technique to Improve the Corrosion and Wear Resistance of Magnesium Alloys. Surface mechanical attrition treatment will be used to generate nanometer-sized grains in the surface layer of engineering magnesium alloys, and therefore activate the surface of this material. Together with the use of efficient activators, the project will develop a novel low temperature surface alloying technique to significantly improve the wear and corrosion resistance of magnesium alloys without changing the substrate properties. Microstructural features and the wear and corrosion resistance of the ultrafine-grained surface layer will be examined. In addition, it may be possible to combine the surface alloying process with the conventional ageing process together in order to save energy.Read moreRead less
Surface Nanocrystallization and Surface Alloying of Nonferrous Alloys. The research will offer materials scientists a totally new way to undertake surface modification for nonferrous alloys. The low temperature surface alloying technique to be developed will considerably improve the surface durability, therefore increase the service life of components. Combination of the surface alloying treatment with the ageing process can save energy and lower the cost of product. This will enhance Austral ....Surface Nanocrystallization and Surface Alloying of Nonferrous Alloys. The research will offer materials scientists a totally new way to undertake surface modification for nonferrous alloys. The low temperature surface alloying technique to be developed will considerably improve the surface durability, therefore increase the service life of components. Combination of the surface alloying treatment with the ageing process can save energy and lower the cost of product. This will enhance Australia's competitive ability in international markets. The study of atomic diffusion in nanomaterials will significantly contribute to material science and increase Australian research reputation in the world. In addition, the project initiates the research on surface nanocrystallization in Australia. Read moreRead less