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Structure-property relationships in compositionally complex alloys. Physical metallurgy has entered a new era of compositionally complex metallic alloys that show unprecedented combinations of mechanical properties enabling the design of more energy-efficient and economically viable applications. This project aims to generate new knowledge about how locally-resolved, nano-scale atomic arrangements control macroscopic deformation behavior in these materials and develop a fundamental understanding ....Structure-property relationships in compositionally complex alloys. Physical metallurgy has entered a new era of compositionally complex metallic alloys that show unprecedented combinations of mechanical properties enabling the design of more energy-efficient and economically viable applications. This project aims to generate new knowledge about how locally-resolved, nano-scale atomic arrangements control macroscopic deformation behavior in these materials and develop a fundamental understanding of their processing-structure-fracture toughness relationships. Expected outcomes include an enhanced capacity to design materials with damage-tolerant properties superior to existing alloys from bottom up, thereby allowing for commercial benefits throughout transportation, defense, and biomedical device sectors.Read moreRead less
Cryo atom probe tomography: an atomic-scale view of life. This project aims to develop workflows that allow the microscopy technique of atom-probe tomography to be applied to specimens that have been cryogenically cooled during preparation. The project will open up this powerful method, which has made an enormous impact in materials science over the last few decades, to new disciplines such as chemistry and the life sciences. The new types of specimens that can be analysed include vitrified biol ....Cryo atom probe tomography: an atomic-scale view of life. This project aims to develop workflows that allow the microscopy technique of atom-probe tomography to be applied to specimens that have been cryogenically cooled during preparation. The project will open up this powerful method, which has made an enormous impact in materials science over the last few decades, to new disciplines such as chemistry and the life sciences. The new types of specimens that can be analysed include vitrified biological matter, liquids (solutions), surface molecules (ligands), and hydrogen. In the long term, this project has the potential to lead to radical new discoveries in fields such as health and medicine, chemical processing and agriculture.Read moreRead less
Adaptive structural systems for high-performance buildings. This project aims to develop adaptive structural systems for high-performance buildings. A new theoretical platform will be instrumental in the development of building technologies such as adaptive shading and ventilation components. In a reversal of the conventional design avoidance of structural phenomena such as lateral and flexural-torsional buckling, these phenomena will be exploited to achieve functional forms for shading componen ....Adaptive structural systems for high-performance buildings. This project aims to develop adaptive structural systems for high-performance buildings. A new theoretical platform will be instrumental in the development of building technologies such as adaptive shading and ventilation components. In a reversal of the conventional design avoidance of structural phenomena such as lateral and flexural-torsional buckling, these phenomena will be exploited to achieve functional forms for shading components. Thin-metal ventilation ducts will be embedded within structural components to produce optimised ventilation strategies and to increase thermal mass, while accounting for their structural contribution.Read moreRead less
Dynamically responding metals: a new generation of engineering alloys. The manufacture of engineering metals is a major Australian industry and the worldwide metal manufacturing sector is estimated to be worth $1 trillion USD per annum. Advanced materials and, particularly the light metals, are both designated national research priority areas. The availability of new classes of metals with greatly improved combinations of properties will profoundly affect not only metal use by existing industry, ....Dynamically responding metals: a new generation of engineering alloys. The manufacture of engineering metals is a major Australian industry and the worldwide metal manufacturing sector is estimated to be worth $1 trillion USD per annum. Advanced materials and, particularly the light metals, are both designated national research priority areas. The availability of new classes of metals with greatly improved combinations of properties will profoundly affect not only metal use by existing industry, through the introduction of new, stronger and safer metal grades, but also allows for new engineering designs which will lead, for example, to lighter and more efficient automobiles and more sustainable construction.Read moreRead less
Development of a solid nitrogen cooled magnesium diboride (MgB2) magnet for persistent-mode operation. Soaring price for liquid helium has increased demand for cryogen-free superconducting magnets more than ever. If magnetic resonance imaging magnets, which represent over 50 per cent of the world superconducting markets, could be operated without liquid helium, magnetic resonance imaging would be much more affordable and enable reduced health care costs.