Industrial Transformation Research Hubs - Grant ID: IH130100008
Funder
Australian Research Council
Funding Amount
$4,000,000.00
Summary
ARC Research Hub for Transforming Australia’s Manufacturing Industry through High Value Additive Manufacturing. ARC Research Hub for Transforming Australia’s Manufacturing Industry through High Value Additive Manufacturing. A world class, globally-linked and industry-focussed Research Hub will be established to underpin the uptake of metal alloy based additive manufacturing (including three-dimensional printing) in Australia. Research will cover the issues that need to be resolved for success, ....ARC Research Hub for Transforming Australia’s Manufacturing Industry through High Value Additive Manufacturing. ARC Research Hub for Transforming Australia’s Manufacturing Industry through High Value Additive Manufacturing. A world class, globally-linked and industry-focussed Research Hub will be established to underpin the uptake of metal alloy based additive manufacturing (including three-dimensional printing) in Australia. Research will cover the issues that need to be resolved for success, including the effects of non-equilibrium solidification, process optimisation to achieve quality, consistency and repeatability, and new user-friendly design tools to realise the benefit of free-form manufacturing. Real components will be studied to give immediate impact. The Research Hub will also train highly skilled people needed for this growing industry.Read moreRead less
Making Strong Alloys Ductile and Hydrogen-Tolerant via Tuning Nanogradients. This project aims to develop a novel design concept of gradient segregation engineering (GSE) to produce high-performance alloys. The innovative GSE will synergistically introduce a chemical gradient via grain boundary segregation and a physical gradient by microstructure control to simultaneously achieve an excellent strength-ductility combination and exceptional resistance to hydrogen embrittlement. This project expec ....Making Strong Alloys Ductile and Hydrogen-Tolerant via Tuning Nanogradients. This project aims to develop a novel design concept of gradient segregation engineering (GSE) to produce high-performance alloys. The innovative GSE will synergistically introduce a chemical gradient via grain boundary segregation and a physical gradient by microstructure control to simultaneously achieve an excellent strength-ductility combination and exceptional resistance to hydrogen embrittlement. This project expects to create new fundamental knowledge and provide critical perspectives for future mechanistic alloy design. The results will enhance Australia’s capacity to develop next-generation advanced alloys to underpin current and emerging industrial applications and strengthen the country’s leading position in materials engineering.Read moreRead less