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Innovative Zn alloys with essential mechanical and biofunctional properties. This project aims to develop a breakthrough understanding of the impact of alloying additions on the strengthening mechanisms, degradation behaviour, antibacterial properties and biofunctionalities of zinc alloys. The project expects to generate new knowledge in alloying strategies, plastic deformation and surface modification of zinc alloys to achieve mechanical, corrosion and biofunctional properties satisfying the re ....Innovative Zn alloys with essential mechanical and biofunctional properties. This project aims to develop a breakthrough understanding of the impact of alloying additions on the strengthening mechanisms, degradation behaviour, antibacterial properties and biofunctionalities of zinc alloys. The project expects to generate new knowledge in alloying strategies, plastic deformation and surface modification of zinc alloys to achieve mechanical, corrosion and biofunctional properties satisfying the requirements of biodegradable metallic materials. The expected outcomes are the development of novel zinc alloys and practical technologies for industry applications, such as thermomechanical processing and surface coating. The benefits are expected to extend to physical metallurgy and biomaterial manufacturing.Read moreRead less
Stronger, coarser-grained biodegradable zinc alloys. This project aims to develop stronger and more durable zinc alloys for a new generation of biodegradable metals for potential load-bearing orthopaedic applications. It expects to deliver a group of novel zinc alloys with better properties and a new technology for manufacturing them, and to use advanced experimental techniques to reveal deformation and strengthening mechanisms that underlie the unusual Hall-Petch and anomalous twinning phenomen ....Stronger, coarser-grained biodegradable zinc alloys. This project aims to develop stronger and more durable zinc alloys for a new generation of biodegradable metals for potential load-bearing orthopaedic applications. It expects to deliver a group of novel zinc alloys with better properties and a new technology for manufacturing them, and to use advanced experimental techniques to reveal deformation and strengthening mechanisms that underlie the unusual Hall-Petch and anomalous twinning phenomena and the unprecedented properties of these alloys. Expected outcomes are likely to form the technology and scientific basis for developing better biodegradable metallic alloys. This has the potential eventually to create a better life for thousands of Australian patients.Read moreRead less