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research team working across aerospace, automotive, energy, defence, and biomedical sectors. The group's expertise includes alloy design, microstructure-property relationships, phase transformations, and
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the Australian context, including impurity management, microstructure evolution, ore processing, and the development of green ironmaking infrastructure. Monash University hosts a unique suite of green ironmaking
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reported for Zn. This is against common expectation that the finer microstructures formed by PBF-LB result in slower degradation. Several explanations proposed so far do not clarify all observed nuances
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characterization of advanced materials with unique properties for innovative engineering applications. We develop materials with precisely controlled nanoscale microstructures, enabling enhanced mechanical, magnetic
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microstructures formed by PBF-LB result in slower degradation. Several explanations proposed so far do not clarify all observed nuances. This project focuses on unravelling the origin of the elevated corrosion
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, microstructural analysis, mechanical testing) high sense of responsibility in the laboratory, and confident handling of complex equipment and systems great care, independence, and reliability, as well as strong
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accordance with the principles of green chemistry. In-depth studies will be conducted not only to obtain a detailed characterisation of these systems, i.e. their microstructure and interfaces, but also to
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footprint - while maintaining or enhancing the intended mechanical and durability performance. The work will deliver essential data on durability, microstructural development, and long-term behaviour
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, experimentally grounded workflow for rapid microstructure-property optimization in steels. The PhD student will play a central role in this interdisciplinary initiative. They will: Develop and apply machine
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Opening and Innovations' Department. GPM (Materials Physics Group, UMR CNRS 6634) is organized in 5 departments: Metallurgy- Mechanical Microstructures, Scientific Instrumentation, Functional Materials and