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medical technologies, there is a high demand for specialised materials with high strength-to-weight ratio and superior corrosion resistance. The reliability and improved development of these materials
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achieved by combining powder metals of distinct properties, such as heat resistance with low density, or corrosion resistance with ultra-high strength. The number of combinations is seemingly infinite
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Nearfield Interactions of Vitrified Intermediate Level Waste; Radionuclide Transport at the Glass-Canister-Backfill Interface Department of Chemical & Biological Engineering PhD Research Project
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overseas external research visits · PhD (or about to obtain) in Mechanical Engineering Commitment to observing the University’s Equal Opportunities policy at all times. Desirable Requirements
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Understanding the long-term corrosion of vitrified radioactive waste Department of Materials Science and Engineering PhD Research Project Directly Funded UK Students Dr Clare Thorpe Application
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PhD Studentship–Computational Design of Solid-State Battery Materials Award Summary 100% home tuition fees covered and a minimum tax-free annual living allowance of £19,237 (2024/25 UKRI rate
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properties and/or corrosion resistance responses, and develop novel high performance light alloys efficiently. You will be responsible for manufacturing light alloys and thermomechanical processing. You are
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innovation. You will be given proper mentorship to develop transferable skills so that you have a successful post-PhD career. Background: Successful fusion energy demonstration depends upon availability
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A 3.5 years joint industry funded PhD studentship is available within the School of Metallurgy and Materials at the University of Birmingham to develop new tungsten alloys for nuclear fusion
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to the research activities for correlating microstructure evolution with thermomechanical processing and mechanical properties and/or corrosion resistance responses, and develop novel high performance light alloys