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to control the microstructure of different metal alloys using laser powder bed fusion (LPBF) technology. The post holder will be located in Central Cambridge, Cambridgeshire, UK. The key responsibilities and
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the rate of oxidation and corrosion, and the addition of other elements to stabilise the microstructure and increase the service life of the metal and thus reduce the need for component replacement
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. The studentship is available from September 2025 for 3.5 years. The project will be in the area of transition metal catalysis and its applications to organic synthesis, particularly on C-H bond activation and their
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either liquid metal embrittlement (LME) or solid metal-induced embrittlement (SMIE). The aim of this project is to establish the potential for either LME (during welding) or SMIE (during service) in common
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PhD Studentship: Optimisation of Liquid Metal Filtration and Cleanliness in Nickel Based Superalloys
exceptional reliability and durability, attributes realised through both material integrity and manufacturing process capability. Birmingham has long-standing research excellence in liquid metal cleanliness and
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are: experience in computational modelling of the thermal history and microstructure evolution of materials processed via laser powder bed fusion. This may include phase field modelling, finite element analysis
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greener synthetic methodologies for high-value chemical products by combining electrochemistry and earth-abundant metal catalysis. Our aim is to reduce the number of synthetic steps, minimise reliance
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(£19,237 for 2024/25). A Leverhulme Trust-sponsored PhD studentship is available for an outstanding and ambitious scientist to undertake research in the field of physical f-element chemistry. As part of a
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project will combine advanced materials testing and finite element modelling to explore hydrogen-material interactions, particularly in ferritic and austenitic steels. You’ll investigate how these materials
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Co-supervisor’s full name & email address Dr Sean Collins: S.M.Collins@leeds.ac.uk Dr Christopher Pask: C.M.Pask@leeds.ac.uk Project summary Metal-organic frameworks (MOFs) are a class of porous