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diverse range of composites topics for many years via the Composites University Technology Centre (UTC). See https://www.bristol.ac.uk/composites/collaboration/utc/ for further details, including case
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content distributions from XCT scans for hybrid architecture carbon fibre composites, and subsequently develop a novel material model linking the material’s meso-structure to mechanical properties to create
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from raw drinking waters, using novel magnetic composite materials. Objectives The student will be directly involved in both the synthesis of the novel magnetic materials (in collaboration with Prof
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the chemical composition of the layers and interlayer species. These materials are at the forefront of addressing key societal challenges: examples include hard carbon and disordered layered titanate as anodes
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materials. The project will be carried out in collaboration with the Rutherford Appleton Laboratory (RAL) of the UKRI Science & Technology Facilities Council (STFC). Scintillators are a class of luminescent
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An exciting PhD opportunity jointly funded by the UK Research and Innovation Council and Sellafield Ltd is available in the Advanced Materials Modelling Group at Loughborough University. This will
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) featuring strong cross-disciplinary links between Pharmaceutical Technology, Pharmaceutical Analysis and Materials Science. Our group has an outstanding track record in continuous manufacturing including high
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to monitor online the manufacturing process and development of damage in the material and the incorporation of heating and cooling. The Composites and Advanced Materials Centre at Cranfield has recently
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vast range of ambient temperatures in which these systems need to operate without thermal distortion. However, additive manufacturing gives the unique opportunity to tailor the material properties, and
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progress in the targeted area of quantum storage technologies, new materials and/or processes need to be created or found. Therefore, the proposed project aims to: (i) find the most promising compounds