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Electrophysical remanufacturing of aerospace gas turbine components for performance restoration and critical material safeguarding This exciting opportunity is based within the Advanced
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Fully-funded 4-year PhD Studentship (UK Home fee status): Numerical simulation of boiling flows for high heat flux fusion components Aim and Objectives This project aims to develop a high-fidelity
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on the glioblastoma infiltrative margin. This involves use of anatomical and physiometabolic imaging methods, including arterial spin labelling perfusion, neurite orientation dispersion and density imaging (NODDI), and
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margin. This involves use of anatomical and physiometabolic imaging methods, including arterial spin labelling perfusion, neurite orientation dispersion and density imaging (NODDI), and chemical exchange
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. We aim to combine Raman spectroscopy, a powerful label-free analytical technique that measures the molecular composition of tissue by using light to excite molecular vibrations, with imaging techniques
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for the next generation of thermal barrier coatings (TBCs) for aero-engines. The PhD Project Advanced TBCs are used in critical aeroengine components (e.g., Ni superalloy turbine blades) to ensure a reliable and
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solvents cause environmental concerns, with long supply chains leading to extensive carbon footprints. This studentship will be part of a broader vision to leverage the latest advances in 3D printing
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support a more controlled, data-informed manufacturing environment and improve structural performance across the full lifecycle of high-value engineered components. Aim The student will have opportunities
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, helping us to understand how context shapes perception and decision-making. A key part of this project involves working directly with participants. The successful candidate will run sensory and consumer
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to become an intrinsic part of the global integrated energy system. However, this kind of technology has not yet achieved widespread commercial adoption due to electrochemical systems’ reliability, safety