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Field
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their microstructure and local electronic properties with sub-molecular precision, the project aims to establish direct structure–function correlations and uncover the mechanisms that govern stability and charge
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approach utilises the inherent need of the tumour for extracellular arginine and to use this to deliver a toxic moiety to the tumour; in other words, we will use the arginine structural motif as a targeting
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and therefore, the ability of a liquid fuel structure to resist deformation by the air stream. This is of particular relevance to gas turbine fuel injectors which are operated at high pressure and
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structural alloys. The project will combine advanced phase-field fracture mechanics, continuum-scale chemo-thermo-mechanical modeling, and advanced machine learning techniques for enhanced prediction accuracy
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defects without compromising structural integrity, thus ensuring passenger safety and operational efficiency. The project aims to design and prototype a ground-based automated inspection system capable
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separation, and structural stability evaluation. The successful candidate will be based at CAPTURE (Circular Approaches To Utilise and Retain Energy), a Centre of Expertise at Swansea University, established
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will take place: August & September Name of Funder: Brunel University London (BUL) Research Council: EPSRC Structure: Stipend plus Tuition Fees Duration: 42 Months (3.5 Years) Stipend Amount: Stipend and
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glaucoma (POAG) is the leading cause of irreversible blindness worldwide. It arises from fibrotic remodelling of the trabecular meshwork, a filter-like structure in the anterior chamber of the eye. As the
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propeller/turbine design and optimisation, and fluid-structure interaction issues Desirable • Experience in developing research proposals and securing funding for research • Experience in teaching and
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to deepen our understanding of IAI mechanisms and develop innovative antibacterial biomaterials to improve patient outcomes. Structured around three core scientific pillars-regenerative medicine, biomaterial