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View All Vacancies Engineering Location: UK Other Closing Date: Wednesday 03 July 2024 Reference: ENG1766 Background Applicants are invited to undertake a 4 year, fully-funded PhD studentship within the Centre of Excellence in Coatings and Surface Engineering (CE-CSE) at the University of...
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-funded by Leonardo. This project aims to design and manufacture heat exchangers for high power thermal management in defence applications, while leveraging on the latest computational techniques. Additive
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, from metals to ceramics, influencing their mechanical, thermal, and electrical properties. Understanding their intricate structures is crucial for advancing fields such as aerospace, engineering, and
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this, the project will focus on determining the structural and thermal behaviour of the interface regions of the printed component, where dissimilar materials are in contact. The project builds on the Centre
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demonstrated but is not currently widely used in industry. Barriers to uptake of this technology are concerns over cut edge quality, thermally induced damage to the polymer matrix and expense. Advantages
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partners in Oxford. You will work collaboratively with our partners to design experiments and simulations to explore the effects of residual stresses and thermal and surface treatments on the failure
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., thickness, thermal conductivity) based on desired outcomes, such as joint integrity, minimal distortion, residual stress or weld quality. Aim You will have the opportunity to join a multidisciplinary team of
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using experimental data from our project partners in Oxford. You will work collaboratively with our partners to design experiments and simulations to explore the effects of residual stresses and thermal
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applications in biomedical devices, electronics, and autonomous machines. Actuators to drive these robots utilise electronic, chemical, pressure, magnetic, or thermal mechanisms, with the current generation
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with microsphere manufacturing lab. This project will also involve characterisation studies, to determine materials properties and confirmation of chemical formulations developed, including thermal, high