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a tug-of-war. The activation can be performed in solution, with the help of ultrasounds, or in the solid state, by simple stretching. Mechanical bonds have always fascinated chemists because
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to the design of aircraft, wind turbines and medical devices, and for modelling the environment. Remarkable advances in computing driven by the exponential miniaturisation of transistors (Moore’s law) have
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been filled. Electrical treeing is a primary degradation mechanism in polymer insulation leading to the ultimate failure of high-voltage (HV) cables. Despite being a phenomenon first observed and studied
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scattering with computer modelling such as molecular dynamics simulations and AI-assisted data mining. The new technical capabilities will help bridge the current gap in biocide development, i.e., to link
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Research theme: Laser materials processing; Advanced manufacturing; Mechanical Engineering This 3.5-year PhD is funded by the University of Manchester and is open to UK students. The funding covers
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(or expect to obtain) a First or Upper Second Class Honours degree (or equivalent) in Clothing Technology, Textile Technology, Product Design, Mechanical Engineering, Materials Science, or a closely
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farms at relatively close proximity can be relevant when considering their annual energy production. This project will examine the uncertainty of various types of numerical models, from fast-computing
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thin dielectric layers, high localised electrical field stress, and the difficulty of ensuring consistent manufacturing quality. Furthermore, the fundamental understanding of its ageing mechanisms under
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compositions that optimise oxidation resistance, mechanical integrity, and compatibility with AM superalloys. Coatings will be fabricated and tested under high-velocity steam conditions, with degradation
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to increase each year. Tuition fees will also be paid. Home students are eligible. A funded PhD studentship is available in the field of computational inorganic chemistry. The project will involve prediction