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. Together, these mechanisms strongly influence the long-term behaviour and durability of these engineering plastics. This PhD project aims to investigate the mechanisms governing the long-term evolution
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Location: Mechanical and Aerospace Systems Research Group, Faculty of Engineering, University of Nottingham Funding: UK Home fees + tax-free stipend of up to £25,000 p.a. for 4 years Applications
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-motivated researcher with a rigorous approach to problem-solving. Applicants should have, or be expected to gain, a high 2:1 (preferably 1st class) honours degree in Mechanical or Aerospace Engineering, or a
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Research area and project description: AI data centres are digital engines, yet ~30% of energy is wasted as heat in power conversion and distribution. Directly addressing the UK’s Clean Power 2030
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-time home tuition fees paid. An additional £2,000 per annum for consumables and travel. Requirements: The candidate should have a 1st or high 2:1 degree in electrical/mechanical engineering, physics
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with a track record of research in fluid mechanics, boundary-layer theory & engineered surfaces. Collaboration: You will be co-supervised by Tim Reis, an expert in LBM with links to the lattice
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; Mechatronics; Agricultural Engineering; Mechanical Engineering; Electrical/Electronic Engineering; Computer Science; Control Engineering, or a related discipline Desirable: • Programming in Python or C
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, Mechanical Engineering, Environmental Engineering, or a related discipline Essential: • Strong analytical and quantitative skills. • Excellent written and spoken English communication skills. Desirable
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Engineering laboratory practical skills 1st or a 2:1 class undergraduate degree in materials/mechanical/manufacturing/physics or any related discipline. Desirables Basic programming skills Basic machine
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of Materials Chemistry A, 2026. [2] G. A. H. France et al. IEEE Transactions on Terahertz Science and Technology 15, 743, 2025. [3] G. A. H. Ludlam et al., ACS Sustainable Chemistry & Engineering 12, 7924–7934