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poorly understood and warrant further scientific investigation. As an important part of this research initiative, the student will support our detailed morphological analyses of oak root systems. This will
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performance will be assessed using finite element analysis and experimental work. Additionally, life cycle assessment will be performed to quantify environmental and economic impacts. This project is intended
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experimentation and finite-element modelling. Research themes would be flexible including green steel formability under the EPSRC ADAP‑EAF programme for automotive and packaging applications; or micromechanical
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EPSRC as part of a £160 million investment in quantum technologies. More information on QuSIT can be found at www.qusit.org . The successful applicant will be embedded in a vibrant, multidisciplinary
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for hydrogen recovery, and its use in the hydrogenation of pyrolytic oils to produce desirable products, including SAF precursors. The researcher will become part of the EPSRC-funded EnerHy Centre for Doctoral
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), Fixed Term (18 Months) Rewards and Benefits: 33 days annual leave, plus 9 buildings closed days for all full time staff (Part time workers should pro rata this by their FTE). Use our total rewards
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to work within established research programmes. This is a full time (part time considered), fixed term for 2 years. The closing date for applications is noon on 14 July 2025. You will be required to upload
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of the particle fuel, crack initiation/propagation and failure mechanisms in relation to test temperature. Finite element (FE) modelling using FE tools such as Abaqus, (or) Ansys, (or) COMSOL is optional
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Overview: Project Overview Investment casting is an ancient yet vital manufacturing technique, especially in the aerospace sector where thin-walled, complex components are increasingly required
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The Department of Psychology are offering seven funded, part-time PhD training posts. You should hold a 1st Class honours degree, or be working towards a 1st Class degree (or equivalent). The posts