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should be implemented via FE simulation code User Functions by the PhD candidate. The PhD project, based at Rolls-Royce and the University of Birmingham's joint High Temperature Research Centre (HTRC) will
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at the University of Birmingham, intends to investigate localised strain banding effects as they occur within several commercially applied SX superalloys, through numerous experimental techniques such as scanning and
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are able to operate with sufficient mechanical integrity up to temperatures of approx. 550 C. There is currently an intense effort in the UK, and also at international level, to develop advanced RAFM steels
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. The high-temperature limit for safe operation of FM steels of approx. 550C is governed by thermal creep strain effects and helium embrittlement. There is currently a strong thrive to develop novel Reduced Activation FM
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consortium of Arizona State University, University of Adelaide, University of Toronto, and within the UK, Universities Cranfield, Birmingham, Cambridge, Imperial College London, and Newcastle. The HyPT will
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will be based at the University of Birmingham, where the successful candidate will work with people within the Schools of both Physics and Engineering. The successful applicant will be embedded in
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thermal energy engineering and prior experience in combining computational and experimental work would be welcomed. Funding notes This project is funded by the University of Birmingham and is only open to
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develop, apply and validate AI-based models (based on machine learning, agent-based, mixed-integer programming, etc) primarily to: predict energy demand in multi-energy systems (electricity, heat
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; Midlands Graduate School Doctoral Training Partnership | Nottingham, England | United Kingdom | 24 days ago
ESRC DTP Strategic Joint Studentship University of Nottingham and University of Birmingham The Midlands Graduate School is an accredited Economic and Social Research Council (ESRC) Doctoral Training
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A 3.5 years joint industry funded PhD studentship is available within the School of Metallurgy and Materials at the University of Birmingham to develop new tungsten alloys for nuclear fusion