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We are looking for a highly motivated candidate to pursue a PhD programme titled "CFD-informed finite element analysis for thermal control in wire-arc directed energy deposition." This research
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one of the world’s leading centres for additive manufacturing research and development, invites applications for a fully funded PhD programme. Metal additive manufacturing is transforming how complex
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industrial project, driven by Jungbunzlauer’s commitment to “Naturally Better ingredients”. You will design a scalable manufacturing process for a commercially important ingredient used across food and
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(currently £20,780 for academic session 2025/26) per year for 3.5 years. Lead Supervisor’s full name & email address Dr Andrea Laybourn: A.Laybourn@leeds.ac.uk Project summary Metal-organic frameworks (MOFs
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, defensible datasets that can verify precious metal article authenticity. Greater data will enable smart approaches with assigned probabilities of authenticity to aid hallmarking practices. Partnering with
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PhD studentship: Defining the role of the pioneer factor FOXA1 in hormone-dependent cancer Supervisor: Professor Jason Carroll Course start date: 1st October 2026 Project details For further
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improved accuracy for unsteady flow problems. Their principal strength is the lower numerical dispersion and dissipation they introduce compared with the low-order finite volume and finite element schemes
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difference and/or finite element coupled process models validated against laboratory data to understand the fundamental behaviour of EK-ISL under varying geological conditions, including heterogeneity, dual
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engines. The development of robust damper devices that reduce the vibration levels is of paramount importance. The advanced large-scale finite element models of structures will be applied together
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EPSRC Centre for Doctoral Training (CDT) PhD in Digital Metal with Rolls-Royce (Enhanced Stipend) Development of Advanced Barrier Coatings for extreme environments Background Applicants are invited