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fully funded 4-year PhD position with a teaching component (~1 year of full-time teaching spread across the 4 years) at the Centre for Developmental Science and Centre for Human Brain Health and, School
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emollients. They are designed to alter hair surface characteristics, e.g. friction and adhesion, in delivering superior consumer satisfaction. The aim of this proposal is to develop sustainable hair
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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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, creep will be the major deformation process for structural alloys used in critical components in the pressure vessel and coolant loops in those reactors. The UK is in the initial phases to develop
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PhD Studentship: Data-driven Probabilistic Modelling of Clonal Dynamics in Human Tissues and Cancers
an intricate balance of cellular interactions within human tissues, which can be perturbed by certain mutations to drive the emergence of cancer. This project will develop and extend the above computational and
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(FCEVs). This research position is available at Birmingham CASE Automotive Research and Education Centre, University of Birmingham. Project Overview: The focus of this Ph.D. research is on advancing
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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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robust numerical framework for the simulation of coupled fluid-structure interaction systems with variable flexibility. In this research project, we aim to delve into bio-inspired design to develop novel
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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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information yielded by this study will allow us to develop design principles for new Na-ion battery cathodes with improved electrochemical performance. Promising candidates will be experimentally tested through