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Digital-Twin Technology to Accelerate Development of Electric Propulsion Systems This exciting opportunity is based within the Power Electronics, Machine and Control Research Institute at Faculty
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sustain the widespread adoption of electrical vehicles in an environmentally friendly and ethical way. A radical approach to how electrical motors is developed, combined with emerging material technology
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student to revolutionise electrical machine design and development based on programmable 3D electrical steel technology enabled by advanced manufacturing processes and emerging magnetic materials
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: The candidate should have a 1st or high 2:1 degree in electrical/mechanical engineering, physics, mathematics, or related scientific disciplines. Skills in numerical tools and programming are desirable (MATLAB
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electronics) to process information efficiently. You will work at the intersection of mathematics, physics, electrical engineering and AI, helping to develop a theory that explains how and why these systems
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Area Engineering Location UK Other Closing Date Thursday 30 April 2026 Supervisors: Dr Ming Li , Prof. Hao Liu Programme Length: Four years Contract Type: Full-time Prospective Start Date: October
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cryogenic distillation. Mixed ionic-electronic conductors (MIECs) that display high oxide-ion and electronic conductivity can be made into dense ceramic membranes that allow oxygen ions while blocking
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leading UK prepreg manufacturer, and offers a unique opportunity to work at the interface of advanced materials engineering, sustainable manufacturing, and industrial innovation. Poly‑furfuryl alcohol (PFA
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DigitalMetal in the Faculty of Engineering, which conducts cutting edge research into cutting-edge technologies and AI to revolutionise metals manufacturing. Vision We are seeking a PhD student who is motivated
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sustain the widespread adoption of electrical vehicles in an environmentally friendly and ethical way. A radical approach to how electrical motors is developed, combined with emerging material technology