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Field
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opportunity focuses on advancing the field of large-scale additive manufacturing, utilising metal wire as the feedstock and electric arc as the heat source. The project aims to enhance our understanding
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at international conferences and build a professional network across academia and industry. Development of expertise in cutting-edge experimental techniques, computational modelling, and interdisciplinary
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methodologies for human-centric generative design, validated through case studies in sectors like engineering design, smart manufacturing, and supply chain management, etc. Develop open-source tools
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institutions (ca. 50:50). Hands-on experience will span battery manufacturing, electrochemical analysis, nanoparticle synthesis, surface chemistry, and safety testing (e.g., ARC). Funding notes: The candidate
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research opportunity focuses on advancing large-scale additive manufacturing using metal wire as feedstock and electric arc as the heat source. The project aims to develop an innovative and efficient method
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PhD Studentship: Revolutionising Litz Wire Development for Next Generation Ultra-High Speed Propulsion Motors The Manufacturing Technology Centre UK, and University of Nottingham This project offers
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. The project is sponsored by Constellium, a global leading manufacturer of high-quality technically advanced aluminium products and systems. PROJECT Successful applicants will receive an annual stipend
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; reflectionless (Huygens’) metasurfaces; PCB manufacture; and mm-wave experimental testing. In this project you will take this capability further. You will design a suite of mm-wave Huygens’ metasurfaces
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system will manage and adjust the way information is used in real time. Cranfield University is a globally recognised postgraduate institution focused on applied research and strong links with industry
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, and machine learning techniques. Supervision will be provided by experts from the University of Sheffield and industry professionals at YAS. The candidate will also undertake a placement at YAS to gain