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myriad of new techniques and much sought-after skills demanded by industry, including the following: Design of experiments, data harvesting/analysis and interpretation of results to derive insight
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. Using detailed energy usage data from different industrial reference sites (offices, manufacturing facilities etc.) to examine what elements are affected by different weather scenarios, the project will
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skilled graduates through research projects that use industrial challenges as the catalyst for methodological advance. Work directly with leading industry partners Many of our PhD projects are developed and
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Manufacturing industries face mounting pressure to reduce environmental impact whilst maintaining efficiency and competitiveness. Traditional approaches often lack real-time insights and predictive
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for high-energy lithium-ion batteries. This interdisciplinary project bridges polymer chemistry, membrane science, and electrochemical engineering, and involves collaboration with industry experts in
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efficiency and functionality. The process must be carried out with precise alignment between layers and at physical scale and process robustness relevant to industrial manufacture. The project aims
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£20,780 for 2025/26). Direct energy deposition with a laser beam (DED-LB) additive manufacturing has generated substantial interest in diverse industrial applications due to its potential for fabricating
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academia and industry. Uncover and quantify critical degradation mechanisms to inform the design of next-generation fusion materials. Translate sophisticated scientific data into impactful insights through
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-robots. Recently, 3D printing has been used to manufacture such devices with functional features that enabled them to respond to environmental cues, including temperature, pH, light, magnetic fields, and
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Retraining of Racehorses and Phileo will also provide the scholar with insight into an equine welfare charity and the commercial feed additive industry. The outcomes of this project will provide policy makers