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performed for one of the most important classes of critical structures: bladed disks in gas-turbine engines. The variable rotation speeds, complex loading and operating conditions cause significant blade
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-performance composite structures are critical to the next generation of lightweight, energy-efficient engineering systems such as aerostructures or wind turbine blades. This project aims to move from passive
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-year PhD position based jointly in the Photonic and Electronic Devices Laboratory led by Dr. Nikolaos Farmakidis within the Department of Engineering at the University of Exeter (Streatham campus, Exeter
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engineering, structural, aerodynamic & manufacturing process modelling and optimisation techniques that will transform current design & development practices. Together we will make technological advances
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tolerance. Apply engineered enzymes in multigram scale biotransformations to generate valuable pharmaceutical intermediates. Collaborate closely with academic and industry experts in structural biology and
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Application deadline: 16/03/2026 This 4-year PhD project is fully funded and home students, and EU students with settled status, are eligible to apply. The successful candidate will receive
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material characteristics through their life. This PhD will be structured by considering a collection of closely related sub-problems throughout the 3.5-year PhD, typically expecting to consider one topic
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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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-world skills to apply biocatalysis, protein engineering and sustainable manufacturing in industry. We offer: PhD projects co-developed with industry and aligned with real manufacturing challenges advanced
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components are designed and produced. This PhD project focuses on Molten Metal Jetting (MMJ), an emerging metal 3D printing technology that enables the precise fabrication of multi-material metallic structures