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, quantitative and qualitative research methods, and experience of successful ethical approval processes. Experience recruiting and conducting research with diverse communities and commissioning groups would be
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into the real world. A strong background in the fibre optics, advanced characterization techniques, and optical signal processing is highly desirable, along with an aptitude for developing new experimental
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and optimise the operation and design of aircraft systems, subject to complex, real-world constraints. You will join a growing team of engineers working on a range of digital design technologies
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) and the School of Chemistry (Prof Andrew Hector and Prof Nuria Garcia-Araez). Your role will involve glass manufacture, characterisation and development of the fusion draw process. You will work closely
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industrialise algorithms designed to simulate and optimise the operation and design of aircraft systems, subject to complex, real-world constraints. You will join a growing team of engineers working on a range of
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field. Expertise in composite materials and their behavior under different loading conditions. Experience with manufacturing techniques for composites (e.g., autoclave processing, additive manufacturing
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the MRC uses a multidisciplinary approach of mass spectrometry, microscopy, and cell-based assays to explore how dysfunctional carbohydrate-processing causes disease. The post offers huge potential in
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, characterisation and development of the fusion draw process. You will work closely with research fellow (Dr Ajay Saroja) and an experienced glass technician (Chris Craig). The project will also benefit from
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manufacturing techniques for composites (e.g., autoclave processing, additive manufacturing). Proficiency in computational tools such as ANSYS, LS-DYNA3D, Abaqus, or similar FEA software. Excellent written and
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fellow with skills and knowledge to complement our team. In this role, you will work with others to design and create glass layers via processes such as flame hydrolysis deposition and various