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. The project will seek an understanding of the microstructural changes during machining of anisotropic, heterogeneous and semi-brittle composite materials for high temperature applications used in the latest
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polymer composites. A PhD student working on this project will conduct research in manufacturing, specifically Resin Transfer Moulding (RTM), of large primary aerostructures. The work will focus
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Applications are invited for the above technical support post. The role holder will provide technical support for an Innovate UK project to determine the nutritional composition of insects (mainly house crickets
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applications Supervisory team: Dr Marco Simonelli Dr Ian Maskery Project description The vision for next-generation Additive Manufacturing (AM) is to control the composition of every deposited volume to make
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composites with tailorable features via bottom-up synthetic routes. Using a combination of diffraction, microscopic and spectroscopic tools, structure-function relationships will be determined. The proposed
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will develop skills in process design for CO2 capture, advanced reactor design, biofuel utilisation, and inorganic metal composite developments and characterisation. Eligibility Project start date and
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, enabling the direct creation of components with spatially varied compositions. Distinguishing itself on the global stage, this multi-material printing system stands as the first of its kind, boasting
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materials, Modification and development of bio-based composites, Evaluation of their potential to remove of pollutants in aqueous media, Assessment of biopolymers selectivity and investigation
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processing works well only for conventional metals and alloys and are doesn’t produce desirable outcome for next generation of materials like ceramic, composites, coated alloys, etc. This PhD proposal is about
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for next-generation Additive Manufacturing (AM) is to control the chemical composition of every single deposited volume to realise functional materials (FMs) directly from digital designs. While polymeric