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of Birmingham. The project is focussed on creating biodegradable polymers that display enhanced degradation rates, in comparison to the leading current materials. Project overview This PhD position is linked
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amorphous polymers. Background: Ballistic impact is a complex event that induces multiple modes of deformation, is influenced by both material and structural responses, and excites a very wide range of strain
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A fully funded PhD studentship (UK tuition fees) is available in the group of Dr Arno at the University of Birmingham (group website: https://arnolab.com ) in areas of polymer chemistry with
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on circumstances) set at the UKRI rate as a minimum (£19,237 for 2024/25). A fully funded PhD position in multiscale modelling of polymer composites is available in the group of Professor Carbone at the University
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of Nottingham and experimental development at the University of Oxford, using polycarbonate as a model material. The ultimate goal is to provide models to understand and simulate phenomena observed in polymers
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ultimate goal is to provide models to understand and simulate phenomena observed in polymers under impact, and the effect of different polymer histories on these phenomena. This builds on current
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pristine samples. Secondly, foam recycling will be explored through combinations of the following potential options: using spent foam in new composite materials (e.g. polymer-polymer, polymer-foam or polymer
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degree or its international equivalent. We encourage applications from candidates with diverse engineering backgrounds, including Textile Science and Engineering, Materials, Chemistry, Polymer
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understanding on modifying the rheology using geo-polymers, an additive that is used to eventually solidify the waste when activated. This project will map the rheological space of these complex fluids
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Funding providers: EPSRC and Swansea University's Faculty of Science and Engineering Subject areas: Polymer and Glyco Chemistry, Biomaterials, Antimicrobials Project description: A significant