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Hours Full time Contract (temp/perm) 4 years, preferred start date September 2024 Closing date 14th April 2024 The project: Rolls-Royce has supported PhD students at the University of Bristol on a
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summer schools, specialised theme meetings, and innovation and commercialisation sandpits. Description: Composite materials are used in prime and secondary applications such as aerospace, renewable energy
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content distributions from XCT scans for hybrid architecture carbon fibre composites, and subsequently develop a novel material model linking the material’s meso-structure to mechanical properties to create
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from their microstructure rather than composition. The macroscale properties of these materials are determined by the small-scale topological design. These materials have found applications in many
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research opportunity delves into the pioneering development of self-healing three-dimensional metal-composite hybrid materials. The innovative approach involves the utilization of through-thickness
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. Overview This PhD project will combine bioprocess intensification with data analytics to deliver a novel biological conversion route for waste derived feedstocks into an array of bio-based products
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[1]. This is principally driven by the unsustainable use of freshwater by people (e.g., for waste removal, industrial and domestic uses, and modern agriculture) [2]. In particular, habitat degradation
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of this PhD is to use cutting-edge quantum (DFT, DFTB) and classical (machine learnt force fields) atomistic simulations of nanoparticles of relevant size, composition, support, to develop advanced models
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base in material science, computer technologies, robotics, or engineering but with an interest in applying these skills in interdisciplinary research with creative design approaches. The other PhD
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, including filtration, decontamination and manufacturing. For instance, resin must be injected into a porous mesh, without trapping air bubbles, to manufacture composite materials. Interfacial flows