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technological advances that will increase the industrial use of laser cutting of carbon fibre and CFRP. Motivation Laser cutting of carbon fibres and consolidated Carbon Fibre Reinforced Polymer, CFRP, has been
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result of the expanding its on-platform repair activities sponsored at the Rolls-Royce UTC dealing with investigations on development of the bespoke high-tech laser beam processing methods for surface
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the Faculty of Engineering. Vision We are seeking a motivated PhD student to explore the new ABA cladding strategy recently developed at The University of Nottingham. Motivation Laser cladding is widely used
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contribute to the development of the understanding of laser beam welding by working closely with industry and academia to develop an industry relevant modelling capability of the manufacturing process
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all backgrounds are encouraged. The successful candidate will contribute to the development of the understanding of laser beam welding by working closely with industry and academia to develop
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successful high-power laser-based manufacturing application used across the high-value manufacturing industry from aerospace to power generation. However, the current state-of-the-art high-power laser
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Studentship is the result of the expanding its on-platform repair activities sponsored at the Rolls-Royce UTC dealing with investigations on development of the bespoke high-tech laser beam processing methods
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interdisciplinary areas including in soil physics/mechanics, X-ray CT imaging, laser ablation tomography and plant-soil interactions. The student will also be able to access the generic training courses offered by
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higher yielding crops. Micro CT and laser ablation tomography are capable of imaging plant root and shoot development at cellular resolution. Manual measurement of these detailed images can take weeks
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for Additive Manufacturing (CfAM)'s expertise in applying computational materials science techniques to laser AM. The PhD student will be able to conduct research using a state-of-the-art multi-beam laser powder