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We are looking for a highly motivated candidate to pursue a PhD programme titled "CFD-informed finite element analysis for thermal control in wire-arc directed energy deposition." This research
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approach for fabricating large-scale structural components. This process involves feeding a metal filler wire—either coaxially or off-axis—into an electric arc to generate a molten pool that solidifies on a
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support from leading experts in Advanced Sensor Technology Research Group and Environmental Assessment Facilities at Cranfield University. This fully funded studentship is part of the Connected Waters
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networks perform well across UK towns and cities, where benefits are unevenly distributed, and how design or management interventions could enhance resilience and equity. A key component of the research will
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realistic control laws to virtually “stiffen” highly flexible components and ensure their energy harvesting capabilities. Fully funded by the EPSRC Doctoral Landscape Award (including fees and £22,000 p/a
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commitment of 50%, if part time students, unless the Trust gives explicit permission for this to be varied. Scholars will be subject to the terms and conditions applying to doctoral students within the host
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-eligible candidates will receive an annual stipend of £20,780 per year (pro rata part-time), plus full university fees and a research training support grant. Amphibian populations are declining globally due
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that equipment’s or machine components are maintained on these schedules even without a need of repair or replacement. In addition, the stoppages to execute the schedules strategies also increase the production cost
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of novel AM materials on corrosion response of key component and develop a model to predict their behaviour. To address the goals set for tackling international climate change, the power sector needs
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has a dramatic effect on the fate of a component—a part may survive millions of cycles in vacuum and last only a few hundreds of thousands in air and much lower in actively corrosive environments