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This studentship is open to both UK and International applications. This is a self funded PhD opportunity. Find out more about tuition fees. Cranfield Doctoral Network Research students at Cranfield benefit from
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hydrogen pumping system. Regenerative pumps are not currently used for pumping volatile cryogenic fluids such as liquid hydrogen. The objective of this project would be to develop a structured design
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and trends in wall adhesion. Through Syngenta’s involvement, we will have access to experimental to guide the project inform modelling decisions. Project Objectives for the PhD project The aim
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to discover the fundamental mechanisms responsible for damage and deformation. About the host University and Through-life Engineering Services (TES) Centre Cranfield is an exclusively postgraduate university
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research areas and staff profiles through the School website. Approach academics within the School to discuss potential research projects. You can find our email addresses in our research profiles. Guided by
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Review Materials 7 (5), 053801, (2023). [2] C. E. Patrick and J. B. Staunton, Physical Review B 97 (22), 224415, (2018). Supported in part by AWE (Patrick Hollebon, James Harris). Find out more: https
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fosters collaboration, supported by extensive research software engineering resources. The project is supported by AWE-NST. Find out more: https://warwick.ac.uk/fac/sci/hetsys/themes/projects2025 Please
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Supervisors: Dr Emmanouil Kakouris, Prof. James Kermode, Project Partner AWE-NST Find out more: https://warwick.ac.uk/fac/sci/hetsys/themes/projects2025 High-rate ductile fracture, particularly in
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, particularly those attempting data poisoning attacks. Blockchain’s immutability and transparency, combined with novel detection algorithms, could provide a robust defence mechanism to maintain the integrity
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internationally. Our goal is to provide a nurturing and inspiring training environment to develop the independent future leaders we need who can translate research and innovation into practice. Find out more here