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science, chemistry, mechanical engineering, or a related discipline. 2:1 may be considered if other criteria are met. Good writing, analytical, and communication skills. Self-motivated candidate. Funding
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discover and test candidate molecular and cellular mechanisms underlying the switch between structural brain plasticity and degeneration in response to experience, and how this in turn modifies behaviour
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Are you ready to push the boundaries of engineering innovation and accelerate the world’s transition to carbon-neutral energy systems? Join the Thermofluids Group in the School of Mechanical
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Discipline: Engineering & Technology, Materials Science, Mechanical Engineering Qualification: Doctor of Philosophy in Engineering (PhD) This project is a collaborative research effort between
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outside these areas. Centre for Engineering Research Funded PhD Areas Innovative Treatment Solutions for Upcycling of Construction and Demolition Waste Damage Mechanics of Composite Structures for Renewable
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structures. This highly interdisciplinary project combines mechanical engineering, materials science, and control systems, and will require both numerical simulation and experimental validation. The outcomes
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, you will engineer and investigate synthetic microswimmers capable of generating propulsion forces, uncovering the new fundamental principles that govern their movement. The physics of swimming
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-generation mechanical seals for high-pressure hydrogen systems—key to renewable energy. Work with Industry Leaders: Collaborate with John Crane, a $1B global technology company driving sealing innovation. Gain
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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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This PhD project aims to achieve a breakthrough in thermal efficiency (>50%) for dual-piston Free-Piston Engine Generators (FPEGs). The research will pioneer a novel, integrated methodology