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developed at Manchester to include heterogeneous magnetohydrodynamic phenomena (including current density localisation), solid-dynamics and fracture mechanics. The development of such a robust mathematical
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We are seeking an outstanding candidate for a PhD fellowship in the field of computational fluid and solid mechanics. The fellowship will start on September 1st, 2025, or as soon as possible after
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need for materials that can endure extreme conditions while maintaining structural integrity. This Ph.D. project will explore the failure mechanisms in refractory metals and advanced ceramic coatings
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of computational methods for analysing plastic flow and fracture across various scales. These efforts will be complemented by experimental studies aimed at characterizing the material's microstructure and mechanical
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through advanced electron microscopy and mechanical testing, including tensile strength, fracture toughness, and thermal creep. Samples will undergo high-heat flux (HHF) testing for thermal fatigue and
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structures. Dynamic loading conditions, such as impacts or high strain rates, present unique challenges as materials often fail through complex processes such as ductile fracture. In such cases, the material
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in higher education and research, in and outside academia. A PhD position is available at the Department of Mechanical and Industrial Engineering with the Materials & Manufacturing research group. Your
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. Composite materials often exhibit low fracture toughness values, yet various experimental techniques can enhance the toughness of thermoset and thermoplastic composites. Typical approaches include surface
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Computational verification of high-speed multi-material flows, where physical experimentation is highly limited, is seen as critical by the Defence Sector (source: the UK Atomic Weapons
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-charged systems, and heat loss to surrounding rocks. To ensure reliable and efficient thermal energy storage, it is essential to understand how heat and water are stored and transported through fractured