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during their PhD studies. Concrete-filled double skin steel tubular (CFDST) sections offer superior structural performance for wind turbine towers due to their enhanced strength, ductility, and material
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value: Full tuition fees and tax-free stipend £20,780 - See advert for details Application deadline: 30th June 2025 Start date: 6th October 2025 Project Title: Innovative Steel-Timber (CLT) Composite
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). The aim of this project is to establish the potential for either LME (during welding) or SMIE (during service) in common materials used in construction. Candidate materials include carbon steels, high
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candidate for the fusion first wall, however, a major challenge is how it can be joined to other materials & components within a fusion power plant design, e.g. copper alloys and steels. Further there are key
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engineering structures made of concrete, steel, wood and other materials, separately or in combination, at normal conditions, in cold climate and in fire. Project description This PhD project focuses
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in Building Technology spans over the areas of wood building technology, steel, concrete, and composite construction, building physics, historical structures, structural health monitoring, life cycle
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Steel and other metal alloys. Other raw materials (i.g. Construction materials) Electronic and photovoltaic materials Research study area 1: The first research focus will be the application of advanced
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materials used in construction. Candidate materials include carbon steels, high-tensile steels, and austenitic stainless steels. The susceptibility of steels to LME/SMIE will be studied both during welding
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susceptible steel structures. Thus, the candidate will develop reliable machine learning-based surrogate models to replace expensive phase field models to simulate failure because of HE. The activities will be
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understanding of the degradation phenomenon of cladding in storage conditions, environment assessment of storage sites, pond chemistry challenges, novel ways of demonstrating structural integrity, addressing