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cycle less often and could be deterred from cycling at all. This unique 4-year fully funded PhD studentship opportunity is co-designed by the University of Birmingham and its non-academic partners, with
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additive manufactured filters as counter-measures to the formation of oxide stringers in the liquid metal. The PhD candidate, who will study at the University of Birmingham and the University and Rolls
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should be implemented via FE simulation code User Functions by the PhD candidate. The PhD project, based at Rolls-Royce and the University of Birmingham's joint High Temperature Research Centre (HTRC) will
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of plastic deformation across different planar orientations based upon the fundamental crystallographic structure of Ni-base superalloy. Thus, this PhD, based at the University of Birmingham, will aim
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at the University of Birmingham, intends to investigate localised strain banding effects as they occur within several commercially applied SX superalloys, through numerous experimental techniques such as scanning and
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the University of Birmingham, Newcastle University, University of Cambridge, National University of Singapore, and industry experts. Candidates may choose from, but are not limited to, the following research
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methods, and/or advanced mechanical testing would be advantageous. The School of Metallurgy & Materials at the University of Birmingham is committed to promote diversity, equality and inclusivity within our
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characterisation, computational modelling methods, and/or advanced mechanical testing would be advantageous. The School of Metallurgy & Materials at the University of Birmingham is committed to promote diversity
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at the University of Birmingham is committed to promote diversity, equality and inclusivity within our staff and student populations. We aim to encourage better practice for all members of the community, whilst also
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A 3.5 years joint industry funded PhD studentship is available within the School of Metallurgy and Materials at the University of Birmingham to develop new tungsten alloys for nuclear fusion