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the group of Dr. Chandan Bose within the Aerospace Engineering division, School of Metallurgy and Materials, College of Engineering and Physical Sciences at the University of Birmingham. We invite
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the group of Dr. Chandan Bose within the Aerospace Engineering division, School of Metallurgy and Materials, College of Engineering and Physical Sciences at the University of Birmingham. We invite
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brand new state-of-the-art Chemistry laboratories at the rapidly growing University of Birmingham. Please visit our group website for more details about our research: http://davidscanlon.com
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growing University of Birmingham. Please visit our group website for more details about our research: http://davidscanlon.com/ Applications must be made through the university’s on-line application system
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present in the TBM. Amongst those candidate materials for structural TBM components, Reduced Activation Ferritic Martensitic (RAFM) steels stand out as frontrunner candidates, due to their resistance
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and plant sustainability, relies on the availability of qualified structural materials in industrial-scale amounts that can withstand the harsh local environments in the vicinity of the hot Deuterium (D
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Structural steels based on body-centred cubic structures are a preferential option for first wall and breeder blanket components in magnetically-confined fusion tokamak designs, due
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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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students only, funding for fees & salary/stipend provided & guaranteed with full certainty by the University of Birmingham.
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A 3.5 years studentship is available to study 3D printed aerospace superalloy structures in the School of Metallurgy and Materials at the University of Birmingham (UoB), a global top 100 institution