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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
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mechanical effects to the domain of 2D materials and comprise exciting new building blocks for exotic new quantum engineering. These are unique and exotic among an already fascinating materials family, with
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thermal energy engineering and prior experience in combining computational and experimental work would be welcomed. Funding notes This project is funded by the University of Birmingham and is only open to
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Collaborations: You will be based at the University of Birmingham and will be co-supervised by the UKAEA’s Tritium Fuel Cycle division (https://ccfe.ukaea.uk/divisions/h3at ). This project will involve multi
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Supervision and International Collaborations: You will be based at the University of Birmingham and will be co-supervised by the industrial partner Tokamak Energy Ltd. (https://tokamakenergy.com
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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
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(MTC). It is based within University of Birmingham at the Department of Mechanical Engineering. This is 3-year fully funded studentship is only open to UK home students. The successful applicant will
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Role Summary It is a really exciting time to join the University of Birmingham – we have set ourselves an ambition to be one of the world’s top 50 institutions by 2030. The Research Strategy
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, enthusiastic and productive researchers. You will be supervised by Dr Leah-Nani Alconcel (School of Metallurgy & Materials, primary supervisor) and Prof. Marina Gashinova (School of Engineering, secondary
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transferrable skills such as project management, communication, team working, which ensures an excellent employability upon completion of the project. If you have a background in Chemistry, Physics, Materials