PhD Studentship: Creep Behaviour of High-temperature Materials in Helium Environments of Future Nuclear Fission Plants

The deployment of future nuclear fusion power plants and related technologies, including the UKAEA programme STEP (Spherical Tokamak for Energy Production) as a demonstrator of net energy generation and plant sustainability, relies on the availability of qualified structural materials in industrial-scale amounts that can withstand the harsh local...

The deployment of future nuclear fusion power plants and related technologies, including the UKAEA programme STEP (Spherical Tokamak for Energy Production) as a demonstrator of net energy generation and plant sustainability, relies on the availability of qualified structural materials in industrial-scale amounts that can withstand the harsh local...

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. This jointly funded project between Oxford Sigma Ltd and UoB will be supervised by Dr Sandy Knowles and Dr Matthew Lloyd from UoB, and Dr Thomas Davis and Dr Leandro...

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. This jointly funded project between Oxford Sigma Ltd and UoB will be supervised by Dr Sandy Knowles and Dr Matthew Lloyd from UoB, and Dr Thomas Davis and Dr Leandro...

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. ). This project will involve multi-national collaborators, and so you will have a unique opportunity to work with renowned industrial experts and with world-recognized institutes such as Oak...

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. ). This project will involve multi-national collaborators, and so you will have a unique opportunity to work with renowned industrial experts and with world-recognized institutes such as Oak...

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. ). This project will involve multi-national collaborators, and so you will have a unique opportunity to work with renowned industrial experts and with world-recognized institutes such as Oak...

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. ). This project will involve multi-national collaborators, and so you will have a unique opportunity to work with renowned industrial experts and with world-recognized institutes such as Oak...

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. ). This project will involve multi-national collaborators, and so you will have a unique opportunity to work with renowned industrial experts and with world-recognized institutes such as Oak...

ARCANE is a collaborative research project across three leading UK universities and Rolls-Royce plc. The project aims to develop the state-of-the-art scientific understanding of nucleation defect formation within directionally solidified single crystal (SX) castings, and their role in the reduction in mechanical performance, through novel experimental...

ARCANE is a collaborative research project across three leading UK universities and Rolls-Royce plc. The project aims to develop the state-of-the-art scientific understanding of nucleation defect formation within directionally solidified single crystal (SX) castings, and their role in the reduction in mechanical performance, through novel experimental...

The influence of plastic pollution on our environment has been well documented, however, there remains a knowledge gap between relating to how new polymers and plastics might biodegrade. To this end, we have a fully funded PhD studentship (due to eligibility criteria, only for UK applicants) that will focus on developing sustainable polymer platforms,...

The influence of plastic pollution on our environment has been well documented, however, there remains a knowledge gap between relating to how new polymers and plastics might biodegrade. To this end, we have a fully funded PhD studentship (due to eligibility criteria, only for UK applicants) that will focus on developing sustainable polymer platforms,...

The Centre for National Training and Research Excellence in Understanding behaviour (CENTRE-UB) is inviting applications for a Doctoral Studentship in association with our collaborative partners Transport for West Midlands (TfWM) to start in October 2024. Increasingly, people use different personal travel modes (e.g., driving; walking; wheeling; cycling;...

The Centre for National Training and Research Excellence in Understanding behaviour (CENTRE-UB) is inviting applications for a Doctoral Studentship in association with our collaborative partners Transport for West Midlands (TfWM) to start in October 2024. Increasingly, people use different personal travel modes (e.g., driving; walking; wheeling; cycling;...

ARCANE is a collaborative research project across three leading UK universities and Rolls-Royce plc. The project aims to develop the state-of-the-art scientific understanding of nucleation defect formation within directionally solidified single crystal (SX) castings, and their role in the reduction in mechanical performance, through novel experimental...

ARCANE is a collaborative research project across three leading UK universities and Rolls-Royce plc. The project aims to develop the state-of-the-art scientific understanding of nucleation defect formation within directionally solidified single crystal (SX) castings, and their role in the reduction in mechanical performance, through novel experimental...

Protonic ceramics represent an emergent class of materials that have potential utility in several intermediate-temperature electrochemical applications, including the production of "green" hydrogen. Renewable-derived electricity can be used to drive steam electrolysis to form H2 and O2 products in a proton-conducting ceramic electrolyser (PCCEL). However,...

Protonic ceramics represent an emergent class of materials that have potential utility in several intermediate-temperature electrochemical applications, including the production of "green" hydrogen. Renewable-derived electricity can be used to drive steam electrolysis to form H2 and O2 products in a proton-conducting ceramic electrolyser (PCCEL). However,...

Thermal batteries (often termed primary reserve batteries) offer several key advantages over primary and secondary batteries due to their long shelf life, high temperature stability, quick activation, reliability, robustness and the fact that they are maintenance-free. Despite these many advantages, the exact mechanisms that control performance in...