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from end-of-life recycled aluminium to reduce embedded carbon level to below 2 tonnes CO2e/tonne of aluminium as a supplied component and eventually to Net Zero carbon. This project is concerned with
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This PhD project will focus on developing AI-based methods to accelerate the Swansea University in-house discontinuous Galerkin (DG) finite element solver for the Boltzmann-BGK (BBGK) equation
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; EPSRC Centre for Doctoral Training in Green Industrial Futures | Bath, England | United Kingdom | 8 days ago
(MS) to study reaction and drying kinetics. X-ray Diffraction (XRD) for crystalline phase identification. Scanning Electron Microscopy (SEM-EDX) for microstructural and elemental analysis. Numerical and
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Full time research associate with the opportunity to work fully funded for 18 months on ultrasound data transmission across a metal barrier. The research is based on finite element and analytical
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of adding alloying elements and removing unwanted alloying elements to meet the customer’s specifications. Impurities are one of the biggest challenges for Al recycling. This project is aiming to develop
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modelling of laser shock peening. Molecular Dynamics (MD) and Finite Element (FE) simulations will be combined to account for the complex physical phenomena and their different scales. The interdependence
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and/or of biomaterials for intervertebral discs. This will be used to optimise variables in preclinical design of these interventions. The studies will include the use of Finite Element Analysis and 3D
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CO2e/tonne of aluminium as a supplied component and eventually to Net Zero carbon. This project is concerned with development of high strength aluminium alloys designed to provide better performance
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metal joining technologies. In Tokamak Energy’s fusion pilot plant design, vanadium (V) alloys, especially V-4Cr-4Ti (V44), is the preferred FW/blanket structural material due to its outstanding thermal
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/cooling structures. (ii) Understanding the microstructural evolution of metal-ceramic interfaces under irradiation. (iii) Mapping metal-ceramic interface failure when exposed to steady-state (up to ~50 MW