Sort by
Refine Your Search
-
into actively morphing and efficient structures? Applications are invited for a 3.5-year UK PhD studentship for the project "Design, Experimental Investigation, Aeroelasticity Modelling and Control of an Aircraft
-
Preparedness and Response, this PhD will examine how technology-enabled communication tools can improve coordination during major incidents, with a particular focus on equity, inclusivity and trust. The central
-
A fully funded PhD studentship is available for outstanding candidates to undertake cutting-edge research leading to a PhD in Chemical and Biomedical Engineering. The successful candidate(s) will
-
The construction of demonstration-class fusion tokamak reactors requires a wide range of structural materials, each with the mechanical performance and integrity required for the expected local
-
have partnered with AWE to fund a 4-year Computational Project to use state-of-the-art Computational Chemistry techniques to understand structure-property relationships in oxide scintillators. We will
-
component’s melting point) concomitantly worsened by steady-state heat loads (up to ~15 MW/m2). Fourthly, transient heat loads, going up to a few GW/m2 pose a major structural damage challenge under plasma
-
group, in the School of Engineering, University of Birmingham. The PhD project: Antennas are a key component of communication and sensing systems; however, existing antenna technologies suffer from a
-
. Fusion power plants demand structural materials capable of operating at >650 °C with high radiation tolerance. Traditional computational materials design workflows excel in data‑rich systems (e.g. Ni & Fe