-
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/ Applications must be
-
development strategies focus on alloy chemistry designs and targeted thermo-mechanical treatments to achieve a fine martensitic microstructure, and even more importantly, to tailor the chemistry, size and
-
at the University of Birmingham and welcome applications from all sections of the community and are open to discussions around all forms of flexible working
-
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, Material
-
with adequate scalability to operate safely up to 650 C. This is to be achieved by alloy chemistry design and targeted thermo-mechanical treatments to achieve a fine martensitic microstructure, and even
-
is a collaborative activity between the University of Birmingham, UCL, Heriot Watt and Teesside Universities. The role will involve designing and implementing training courses for a wide range of
-
steel grades to push that temperature limit to 650C by a complex alloy chemistry and thermo-mechanical treatments, so as to attain significant gains in thermal efficiency and energy output of the fusion
-
A fully funded PhD studentship (UK tuition fees) is available in the group of Dr Arno at the University of Birmingham (group website: https://arnolab.com ) in areas of polymer chemistry with
-
consortium of Arizona State University, University of Adelaide, University of Toronto, and within the UK, Universities Cranfield, Birmingham, Cambridge, Imperial College London, and Newcastle. The HyPT will
-
should be implemented via FE simulation code User Functions by the PhD candidate. The PhD project, based at Rolls-Royce and the University of Birmingham's joint High Temperature Research Centre (HTRC) will