Mechanical Properties of Materials for Fusion Power Plants: Positions

Mechanical Properties of Materials for Fusion Power Plants

Combined Modelling and Experimental Project

Positions available

The positions funded by the project (see table below) are now all filled.

Additional studentships and postdoctoral appointments in these and related areas may be available for suitably qualified candidates. Please direct enquiries to the relevant supervisor.

Location	Field	Supervisor
Oxford	Dislocation dynamics modelling of mechanical properties	S G Roberts
Oxford	Experimental studies of brittle-ductile transitions in bcc metals	S G Roberts
Oxford	TEM of irradiation damage in Fe-Cr and Fe-Cr based steels	M L Jenkins
Oxford	Development and application of bond-order potentials to bcc metals and alloys	D G Pettifor
Oxford	Dislocation dynamics modelling of flow and fracture	S G Roberts
Oxford	Kinetic Monte Carlo modelling of mesoscale evolution of bcc models	S L Dudarev, R Drautz and S G Roberts
Oxford	Experimental studies of brittle-ductile transitions in bcc metals	S G Roberts
Oxford	TEM of irradiation damage in Fe-Cr and Fe-Cr based steels	M L Jenkins
Liverpool	Molecular dynamics modelling of dislocation motion and irradiation damage	D J Bacon
Liverpool	Molecular dynamics modelling of dislocation motion and irradiation damage	D J Bacon
Belfast	Ab-initio calculation of defect energies	M W Finnis
Edinburgh	Ab-initio modelling and development of potentials	G J Ackland
Cambridge	Modelling of microstructural development and hardening	H K D H Bhadeshia