Physical Metallurgy of Heat Treatable Aluminium Alloys
College / Directorate: Brunel Centre for Advance Solidification Technology
Full Time / Part Time: Full Time fixed term – 30 months
Posted Date: 14/08/2021
Closing Date: 15/09/2021
Ref No: 2587
Salary (R1 Grade): £34,304 - £40,927 per annum plus £2,166 London Allowance per annum
Applications from suitably qualified and well motivated individuals are invited for the position of Research Fellow to work on an EPSRC funded project to study the interaction between solute atoms, precipitates and dislocation during strain enhanced precipitation of high performance wrought aluminium alloys produced by thermomechanical process in the Advanced Metal Casting Centre (AMCC) and Advanced Metal Processing Centre (AMPC), part of BCAST at Brunel University London. In collaboration with Constellium, you will be developing a fundamental understanding of the nucleation mechanism of precipitates during artificial ageing process assisted by prior deformation and solute elements, as well as the dislocation mobility in the presence of precipitates.
BCAST is a speciality research centre focusing on solidification related research with an international reputation and is the host of the national centre of excellence in liquid metal engineering (the EPSRC Centre – LiME). BCAST is well equipped with state-of-the-art facilities for both solidification processing and materials characterisation. See http://bcast.brunel.ac.uk for more information. Both the AMCC & AMPC form a state of the art scale up facility that bridges the gap between fundamental research and full scale industrialisation and is aimed at meeting the short, medium and long term needs of the automotive industry. At present BCAST is in the process of developing our characterisation facilities to global state of the art facilities.
The successful candidate will work on the thermomechanical processing of heat treatable wrought aluminium alloys. The research will include: (1) study of solute-precipitate-dislocation interaction, (2) quantification of the key processing conditions to promote strain enhanced precipitation behaviour, including understanding of dislocation assisted precipitation and dislocation facilitated work hardening processes, and (3) evaluation of the mechanical properties. They are also expected to interact with other researchers in BCAST/AMCC/AMPC and research engineers from Constellium.
The successful candidate should have a PhD degree in materials science, metallurgy and engineering, physics or another suitable engineering discipline, and should have a sound background in physical metallurgy. Research experience in solidification & thermomechanical processing of metallic materials, skills in microstructural characterisation using various microscopy techniques and a working knowledge of mechanical testing of metallic materials are essential. In addition, they should have good communication and presentation skills and be a team player.
Informal enquiries should be directed to Prof. Zhongyun Fan (zhongyun.fan@brunel.ac.uk) or Dr Chamini Mendis (chamini.mendis@brunel.ac.uk).
Closing date for applications: 15th September 2021
Completed applications should include a covering letter full CV and names and contacts of 3 referees.
Brunel University London is fully committed to creating and sustaining a fully inclusive workforce culture. We support flexible working. We welcome applicants from all backgrounds and communities, we particularly welcome applicants who are currently under- represented in our workforce.