Rolls Royce sponsored PhD scholarship : Understanding Microstructural Alterations When Machining of the Next Generation of High-Temperature Composite Materials for Aerospace
Physical and Environmental Sciences,Materials Science,Engineering and Technology,Mechanical Engineering,Production Engineering and Manufacturing,Metallurgy and Minerals Technology
Short info about job
Company: University of Nottingham
Hours: Full Time
Type / Role: PhD
Phone: +44-1404 9820648
Fax: +44-1200 9535827
Detail information about job Rolls Royce sponsored PhD scholarship : Understanding Microstructural Alterations When Machining of the Next Generation of High-Temperature Composite Materials for Aerospace. Terms and conditions vacancy
Applications are invited to undertake a 3 year PhD programme in partnership with industry to address key challenges in manufacturing engineering. The successful candidate will be based at the Rolls-Royce University Technology Centre (UTC) in Manufacturing and On-Wing Technology at The University of Nottingham. Having state-of-the-art purpose facilities, the UTC offers a world-class environment for the realisation of high impact research projects.
We are seeking applicants for an anticipated September 2017 start, or earlier (depending on the candidate availability, on a project with Rolls-Royce plc. The Rolls-Royce funded Studentship is the result of the expanding machining activities sponsored at the Rolls-Royce UTC dealing with in-depth investigations of the response of difficult-to-cut materials to various machining operations in the scope of robust manufacture of safety critical aero-engine components.
The project will deal with the influence of different machining operations to understand the correlation between microstructural aspects and machinability of the new composite materials to efficiently support the manufacture of aerospace components. This will involve using a wide range of sophisticated testing and analysis techniques including Scanning electron microscope (SEM), X-ray diffraction (XRD) for residual stress measurements as well as with development of innovative cutting tool solutions to address the notoriously low machinability of this group of materials.
This project will involve develop new concepts of cutting tools (manufactured in-house), machining trials, workpiece surface quality analysis (e.g. metallurgy, integrity, residual stresses), followed by investigations on innovative methods to evaluate the machinability of novel composite materials. Internationally recognised Rolls-Royce specialists in the field will be available throughout the project to provide the PhD student with support and guidance if required.
For mutual interest the project can be offered as a "package" - this will include:
- Appropriate training within Rolls-Royce for a period to be agreed. The training will enable the understanding of the technical issues related to the project, as well as developing a good partnership with the appropriate technical teams.
- Joint academic and industrial supervision. In this way, the student will develop both academic and industrial skills with multiple career opportunities at the end of the PhD study.
- For PhD students wishing to pursue an academic career, the opportunity to participate in teaching activities will be sought.
The bursary covers the tuition fees and provides a tax-free stipend of approximately £16,000 per year for the duration of the project (three years).
This is an excellent opportunity for an enthusiastic first or upper second class graduate in mechanical/manufacturing/materials science/physics to build strong knowledge in both manufacturing and material science while building strong relationships with both academic and industrial areas at international level.
Graduates finishing their degrees in June 2017 are also encouraged to apply. Due to the nature of funding only UK/EU applicants can be considered for this position.
Please contact the Rolls-Royce UTC director for further information.
Rolls-Royce UTC Director: Prof. Dragos Axinte
Email: [email protected]
Tel: 011595 14117