Snabbfakta
-
- Nottingham
Ansök senast: 2024-08-25
PhD Studentship: Centre for Doctoral Training in Composite Materials, Sustainability and Manufacture
Award: PhD
Duration: 4 years
Department: Mechanical, Materials and Manufacturing Engineering
Funding: A tax-free enhanced stipend of £24,917 per annum and tuition fees for four years, subject to satisfactory research progress.
Eligibility: Funding is available for Home students (permanent UK residency)
Start: Flexible from September 2024
Applications are invited to undertake a PhD programme within the Centre for Doctoral Training for Sustainable Composites Manufacturing, based at the University of Nottingham. The student will undertake an industrially focused project, conducting cutting-edge research to address the key challenges in achieving sustainable manufacture of fibre-reinforced polymer composites. Students will follow a taught programme of exciting composite-specific modules at the University of Bristol, as part of a large national cohort.
Candidate profile:
We are looking for highly-motivated students who are interested in conducting stimulating research and have a passion for finding sustainable solutions. The successful candidate will hold a minimum 2:1 masters degree in a relevant engineering or physical science discipline. Applicants without a masters qualification may be considered on an exceptional basis, providing they hold a first-class undergraduate degree.
The candidate will be expected to work independently, including extensive laboratory work and some numerical modelling. Previous knowledge of composites and composites manufacturing will be beneficial, along with experience in finite element analysis. The ability to communicate confidently and clearly with external stakeholders is essential.
The successful candidate will join the University of Nottingham’s Composites Research Group to:
Project title: Characterisation of manufacturing defects and mitigation strategies
There is an urgent need to move away from hand layup of autoclave cured prepregs towards more sustainable automated manufacturing processes for fibre reinforced composites, to reduce cost, cycle time and embodied energy and avoid component variability. Manufacturing defects, such as ply wrinkles and voids are the main barrier for the adoption of these processes, significantly impacting the mechanical performance of composite structures. Inherent process variability during manufacturing can lead to over-conservative designs and increase the number of parts that are rejected.
