Applying holographic laser beams to improve additive manufacturing metallurgy PhD
- Mechanical, Electrical and Manufacturing Engineering
- Entry requirements:
- 4 years
- not available
- Reference number:
- Start date:
- 01 October 2018
- Is funding available?
- UK/EU fees:
- International fees:
- Application deadline:
- 07 May 2018
in the UK for research quality
in the UK for Mechanical Engineering
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Loughborough University is a top-ten rated university in England for research intensity (REF2014) and an outstanding 66% of the work of Loughborough’s academic staff who were eligible to be submitted to the REF was judged as ‘world-leading’ or ‘internationally excellent’, compared to a national average figure of 43%.
In choosing Loughborough for your research, you’ll work alongside academics who are leaders in their field. You will benefit from comprehensive support and guidance from our Doctoral College, including tailored careers advice, to help you succeed in your research and future career.
Conventional round laser beams of symmetric energy distributions are recognised as a fundamental contributor to the issues surrounding the quality of additively manufactured components. The use of custom re-profiling with computer generated diffractive optical elements (DOEs) enables the modification of beam irradiance profiles with the purpose of creating deposits with improved material properties and physical characteristics.
This PhD project will involve collaborative work and supervision with the industrial partners Renishaw plc to develop new understanding of metal depositions and optical control for advanced powder bed additive manufacturing technologies. The work will include studying the 3D temperature distribution, fluid flow and cooling rates in materials produced by custom DOEs. Physical and microstructural property improvements from such an approach will be investigated.
There will be opportunities to attend academic conferences, industrial visits for collaboration and other training courses to develop a wide variety of technical and transferrable skills throughout the project.
Primary supervisor: Professor John Tyrer
Secondary supervisor: Dr Lewis Jones, Dr Rebecca Higginson
Applicants should have, or expect to achieve, at least a 2:1 Honours degree (or equivalent) in Mechanical or Materials Engineering or a related subject. A relevant Master’s degree and/or experience in one or more of the following will be an advantage but is not necessary: Metallurgy, Laser Materials Processing, or Mechanical Engineering.
Applicants must meet the minimum English Language requirements, details available on the website.
Fees and funding
Tuition fees cover the cost of your teaching, assessment and operating University facilities such as the library, IT equipment and other support services. University fees and charges can be paid in advance and there are several methods of payment, including online payments and payment by instalment. Special arrangements are made for payments by part-time students.
This is a fully funded PhD studentship, which will start in October 2018 and run for four years. It includes:
- A tax-free stipend of at least £17,553 per annum for 4 years.
- Tuition fees at the UK/EU rate, for up to 4 years.
Due to funding restrictions, this is only available to those who are eligible to pay UK/EU fees. In order to qualify for a full award, all applicants must meet the EPSRC eligibility criteria, including the minimum UK residency requirement.,
How to apply
All applications should be made online. Please quote the reference JT2018 on all correspondence and especially on the application form. Please ensure that you select ‘Mechanical and Manufacturing Engineering’ under ‘Programme Name’ on the application form.
|Start date:||01 October 2018|
|Application deadline:||07 May 2018|