Formation mechanism of reacted magnesium diboride superconducting splices for next generation MRI in persistent mode

Superconducting magnet devices use splicing, a process required to maintain the persistence of operation. Currently, the formation mechanism of splicing using magnesium diboride superconductor is complex and not technologically robust for industrial magnet manufacturing. This project aims to develop novel, reliable and economical superconducting splicing technologies that can produce an ultra-stable and uniform magnetic field against unexpected power outages. Expected outcomes include the development of advanced green and cryogen free superconducting technologies, which would boost the Australian manufacturing industry through access to multi-billion-dollar global markets for power grids, medical imaging and energy generation and storage.

Research facilities and infrastructure are all in place at UQ. There will be opportunities for students for placement in the industry located in the USA for manufacturing MRI magnet and advanced superconducting characterisations. 

This is an Earmarked scholarship project that aligns with a recently awarded Australian Government grant.

The scholarship includes:

• living stipend of $35,000 per annum tax free (2024 rate), indexed annually
• your tuition fees covered
• single overseas student health cover (OSHC).

Learn more about the Earmarked scholarship.

You must contact the principal supervisor for this project to discuss your interest. You should only complete the online application after you have reached agreement on supervision.

Always make sure you are approaching your potential supervisor in a professional way. We have provided some guidelines for you on how to contact a supervisor.

Your application will be assessed on a competitive basis.

We take into account your:

• previous academic record
• publication record
• honours and awards
• employment history.

A working knowledge of materials science and engineering or mechanical engineering or electrical engineering would be of benefit to someone working on this project.

You will demonstrate academic achievement in the field(s) of materials science and engineering and the potential for scholastic success.

This project requires candidates to commence no later than Research Quarter 1, 2025. To allow time for your application to be processed, we recommend applying no later than 30 September, 2024 30 June, 2024.

You can start in an earlier research quarter. See application dates.

Before you apply

1. Check your eligibility for the Doctor of Philosophy (PhD).
2. Prepare your documentation.
3. Contact Professor Yusuke Yamauchi (y.yamauchi@uq.edu.au) to discuss your interest and suitability.

When you apply

You apply for this scholarship when you submit an application for a PhD. You don’t need to submit a separate scholarship application.

In your application ensure that under the ‘Scholarships and collaborative study’ section you select:

• My higher degree is not collaborative
• I am applying for, or have been awarded a scholarship or sponsorship
• UQ Earmarked Scholarship type.

Apply now