Position Overview
Area: Engineering
Location: University Park
Reference: ENG334
Closing Date: Sunday 31 May 2026
Title: Determining the Oxidation Creep Interaction in Uncoated and Coated Steels using a Novel Torque-Load Test Method
This PhD position is based within the EPSRC's Centre for Doctoral Training in DigitalMetal in the Faculty of Engineering. The research focuses on cutting‑edge technologies and AI to revolutionise metals manufacturing, particularly how oxidation and creep interact in high‑temperature service.
Vision & Scope
We seek a PhD student who can develop a novel torsion test method to measure the interactions between oxidation and creep at high temperatures or long exposure times. The work will lead to safer design and operation of high‑temperature power plant components and will characterize the beneficial effects of surface coatings.
Responsibilities
* Develop and validate a novel torsion test method for measuring oxidation‑creep interactions.
* Conduct extensive experimental work on uncoated and coated steel specimens.
* Analyse experimental data and develop material‑modeling components, including machine‑learning tools.
* Characterise the behaviour of oxide scales and coatings on creep properties.
* Write a doctoral thesis and publish research findings.
Candidate Requirements
* UK 2:1 class (or equivalent) undergraduate degree in materials, mechanical, manufacturing, physics or related discipline.
* Strong understanding of materials/mechanical behaviour.
* Solid laboratory practical skills.
* Enthusiastic, self‑motivated and resourceful.
* Basic programming skills.
* Familiarity with basic machine‑learning concepts.
Eligibility and Funding
Open to UK/home candidates. The studentship is funded by the EPSRC Centre for Doctoral Training in DigitalMetal and the UK High Temperature Power Plant Forum, covering tuition fees, UKRI stipend and research & training costs.
PhD Details
Start date: October 2026
Programme length: Four years
Main Supervisor: Dr Chris Hyde
Secondary Supervisor: Prof Tanvir Hussain
Industrial Supervisor: Dr Chris Bullough (if applicable)
Industry Sponsor
The UK High Temperature Power Plant Forum (UKHTPPF) brings together industry, academia and researchers to focus on the structural integrity of materials used in high‑temperature power plant components.
Equality, Diversity and Inclusion
The University of Nottingham actively supports equality, diversity and inclusion and encourages applications from all sections of society. We provide a thriving working environment for all postgraduate researchers, with strong community support and training programmes to develop research skills and integrity.
#J-18808-Ljbffr