Structural Integrity PhD

Brunel University London has partnered with the National Structural Integrity Research Centre to provide an opportunity for students to undertake in-depth research in combination with the industrial experience of TWI across the varied disciplines essential to structural integrity. 

Considering the expertise and track record of both Brunel and NSIRC-based staff, the following areas have been identified as the main research strengths within the wider field of Structural Integrity: 

Dynamic response of materials and structures (modelling, experimental characterisation and design/optimisation for composites and metals); 
Structural health monitoring based on ultrasound wave propagation and acoustic emissions in solids (modelling, experimental validation, signal processing and sensors); 
Steel, concrete and hybrid structures (material design, manufacturing, modelling and experimental characterisation); 
Fatigue and fracture (modelling, experimental characterisation);
Extreme loading (e.g. fire, earthquake, blast and progressive collapse)
Fluid-structure interaction (unboned flexible risers)
Manufacturing (e.g. sheet metal forming, bulk-forming, casting, extrusion, 3D printing).
A key aim of the PhD programme is to supply a stream of industry-ready, world-class engineers and scientists in structural integrity disciplines such as fail-safe design, corrosion control, structural health monitoring, ageing asset management and fitness for service. 

Industry linked location

The programme is delivered at the NSIRC facilities based in Granta Park, Cambridge. A proportion of the research activities may take place out in the field (external sites) including industrial client sites depending on the details of the particular project. However, students are based at NSIRC at least 90 per cent of the time, where they are able to take advantage of their partner university resources such as the virtual learning environment, library and academic support. You are expected to live in the Cambridge area for the duration of your studies and make use of the shuttle bus to Granta Park.

Partnerships
In structural integrity, we have well-established collaboration with a number of industrial partners who have supported a range of fundamental and applied PhD research projects. Our partners include:

Arts and Humanities Research Council
AWE PLC
British Council
Caterpillar Inc
Commonwealth Scholarship Commission in the UK
Constellium France SAS
DSTL Commercial Services
Engineering and Physical Sciences Research Council
European Commission
European Space Agency
Higher Education Funding Council for England
Intel Corporation USA
Jaguar Land Rover
Korea Institute of Industrial Technology
mLED Limited
National Aerospace Technology Programme
Natural Environment Research Council
Power OLEDs Ltd
Science & Technology Facilities Council
Technology Strategy Board
The Worshipful Company of Tin Plate Workers Alias Wire Workers
TWI Limited
Equipment and Lab Facilities

Students at NSIRC conduct their research using some of the world's most advanced analysis and testing technologies. NSIRC houses £20 million of state-of-the-art equipment, acquired using investment from BIS and HEFCE.

This equipment ensures that NSIRC has world-leading capabilities, is best placed to meet its research commitments, and is able to address the research topics specified by the industrial partners. It includes:

Metallic and polymeric materials analysis and characterisation equipment.
Advanced testing equipment to measure fracture, fatigue, creep and corrosion performance.
High-pressure testing equipment for large scale tests in pipes and vessels.
Equipment for testing in H 2 S, CO 2 and other aggressive environments.
Re-configurable, large scale facilities for specialised component/structure testing.
Systems and software for process simulation, modelling of structural performance and lifetime prediction.
Residual stress measurement equipment.
A range of NDT equipment for defect detection and procedure development.
Remote and intelligent sensors and data analysis tools for condition monitoring applications.
Selected welding/coating and thermal cycle simulation equipment for characterisation, development and proving of high integrity processes.
Specific/bespoke equipment to address defined areas of research focus of the NSIRC founder sponsors.
Dimensional measurement equipment.
Equipment for test piece preparation (cutting, welding, machining etc.)
Accreditation

The degree is accredited by The Welding Institute as further learning for registration as a Chartered Engineer. Students working on projects in the field of non-destructive testing will also be able to acquire membership of BINDT (British Institute of Non-Destructive Testing).

Find out about the exciting research we do in this area. Browse profiles of our experts, discover the research groups and their inspirational research activities you too could be part of. We’ve also made available extensive reading materials published by our academics and PhD students.