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Life extensions of nuclear power plant

Summary of the impact

The lifetimes of Hartlepool and Heysham I nuclear power stations have been extended from 2011 to 2019 as a direct result of our research into the development and application of new measurement techniques for the accurate determination of residual stresses. These life extensions are contributing to the health of the UK economy, maintaining jobs, ensuring security of electricity supply, and deferring the need for decommissioning and replacement of two nuclear power stations at a cost of several billion pounds each. The electricity generated during the life extension period has a market value of over £8 billion. New numerical modelling methods, underpinned by our measurements, are now used by the nuclear industry in life assessment procedures.

Submitting Institution

Open University

Unit of Assessment

Electrical and Electronic Engineering, Metallurgy and Materials

Summary Impact Type

Technological

Research Subject Area(s)

Chemical Sciences: Physical Chemistry (incl. Structural)
Engineering: Manufacturing Engineering, Materials Engineering

So You Think You Can Design A Jet Engine?! - A Toolkit For Communicating Materials Research

Summary of the impact

This prize-winning outreach project exploits our capability in 3D X-ray imaging to showcase our world-leading research activities in aeroengine materials and manufacturing processes, stimulating young people's interest in science and technology by challenging them to design an engine of their own. Involving an extensive schedule of public events, workshops and activity days, as well as a permanent exhibit at Manchester's Museum of Science & Industry, the project has engaged and enthused hundreds of thousands of members of the public. These outreach activities were recognised by the Royal Academy of Engineering through the award of its Nexia Solutions Education Innovation prize.

Submitting Institution

University of Manchester

Unit of Assessment

Electrical and Electronic Engineering, Metallurgy and Materials

Summary Impact Type

Technological

Research Subject Area(s)

Physical Sciences: Other Physical Sciences
Chemical Sciences: Physical Chemistry (incl. Structural)
Engineering: Materials Engineering

Aircraft structures: Life extension and damage tolerant design

Summary of the impact

We have optimised aerospace structural designs and assessment methods through development and application of hybrid residual stress characterisation techniques. Our research results on bonded crack retarders have redirected industry development programmes on hybrid metal laminate material systems and been used to evaluate reinforced structural concepts for US Air Force wing and fuselage applications. Methods to assess and mitigate maintenance-induced damage have been developed and implemented based on our research. Our contour measurement technology has been transferred to the US Air Force, which now has the capability to perform measurements in-house and support work with both NASA and the US Navy.

Submitting Institution

Open University

Unit of Assessment

Electrical and Electronic Engineering, Metallurgy and Materials

Summary Impact Type

Technological

Research Subject Area(s)

Engineering: Materials Engineering

Analysis of residual stress in aero engine fan blades

Summary of the impact

Wide Chord Fan Blades provide a key competitive advantage for Rolls-Royce's £8.6bn aero-engine business employing 1500 staff. In service, blades experience massive loads and high-frequency vibration, creating the potential for failure. In response to blade-off events on the Trent™ 800 engine, Rolls-Royce (RR) urgently needed a means of inhibiting fatigue crack growth, and selected laser shock peening (LSP). Research in the UoA, elucidating the mechanism and outcomes of LSP, provided critical scientific underpinning for its introduction into the production process for the Trent™ 800 and, subsequently, other engines. Further the UoA now provides manufacturing process QA. Orders for the new Trent™ XWB engine, relying on LSP, exceed £60bn, with partners The Metal Improvement Company establishing dedicated LSP treatment facilities for RR in the UK (with 30 employees) and Singapore.

Submitting Institution

University of Manchester

Unit of Assessment

Electrical and Electronic Engineering, Metallurgy and Materials

Summary Impact Type

Technological

Research Subject Area(s)

Engineering: Materials Engineering

Veqter - exploiting residual stress measurement technique to provide unique structural integrity assessment service (for redaction)

Summary of the impact

Residual stresses are the stresses locked into a component during manufacture. It is essential that the magnitudes of these residual stress fields are known as they may combine deleteriously with applied loads. This can lead to premature failure, of a component or structure, at loads the designer would otherwise view as safe. Researchers at Bristol have developed a residual stress measurement technique called deep-hole drilling, which allows measurements of residual stresses both near the surface and throughout the thickness of the specimen, even for very large components which other methods are unable to measure. Veqter Ltd was created in 2004 as a University spin-out company to provide deep-hole drilling residual stress measurements for industry. The company has grown [text removed for publication]. Primarily, Veqter is a service company, undertaking laboratory and on-site residual stress measurements on safety-critical components using hardware and analysis algorithms developed at the University. It is the only company worldwide that offers this facility and its customer base includes EDF Energy, the Japan Nuclear Energy Safety Organisation, the US Nuclear Regulatory Commission and Airbus. Veqter's measurements allow these companies to better understand the structural integrity of safety-critical plant.

Submitting Institution

University of Bristol

Unit of Assessment

General Engineering

Summary Impact Type

Technological

Research Subject Area(s)

Engineering: Manufacturing Engineering, Materials Engineering

Friction Welding for Aeroengine Applications

Summary of the impact

Research at the University of Manchester has supported the development of inertia and linear friction welding of high temperature materials for aeroengine application. The research has guided process parameter development and led to deployment of these new welding techniques at Rolls-Royce plc. In particular, inertia friction welding is now used in modern gas turbine engines, such as the Trent 900, which powers the A380, Trent 1000 for the Boeing 787 and Trent XWB for the Airbus A350. In addition, research has enabled blisk technology (welding of blades on disks), which has delivered up to 30% weight saving on critical rotating components.

Submitting Institution

University of Manchester

Unit of Assessment

Electrical and Electronic Engineering, Metallurgy and Materials

Summary Impact Type

Technological

Research Subject Area(s)

Engineering: Manufacturing Engineering, Materials Engineering

Advances in Gamma-Ray Detection and Imaging

Summary of the impact

The University of Southampton's distinguished body of work on the design of technology for gamma-ray detection and imaging has informed new counter-terrorism practices. Technological advances arising from the research have been crucial to delivering significant benefits in the fields of homeland security and nuclear safety — the latter particularly in the wake of the 2011 Fukushima disaster. A spin-out company, Symetrica, currently employs 26 people in the UK and the USA, has a forecast turnover of more than £10 million for 2013-14 and has been recognised as an example of best practice. It is a technological leader in the field of radioactive isotope identification.

Submitting Institution

University of Southampton

Unit of Assessment

Physics

Summary Impact Type

Technological

Research Subject Area(s)

Physical Sciences: Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Other Physical Sciences

An X-ray tool for the prediction of catastrophic failure during semiconductor manufacture (Jordan Valley)

Summary of the impact

Semiconductor wafers are subject to damage from misaligned handling tools, leading to cracks. Most of these are benign, but a few propagate to cause silicon wafer breakage during high temperature processing, leading to losses in production time costing millions of dollars per year. Research in Durham showed that X-ray Diffraction Imaging can be used to identify which cracks will catastrophically fail. As a consequence, Jordan Valley UK Ltd has designed and already sold over £M [text removed for publication] worth of X-ray imaging tools to the semiconductor industry. The company identifies this product as being critical to its continuation, safeguarding more than 25 jobs, and growth over the past 2 years.

Submitting Institution

University of Durham

Unit of Assessment

Physics

Summary Impact Type

Technological

Research Subject Area(s)

Engineering: Materials Engineering

PolySNAP Computer Software for enhanced processing and classifying of crystallographic and spectroscopic data

Summary of the impact

PolySNAP is an extensive commercial computer program developed at WestCHEM to process and classify large volumes of crystallographic and spectroscopic data. It is a market-leading product sold and supported by Bruker Corporation (a manufacturer of scientific instruments for molecular and materials research selling products world-wide) and is used in laboratories throughout the world supporting business in the pharmaceutical, materials, mining, geology, and polymer science sectors. The PolySNAP software was and continues to be sold in combination with all Bruker x-ray powder diffractometers.

Submitting Institutions

University of Strathclyde,University of Glasgow

Unit of Assessment

Chemistry

Summary Impact Type

Technological

Research Subject Area(s)

Mathematical Sciences: Statistics
Chemical Sciences: Macromolecular and Materials Chemistry, Physical Chemistry (incl. Structural)

An Innovative Friction Welding Platform for Creep Damage Assessment and Repair of Thermal Power Plant Components

Summary of the impact

This case study deals with research undertaken at Plymouth University leading to the development of an innovative friction stir welding process (friction hydro-taper pillar processing, FHPP) and a bespoke welding platform that improves the assessment and repair methodology for creep damaged thermal power station components. This technology, developed in collaboration with Nelson Mandela Metropolitan University and with industry investment, enables power station engineers to extend the life of power generating plant leading to multi-million pound cost savings (over £66M in direct financial savings are demonstrated in this case) plus significant safety and societal impacts. It has been patented in South Africa and a spin-off company has been formed.

Please note that economic impact values were achieved in Rand (R) but are expressed in £ and therefore worth less in £ today than during the period when the stated impact was achieved.

Submitting Institution

Plymouth University

Unit of Assessment

General Engineering

Summary Impact Type

Technological

Research Subject Area(s)

Mathematical Sciences: Applied Mathematics
Information and Computing Sciences: Artificial Intelligence and Image Processing
Engineering: Manufacturing Engineering

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