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Reference Number EP/K031201/1
Title SUB-MHZ ULTRASONIC INSPECTION
Status Completed
Energy Categories Fossil Fuels: Oil Gas and Coal(Oil and Gas, Other oil and gas) 10%;
Not Energy Related 85%;
Energy Efficiency(Industry) 5%;
Research Types Basic and strategic applied research 100%
Science and Technology Fields PHYSICAL SCIENCES AND MATHEMATICS (Physics) 50%;
ENGINEERING AND TECHNOLOGY (Mechanical, Aeronautical and Manufacturing Engineering) 50%;
UKERC Cross Cutting Characterisation Not Cross-cutting 100%
Principal Investigator Professor D Hutchins
No email address given
School of Engineering
University of Warwick
Award Type Standard
Funding Source EPSRC
Start Date 01 August 2013
End Date 31 December 2016
Duration 41 months
Total Grant Value £261,935
Industrial Sectors Aerospace; Defence and Marine; Energy; Manufacturing
Region West Midlands
Programme NC : Engineering
 
Investigators Principal Investigator Professor D Hutchins , School of Engineering, University of Warwick (99.998%)
  Other Investigator Dr DR Billson , School of Engineering, University of Warwick (0.001%)
Dr SM Dixon , Physics, University of Warwick (0.001%)
  Industrial Collaborator Project Contact , BAE Systems Integrated System Technologies Limited (0.000%)
Project Contact , BP International Ltd (0.000%)
Project Contact , Tenaris S.A. (Luxembourg) (0.000%)
Web Site
Objectives
Abstract This proposal is associated with the targeted research programme of the UK Research Centre for NDE (RCNDE), an EPSRC-supported research centre. It is clear from discussions held with both academics and industrial members within RCNDE that the ultrasonic inspection of highly scattering/attenuating materials is still a large problem that needs to be addressed. The particular materials in question - such as thermal insulation materials, refractory linings, rubbers and thick sections of glass fibre reinforced polymer composites - are industrially very important. In many cases, there are not many alternatives for inspection, in particular if portability and non-radiological methods are required.The research will investigate new ways in which ultrasonic frequencies below 1 MHz can be applied to this problem. This will require research into various aspects of the measurement. Firstly, new transducer designs will be needed, that can generate signals with the required bandwidth. It is planned to try micro fibre composite (MFC) devices for this, teamed up with more conventional PZT elements. These will then be used with various forms of coded waveform, so that cross-correlation can enhance the measurement in terms of detectability and reduced signal to noise levels. In addition, scattering from interfaces and non-defect objects casue clutter in the signal. It is planned to investigate ways of reducing these effects, byusing other ideas such as (a) using a collimation system, and (b) using polarised shear waves. Finally, a system will be dseigned which uses some or all of these elements, and which can tuned to operate at different frequency ranges, depending on the application. The work will be performed in collaboration with three industrial sectors: marine vessel manufacture, the oil and gas industries, and metal forming. All have particular problems with methods of inspecting acoustically attenuating and scattering material. These include coatings and thick composites; thermal insulation layers, corrosion under insulation, and risers; refractory materials, and others. As part of the work, the research will be used to design a portable system that can be used in these industries. This will be tested in the laboratory, before field tests are performed in each case
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Added to Database 25/09/13