Data to accompany manuscript: Detection and tracking of cracks based on thermoelastic stress analysis
Data files
Dec 18, 2020 version files 12.74 GB
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1.PhotovoltaicDetectorConstantLoading.zip
24.99 MB
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2.MicrobolometerConstantLoading.zip
2.68 GB
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3.PhotovoltaicDetectorFlightCycle.zip
427.67 MB
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4.MicrobolometerFlightCycle-2.zip
9.59 GB
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5.OEM_MicrobolometerConstantLoading.zip
20.52 MB
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DetectionCracksMiddletonReadMe.txt
3.57 KB
Abstract
Thermoelastic stress analysis datasets were collected during tensile loading of hole-in-plate aluminium alloy specimens, at both constant amplitude and frequency conditions, and at variable amplitude and frequency conditions - based on an idealised flight cycle. Data were collected during initiation and propagation of a fatigue crack and monitored using three types of infra-red detector at different price points.
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This dataset accompanies the manuscript:
Detection and tracking of cracks based on thermoelastic stress analysis
Middleton C. A.1, Weihrauch, M.1, Christian, W. J. R.1, Greene, R. J.2, and Patterson, E. A.1
1School of Engineering, University of Liverpool, The Quadrangle, Brownlow Hill, Liverpool, L69 3GH, U.K.
2Strain Solutions Ltd, Dunston Innovation Centre, Dunston Road, Chesterfield, Derbyshire S41 8NG, U.K.
Royal Society Open Science, Accepted: 26 November 2020
Methods
Please see uploaded ReadMe file.
Usage notes
Please see uploaded ReadMe file.