This article includes a list of general references, but it lacks sufficient corresponding inline citations. (June 2020) |
Corrosion mapping by ultrasonics is a nonintrusive (noninvasive) technique which maps material thickness using ultrasonic techniques.
Variations in material thickness due to corrosion can be identified and graphically portrayed as an image. The technique is widely used in the oil and gas industries for the in-service detection and characterization of corrosion in pipes and vessels. The data is stored on a computer and may be color coded to show differences in thickness readings.
Corrosion may be mapped using Zero degree ultrasonic probes, an Eddy current array and/or Time of flight detection methods. The book Nondestructive Examination of Underwater Welded Structures by Victor S. Davey describes a "fully automated dual axis robotic scanner used for corrosion mapping normally using a single zero degree compression probe scanned in a raster pattern over the area of interest." He also goes on to explain that "typically a 4 mm by 4 mm raster" is used.[1]
References
edit- ^ Stuart, Sam (2013-09-11). Ultrasonics International 83: Conference Proceedings. Elsevier. ISBN 978-1-4831-4082-7.
- Computer modelling for the prediction of the probability of detection of ultrasonic corrosion mapping Authors: Burch, S F; Stow, B A; Wall, M
- Eddy current array probe for corrosion mapping on ageing aircraft AIP Conf. Proc. 509, pages 489–496; 8 pages) REVIEW OF PROGRESS IN QUANTITATIVE NONDESTRUCTIVE EVALUATION: Volume 19 Date: 25–30 July 1999 Location: Montreal (Canada) Rémi Leclerc and Rock Samson
- Pipeline Corrosion and Cracking and the Associated Calibration Considerations for Same Side Sizing Applications Ginzel, R.K. & Kanters, W.A. Eclipse Scientific Products Inc, Williamsford, Ontario, Canada https://web.archive.org/web/20160304064220/http://www.turkndt.org/sub/makale/ornek/Pipeline%20Corrosion%20and%20Cracking%20and%20the%20Associated%20Calibrati.pdf
- Improved plant availability by advanced condition based inspections Harry J.M Hulshofa, Jan W Notebooma, Paul G.M Welberga, Leo E de Bruijnb KEMA Nederland BV, P.O. Box, 9035 6800 ET Arnhem, The Netherlands Benelux Generation N.V., Rotterdam, The Netherlands