Laser-Generation Based Imaging of Ultrasonic Wave Propagation on Welded Steel Plates and Its Application to Defect Detection

Laser-Generation Based Imaging of Ultrasonic Wave Propagation on Welded Steel Plates and Its Application to Defect Detection

This study investigated nondestructive testing of welded steel plates by imaging ultrasonic wave propagation based on laser generation. The specimens were scanned by a pulsed laser, and the signals were received by a fixed piezoelectric transducer. A moving diagram of wave propagation from the fixed...

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Bibliographic Details
Published in:MATERIALS TRANSACTIONS Vol. 51; no. 11; pp. 2069 - 2075
Main Authors: Yashiro, Shigeki, Toyama, Nobuyuki, Takatsubo, Junji, Shiraishi, Tetsuro
Format: Journal Article
Language:English
Published: Sendai The Japan Institute of Metals and Materials 01-11-2010
Japan Science and Technology Agency
Subjects:
Cracks
Defects
Flaw detection
Imaging
laser ultrasonics
nondestructive testing
Roots
ultrasonic imaging
Ultrasonic testing
Wave propagation
weld cracking
weld defect
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Summary:This study investigated nondestructive testing of welded steel plates by imaging ultrasonic wave propagation based on laser generation. The specimens were scanned by a pulsed laser, and the signals were received by a fixed piezoelectric transducer. A moving diagram of wave propagation from the fixed point was obtained directly from the collected signals. Wave scattering due to a weld defect (e.g., toe crack or root crack) was successfully imaged on weld specimens, and was easily recognized by visual observation in the measured moving diagrams. These experiments demonstrated the ability of the imaging technique to inspect a large area in a short time and to reliably detect a defect. Furthermore, the position-time-amplitude maps (B-scope images) were reconstructed from the moving diagram along some lines perpendicular to the defect, and the location and the size of a root crack were evaluated based on the B-scope images.
Bibliography:ObjectType-Article-2
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ISSN:1345-9678
1347-5320
1347-5320
DOI:10.2320/matertrans.M2010204