Full matrix capture and the total focusing imaging algorithm using laser induced ultrasonic phased arrays
Stratoudaki, Theodosia and Clark, Matt and Wilcox, Paul D.; Chimenti, Dale E. and Bond, Leonard J., eds. (2017) Full matrix capture and the total focusing imaging algorithm using laser induced ultrasonic phased arrays. In: 43rd Annual Review of Progress in Quantitative Nondestructive Evaluation, Volume 36. American Institute of Physics Inc., USA. ISBN 9780735414747 (https://doi.org/10.1063/1.4974563)
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Abstract
Laser ultrasonics is a technique where lasers are used for the generation and detection of ultrasound instead of conventional piezoelectric transducers. The technique is broadband, non-contact, and couplant free, suitable for large stand-off distances, inspection of components of complex geometries and hazardous environments. In this paper, array imaging is presented by obtaining the full matrix of all possible laser generation, laser detection combinations in the array (Full Matrix Capture), at the nondestructive, thermoelastic regime. An advanced imaging technique developed for conventional ultrasonic transducers, the Total Focusing Method (TFM), is adapted for laser ultrasonics and then applied to the captured data, focusing at each point of the reconstruction area. In this way, the beamforming and steering of the ultrasound is done during the post processing. A 1-D laser induced ultrasonic phased array is synthesized with significantly improved spatial resolution and defect detectability. In this study, shear waves are used for the imaging, since they are more efficiently produced than longitudinal waves in the nondestructive, thermoelastic regime. Experimental results are presented from nondestructive, laser ultrasonic inspection of aluminum samples with side drilled holes and slots at depths varying between 5 and 20mm from the surface.
ORCID iDs
Stratoudaki, Theodosia ORCID: https://orcid.org/0000-0002-7462-8664, Clark, Matt and Wilcox, Paul D.; Chimenti, Dale E. and Bond, Leonard J.-
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Item type: Book Section ID code: 61667 Dates: DateEvent16 February 2017Published13 May 2016AcceptedSubjects: Science > Physics Department: Faculty of Engineering > Electronic and Electrical Engineering Depositing user: Pure Administrator Date deposited: 30 Aug 2017 09:40 Last modified: 23 Dec 2024 01:04 Related URLs: URI: https://strathprints.strath.ac.uk/id/eprint/61667