Experimental Study of Reflected Beam Profile by Two-Layer Plate Systems Immersed in Water. Jungman, A., Guy, P., Quentin, G., & Flour, J. C. L. In Leroy, O. & Breazeale, M. A., editors, Physical Acoustics, pages 391–397. Springer US, January, 1991. ![Experimental Study of Reflected Beam Profile by Two-Layer Plate Systems Immersed in Water [link]](https://bibbase.org/img/filetypes/link.svg "link")
Paper abstract bibtex Ultrasonic examination of layered media may improve the design of these components. One of the major problems of these materials is related to the prediction of the adhesive strength of a joint between plate-like structures. The background of this approach is based on the idea that measurable changes in the elastic properties of the plate-to-adhesive interface should be associated with changes in the adhesive strength. This means that the reflection coefficient can be used to characterize the interface properties of the system. A number of methods have been proposed to detect disbonds, such as resonance [1], pulse echo and through transmission [2], ultrasonic spectroscopy [3, 4, 5], interface waves [6] and leaky Lamb waves [7, 8, 9]. A review of these techniques is given by Bar Cohen and al. [10].
@incollection{jungman_experimental_1991,
title = {Experimental {Study} of {Reflected} {Beam} {Profile} by {Two}-{Layer} {Plate} {Systems} {Immersed} in {Water}},
copyright = {©1991 Springer-Verlag US},
isbn = {978-1-4615-9575-5 978-1-4615-9573-1},
url = {http://link.springer.com/chapter/10.1007/978-1-4615-9573-1_49},
abstract = {Ultrasonic examination of layered media may improve the design of these components. One of the major problems of these materials is related to the prediction of the adhesive strength of a joint between plate-like structures. The background of this approach is based on the idea that measurable changes in the elastic properties of the plate-to-adhesive interface should be associated with changes in the adhesive strength. This means that the reflection coefficient can be used to characterize the interface properties of the system. A number of methods have been proposed to detect disbonds, such as resonance [1], pulse echo and through transmission [2], ultrasonic spectroscopy [3, 4, 5], interface waves [6] and leaky Lamb waves [7, 8, 9]. A review of these techniques is given by Bar Cohen and al. [10].},
language = {en},
urldate = {2014-06-23TZ},
booktitle = {Physical {Acoustics}},
publisher = {Springer US},
author = {Jungman, A. and Guy, Ph and Quentin, G. and Flour, J. C. Le},
editor = {Leroy, Oswald and Breazeale, Mack A.},
month = jan,
year = {1991},
keywords = {Acoustics, Condensed Matter Physics, Crystallography, Optics, Optoelectronics, Plasmonics and Optical Devices, Solid State Physics, Spectroscopy and Microscopy},
pages = {391--397}
}
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