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Effect of Geometry on Flexural Wave Propagation in a Notched Bar

The propagation of flexural elastic waves in notched metal bars with a rectangular cross section with the depth of notches increasing by a power law has been studied by numerical modeling and experimental laser scanning vibrometry. Three types of notch arrangement have been considered: uniform and m...

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Bibliographic Details
Published in:Acoustical physics 2024, Vol.70 (4), p.593-601
Main Authors: Agafonov, A. A., Izosimova, M. Yu, Zhostkov, R. A., Kokshayskiy, A. I., Korobov, A. I., Odina, N. I.
Format: Article
Language:English
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Summary:The propagation of flexural elastic waves in notched metal bars with a rectangular cross section with the depth of notches increasing by a power law has been studied by numerical modeling and experimental laser scanning vibrometry. Three types of notch arrangement have been considered: uniform and more frequent and sparse towards the end of a bar. Such structures exhibit the characteristics of an acoustic black hole. For all the studied samples, in the 10–100 kHz frequency range, an increase in amplitude and decrease in length of the flexural wave have been experimentally found as a wave approaches the end of a bar. It has been shown that there is a critical frequency, above which the modes exhibit a section with highly reduced amplitude of oscillations.
ISSN:1063-7710
1562-6865
DOI:10.1134/S1063771024602000