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IssuesArchive of Issues2024-2pp.1007-1020

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S.M. Abo-Dahab, M. Daher Albalwi, Rajneesh Kumar, A.M. Abd-Alla, F.M. Alharbi, and F.S. Bayones, "Analysis of Wave Motion Phenomenon Through a Homogeneous Isotropic Porous Elastic Plate," Mech. Solids. 59 (2), 1007-1020 (2024)
Year 2024 Volume 59 Number 2 Pages 1007-1020
DOI 10.1134/S0025654424602763
Title Analysis of Wave Motion Phenomenon Through a Homogeneous Isotropic Porous Elastic Plate
Author(s) S.M. Abo-Dahab (Mathematics Department, Faculty of Science, South Valley University, Qena, 83523 Egypt, sdahb@yahoo.com)
M. Daher Albalwi (Yanbu Industrial College, The Royal Commission for Jubail and Yanbu, 30436 Saudi Arabia, albalwim@rcyci.edu.sa)
Rajneesh Kumar (Department of Mathematics, Kurukshetra University, Kurukshetra, Haryana, India, rajneesh_kuk@rediffmail.com)
A.M. Abd-Alla (Mathematics Department, Faculty of Science, Sohag University, Sohag, Egypt, fmharbi@uqu.edu.sa)
F.M. Alharbi (Mathematics Department, Faculty of Science, Umm Al-Qura University, Makkah, Saudi Arabia, falharbi@umqura.edu.sa)
F.S. Bayones (Department of Mathematics and Statistics, College of Science, Taif University, Taif, 21944 Saudi Arabia, f.s.bayones@hotmail.com)
Abstract The present investigation is focussed on waves propagation in an isotropic homogeneous, porous elastic plate subjected to conditions in context of stress free. The symmetric and skew-symmetric secular equations for wave mode propagation are deduced. The results of thin plate are also obtained. The determinant of secular equation of Rayleigh–Lamb, velocity of Rayleigh–Lamb phase, and attenuation coefficient are shown graphically for different various values of frequency, porosity parameter, compressibility constituents and thickness of the plate with wave number. A particular case is also deduced. Attenuation coefficient and phase velocity for Rayleigh–Lamb wave by computational simulations are calculated. In order to have a deeper understanding of Rayleigh–Lamb wave propagation, this inquiry looks beyond simple calculations and analyses particle motion. Additionally, research studies the effects of frequency factors and porosity on these wave phenomena. The findings of this work shed light on a number of unusual situations that greatly advance our knowledge of Rayleigh–Lamb wave propagation in this complex material system, especially when porosity is included. This study has been formulating a novel basic equations for an isotropic homogeneous porous elastic plate, highlighting the Rayleigh–Lamb waves significance and investigating the several parameters impact on the phenomenon.
Keywords incompressible porous medium, pore pressure, Rayleigh–Lamb secular equation, phase velocity, attenuation coefficient
Received 18 February 2024Revised 09 April 2024Accepted 10 April 2024
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