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IssuesArchive of Issues2023-3pp.961-974

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Pato Kumari and Payal, "Characterization of Torsional Wave in a Bonded Corrugated Dry Sandy Geomedia," Mech. Solids. 58 (3), 961-974 (2023)
Year 2023 Volume 58 Number 3 Pages 961-974
DOI 10.3103/S0025654423600149
Title Characterization of Torsional Wave in a Bonded Corrugated Dry Sandy Geomedia
Author(s) Pato Kumari (Jaypee Institute of Information Technology, Noida, India, ism.pato@gmail.com)
Payal (Jaypee Institute of Information Technology, Noida, India, payalrao.5015@gmail.com)
Abstract This article concerns with the study of propagation of torsional surface waves in dry sandy layer sandwiched between upper inhomogeneous half space and lower pre-stressed viscoelastic half space with non-planer boundaries. Exponential variation of inhomogeneity is taken in upper half space. Displacement components in the dry sandy layer, upper inhomogeneous half space and lower pre-stressed viscoelastic half space are found in closed form and used to derive the complex velocity equation under the suitable boundary condition using the separation of variable technique. The real part of complex velocity equation gives the dispersion relation in terms of implicit function of relevant parameters that affect the resultant torsional velocity. Four particular cases have been deduced to compare the dispersion relation obtained for the present work for validation purpose. The significant effect of inhomogeneity, corrugated boundaries, initial stress, sandiness and viscoelasticity on the phase velocity of considered torsional surface waves has been numerically simulated for a specific model and demonstrated through different graphs.
Keywords torsional surface wave, initial stress, viscoelasticity, corrugation, sandiness, inhomogeneity, bessel function
Received 28 January 2023Revised 05 April 2023Accepted 06 April 2023
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