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A Journal of Russian Academy of Sciences
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IssuesArchive of Issues2024-1pp.483-495

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Mandeep Kaur, Satish Kumar, and Vikas Sharma, "Surface Waves in a Microstructural Couple Stress Half Space under the Extended Mindlin’s Restrained Boundary Conditions," Mech. Solids. 59 (1), 483-495 (2024)
Year 2024 Volume 59 Number 1 Pages 483-495
DOI 10.1134/S0025654423602720
Title Surface Waves in a Microstructural Couple Stress Half Space under the Extended Mindlin’s Restrained Boundary Conditions
Author(s) Mandeep Kaur (Department of Mathematics, Thapar Institute of Engineering and Technology, Patiala, Punjab, India)
Satish Kumar (Department of Mathematics, Thapar Institute of Engineering and Technology, Patiala, Punjab, India, satishk.sharma@thapar.edu)
Vikas Sharma (Department of Mathematics, Lovely Professional University, Phagwara, Punjab, India)
Abstract Boundary conditions play a crucial role from theoretical and experimental perspectives in comprehending the dynamics of wave propagation in elastic solids. Stress free boundary conditions, are achieved by setting the surface tractions to zero, while for rigid surface boundary conditions displacements, are equated to zero. Despite utility of these two types of boundary conditions, it is crucial to acknowledge that these conditions are the extreme idealizations, and real-world scenarios often fall somewhere between the extremes of stress free and rigid surface boundary conditions. In the current investigation, the elastically restrained boundary conditions (ERBC) are proposed to examine the propagation of plane waves at the surface of semi-infinite elastic media. The elastically restrained boundary conditions act as an intermediate link between traction-free and rigid surface conditions. In the study, a microstructural couple stress half-space is considered to comprehend the propagation of surface waves. The impacts of boundary conditions are depicted through three parameters called as normal stiffness (kn), shear stiffness (kt), and rotational stiffness (kr). The characteristic length scale parameter (l) within the couple stress model represents the influence of microstructural effects. Dispersion relations have been derived analytically and the classical cases of stress-free (Rayleigh type wave), rigid surface boundary conditions are obtained as the special cases. Mathematical results have been illustrated graphically.
Keywords surface waves, stress free boundary conditions, rigid surface boundary conditions, couple stress, stiffness coefficients, characteristic length
Received 21 December 2023Revised 16 March 2024Accepted 17 March 2024
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