Love‐like wave dispersion in a highly non‐homogeneous viscoelastic orthotropic layer under the effect of non‐local elasticity

Pramanik, Dipendu; Manna, Santanu

doi:10.1002/mma.9361

Math Methods in App Sciences

2023

DOI: 10.1002/mma.9361

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Love‐like wave dispersion in a highly non‐homogeneous viscoelastic orthotropic layer under the effect of non‐local elasticity

Dipendu Pramanik

Santanu Manna

Abstract: This paper examines the effects of non‐local elasticity on the propagation of Love‐like waves in a Voigt‐type viscoelastic layer over an elastic half‐space. The model's geometry is considered orthotropic, highly non‐homogeneous, and initially stressed media in the context of non‐local continuum mechanics. The non‐homogeneity functions are regarded as binomial functions with a positive real exponent. Two different non‐local parameters have been defined by considering different internal characteristic lengths fo… Show more

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Cited by 5 publications

References 54 publications

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On different modes of Rayleigh wave fields in a micropolar nonlocal viscoelastic medium

Bhat,

Manna

2024

Z Angew Math Mech

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This paper explores the propagation of Rayleigh wave fields in a viscoelastic medium under the framework of small‐scale theories such as nonlocal elasticity and micropolar elasticity. Leading‐order nonlocal corrected dispersion relations are derived by applying appropriate refined nonlocal traction‐free boundary conditions. One of the dispersion relations is entirely due to the micropolarity and, therefore, vanishes in its absence. The other dispersion relation corresponding to its elastic counterpart gives rise to quasi‐elastic and viscoelastic modes. Nonlocal elastic effects in viscoelastic solids also generate distinct nonlocal quasi‐elastic modes that vanish without them. Two special viscoelastic solids, namely (a) an incompressible solid and (b) a Poisson solid, are numerically examined. An example with small viscous terms is considered, and conditions for the existence of various modes are derived. It further confirms the dependence of nonlocal and material parameters on the propagation of Rayleigh wave fields in different modes. Moreover, the equation for the path traversed by the Rayleigh wave field particles at the surface is evaluated, and the nature of the path (prograde or retrograde) is investigated for every possible mode of Rayleigh wave fields. Moreover, graphs are plotted using MATLAB software, specifically to comprehend the conditions imposed on the material and nonlocal parameters, as well as to observe the phase velocity behavior for all possible multiple modes.

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On different modes of Rayleigh wave fields in a micropolar nonlocal viscoelastic medium

Bhat,

Manna

2024

Z Angew Math Mech

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Love-type wave propagation in a coated fluid-saturated fractured poro-viscoelastic layer with sliding contacts and point source effect

Pramanik,

Manna,

Şahin

2024

Applied Mathematical Modelling

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Love-like wave fields at the interface of sliding contact with non-local elastic heterogeneous fluid-saturated fractured poro-viscoelastic layer

Pramanik,

Manna

2024

European Journal of Mechanics - A/Solids

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Love‐like wave dispersion in a highly non‐homogeneous viscoelastic orthotropic layer under the effect of non‐local elasticity

Cited by 5 publications

References 54 publications

On different modes of Rayleigh wave fields in a micropolar nonlocal viscoelastic medium

On different modes of Rayleigh wave fields in a micropolar nonlocal viscoelastic medium

Love-type wave propagation in a coated fluid-saturated fractured poro-viscoelastic layer with sliding contacts and point source effect

Love-like wave fields at the interface of sliding contact with non-local elastic heterogeneous fluid-saturated fractured poro-viscoelastic layer

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