Mechanics of Solids
A Journal of Russian Academy of Sciences

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Issues > Archive of Issues > 2024-8 > pp.3949-3967

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Total articles in the database:		13025
In Russian (Изв. РАН. МТТ):		8110
In English (Mech. Solids):		4915

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M.V. Shitikova and K.A. Modestov, "Analysis of Harmonic Wave Propagation in Fractional Derivative Viscoelastic Media Based on Time-Dependent Modulus of the P-Wave," Mech. Solids. 59 (8), 3949-3967 (2024)
Year	2024	Volume	59	Number	8	Pages	3949-3967
DOI	10.1134/S0025654424607079
Title	Analysis of Harmonic Wave Propagation in Fractional Derivative Viscoelastic Media Based on Time-Dependent Modulus of the P-Wave
Author(s)	M.V. Shitikova (Moscow National Research University of Civil Engineering, Moscow, 129337 Russia, ShitikovaMV@mgsu.ru) K.A. Modestov (Moscow National Research University of Civil Engineering, Moscow, 129337 Russia; Voronezh State Technical University, Voronezh, 394006 Russia, ModestovKA@mgsu.ru)
Abstract	In the present paper, harmonic waves propagating in 3D isotropic viscoelastic media are analyzed using the fractional derivative Scott-Blair model, Kelvin-Voigt model, Maxwell model and standard linear solid model. It is known that only the first and second Lamé constants, or the bulk and shear moduli, appear in Hooke’s law for three-dimensional media, but not Young’s modulus or Poisson’s ratio. This indicates that the bulk and Lamé operators are the most intrinsic operators to express stress in terms of strain when studying wave propagation in 3D viscoelastic media. That is why in the present paper, the emphasis is made on the comprehensive analysis of time-dependent operators for Lamé parameters. In so doing, the fractional derivative models are utilized for defining the time-dependent modulus of the P-wave, which governs the velocity of the longitudinal wave. Asymptotic values of the wave velocities, their coefficients of attenuation and logarithmic decrements have been found for the case of absence of bulk relaxation.
Keywords	viscoelastic media, rheological models, fractional derivative, logarithmic decrement of attenuation, dispersion, time-dependent P-wave modulus
Received	15 December 2024	Revised	29 December 2024	Accepted	30 December 2024
Link to Fulltext	https://link.springer.com/article/10.1134/S0025654424607079
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