D. A. Gubaidullin, Yu. V. Fedorov, “Acoustic waves in a liquid with gas inclusions containing a liquid layer and a viscoelastic shell”, TVT, 59:4 (2021), 533–540; High Temperature, 60:1, Suppl. 1 (2022), S44

Teplofizika vysokikh temperatur

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Teplofizika vysokikh temperatur, 2021, Volume 59, Issue 4, Pages 533–540
DOI: https://doi.org/10.31857/S0040364421040128 (Mi tvt11314)

This article is cited in 7 scientific papers (total in 7 papers)

Heat and Mass Transfer and Physical Gasdynamics

Acoustic waves in a liquid with gas inclusions containing a liquid layer and a viscoelastic shell

D. A. Gubaidullin, Yu. V. Fedorov

Research Institute of Mechanics and Machinery of Kazan Scientific Center of the Russian Academy of Sciences

Full-text PDF (665 kB) Citations (7)

DOI: https://doi.org/10.31857/S0040364421040128

Abstract: In this study, a modified Rayleigh–Lamb equation is derived that takes into account the radial oscillations of a gas bubble covered with a viscoelastic shell and an inner thin liquid layer is distributed. For the case of small perturbations, a dispersion equation is found that takes into account the interfacial heat transfer between the gas, liquid layer, viscoelastic shell, and carrier fluid. An analytical expression for the equilibrium speed of sound is written out, and its dependence on the dimensions of the liquid layer, viscoelastic shell, and frequency of perturbations is established. The difference in the size of the inner liquid layer in shell bubble on the dynamics of acoustic waves is illustrated. The influence of the dependences of the shear modulus and viscosity of butyl rubber on the frequency of perturbations at different temperatures on the curves of the phase velocity and damping coefficient is shown. The theory is compared with the experimental data.

Funding agency	Grant number
Russian Science Foundation	20-11-20070
This study was supported by a grant from the Russian Science Foundation, project no. 20-11-20070.

Received: 28.12.2019
Revised: 26.05.2020
Accepted: 18.06.2020

English version:
High Temperature, 2022, Volume 60, Issue 1, Suppl. 1, Pages S44–S51
DOI: https://doi.org/10.1134/S0018151X2104012X

Bibliographic databases:

Document Type: Article

UDC: 532.529:534.2

Language: Russian

Citation: D. A. Gubaidullin, Yu. V. Fedorov, “Acoustic waves in a liquid with gas inclusions containing a liquid layer and a viscoelastic shell”, TVT, 59:4 (2021), 533–540; High Temperature, 60:1, Suppl. 1 (2022), S44–S51

Citation in format AMSBIB

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\by D.~A.~Gubaidullin, Yu.~V.~Fedorov

\paper Acoustic waves in a~liquid with gas inclusions containing a~liquid layer and a~viscoelastic shell

\jour TVT

\yr 2021

\vol 59

\issue 4

\pages 533--540

\mathnet{http://mi.mathnet.ru/tvt11314}

\crossref{https://doi.org/10.31857/S0040364421040128}

\elib{https://elibrary.ru/item.asp?id=46558750}

\transl

\jour High Temperature

\yr 2022

\vol 60

\issue 1, Suppl. 1

\pages S44--S51

\crossref{https://doi.org/10.1134/S0018151X2104012X}

Linking options:

https://www.mathnet.ru/eng/tvt11314

https://www.mathnet.ru/eng/tvt/v59/i4/p533

This publication is cited in the following 7 articles:

I. K. Gimaltdinov, M. V. Stolpovskii, E. Yu. Kochanova, “Acoustic Probing of Underwater Ejections”, J Eng Phys Thermophy, 2024
D. A. Gubaidullin, Yu. V. Fedorov, “Wave dynamics of perfluorocarbon droplets in a viscoelastic liquid”, High Temperature, 61:3 (2023), 402–408
P. A. Chuprov, P. S. Utkin, S. V. Fortova, A. D. Kiverin, “Numerical simulation of the interaction of a shock wave with a foam layer using a two-fluid approach”, High Temperature, 61:3 (2023), 409–416
A. Yu. Varaksin, TVT, 61:6 (2023), 926–948
A. Yu. Varaksin, “Hydrogasdynamics and Thermal Physics of Two-Phase Flows with Solid Particles, Droplets, and Bubbles”, High Temp, 61:6 (2023), 852
Damir A. Gubaidullin, Dilya D. Gubaidullina, Yuri V. Fedorov, “Mathematical Modeling of the Wave Dynamics of an Encapsulated Perfluorocarbon Droplet in a Viscoelastic Liquid”, Mathematics, 11:5 (2023), 1083
D. A. Gubaidullin, K. A. Panin, Yu. V. Fedorov, “Acoustics of a Liquid with Droplets Covered by a Shell in the Presence of Phase Transitions”, Fluid Dyn, 57:4 (2022), 459

Citing articles in Google Scholar: Russian citations, English citations
Related articles in Google Scholar: Russian articles, English articles

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