Mechanics of Solids
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Issues > Archive of Issues > 2018-1 > pp.1-11

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Total articles in the database:		12804
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A.A. Burenin, L.V. Kovtanyuk, and G.L. Panchenko, "Deformation and Heating of an Elastoviscoplastic Cylindrical Layer Moving Owing to a Varying Pressure Drop," Mech. Solids. 53 (1), 1-11 (2018)

Year

2018

Volume

Number

Pages

1-11

DOI

10.3103/S0025654418010016

Title

Deformation and Heating of an Elastoviscoplastic Cylindrical Layer Moving Owing to a Varying Pressure Drop

Author(s)

A.A. Burenin (Institute of Machinery and Metallurgy of the Far East Branch of the Russian Academy of Sciences, ul. Metallurgov 1, Komsomolsk-on-Amur, 681005 Russia)
L.V. Kovtanyuk (Institute for Automation and Control Processes of the Far East Branch of the Russian Academy of Sciences, ul. Radio 5, Vladivostok, 690041 Russia)
G.L. Panchenko (Institute of Machinery and Metallurgy of the Far East Branch of the Russian Academy of Sciences, ul. Metallurgov 1, Komsomolsk-on-Amur, 681005 Russia; Vladivostok State University of Economics and Service, ul. Gogolya 41, Vladivostok, 690014 Russia, panchenko.21@yandex.ru)

Abstract

Within the framework of the theory of large elastoplastic deformations generalized to the case of viscous and thermophysical properties of materials, we give a solution of a sequence of coupled problems on the onset and development of a flow in a material layer filling the gap between two rigid coaxial cylindrical surfaces under increasing pressure drop and on the subsequent flow deceleration under decreasing pressure gradient. Here the thermophysical and deformation processes are coupled, and the yield stress depends on temperature. Heat production due to the layer material friction against the rough cylindrical boundary surfaces is taken for an additional heat source.

Keywords

elasticity, plasticity, viscosity, heat conduction, large deformations

References

1.	I. G. Sapchenko, S. G. Zhilin, and O. N. Komarov, Control of the Structure and Properties of Porous Combined Removable Models (Dal'nauka, Vladivostok, 2007) [in Russian].
2.	A. A. Burenin, L. V. Kovtanyuk, and G. L. Panchenko, "Modeling of Large Elastoviscoplastic Deformations with Thermophysical Effects Taken into Account," Izv. Ross. Akad. Nauk. Mekh. Tverd. Tela, No. 4, 107-121 (2010) [Mech. Solids (Engl. Transl.) 45 (4), 583-594 (2010)].
3.	L. V. Kovtanyuk, G. L. Panchenko, and A. S. Ustinova, "Rectilinear and Viscosimetric Flows of Elastoviscoplastic Materials and the Possibility of Accounting for Thermo-Physical Effects in Them," Vestnik Nizhegorod. Univ im. N.I. Lobachevskogo, No. 4, 2244-2246 (2011).
4.	A. A. Burenin, L. V. Kovtanyuk, and G. L. Panchenko, "Development and Deceleration of Viscoplastic Flow in a Layer Heated by Friction on a Rough Plane," Zh. Prikl. Mekh. Tekhn. Fiz., No. 4 (56), 101-111 (2015) [J. Appl. Mech. Tech. Phys. (Engl. Transl.) 56 (4), 626-635 (2015)].
5.	A. A. Burenin, L. V. Kovtanyuk, and G. L. Panchenko, "Nonisothermal Motion of an Elastoviscoplastic Medium through a Pipe under a Changing Pressure Drop," Dokl. Ross. Akad. Nauk 464 (3), 284-287 (2015) [Dokl. Phys. (Engl. Transl.) 60 (9), 419-422 (2015)].
6.	A. A. Burenin, L. V. Kovtanyuk, and G. L. Panchenko, "The Motion of an Elastoplastic Medium in a Circular Tube Heated Due to Boundary Friction," Prikl. Mat. Mekh. 80 (2), 265-275 (2016) [J. Appl. Math. Mech. (Engl. Transl.) 80 (2), 190-197 (2016)].
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8.	L. V. Kovtanyuk, "Simulation of Large Elastoplastic Strains in the Nonisothermal Case," Dal'nevost. Mat. Zh. 5 (1), 107-117 (2004).
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12.	G. I. Bykovtsev and T. D. Semykina, "On Viscoplastic Flow of Circular Plates and Shells of Revolution," Izv. Akad. Nauk SSSR. Mekh. Mashinostr., No. 4, 68-76 (1964).
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Received

04 May 2017

Link to Fulltext

https://link.springer.com/article/10.3103/S0025654418010016

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