DINAMICHESKAYA REAKTSIYA POLOGO MAGNITOUPRUGOGO TSILINDRA V ZHIDKOSTI PRI IMPUL'SNOM VOZBUZHDENII.

I. T. Selezov; V. A. Tkachenko

DINAMICHESKAYA REAKTSIYA POLOGO MAGNITOUPRUGOGO TSILINDRA V ZHIDKOSTI PRI IMPUL'SNOM VOZBUZHDENII.

Translated title of the contribution: Dynamic Response of a Hollow Magnetoelastic Cylinder in a Liquid Under Pulse Excitation.

I. T. Selezov, V. A. Tkachenko

Department of Mathematics

Research output: Contribution to journal › Article › peer-review

Abstract

A hollow magnetoelastic cylinder located in a homogeneous longitudinal magnetic field and loaded on the inside with an axisymmetric mechanical pressure of pulse type is studied for its stress state and radiation into the external liquid medium. Inner and outer media - nonconducting compressible - have different densities and elasticity moduli, their motion is described by wave equations. The hollow cylinder is supposed to be ideally conducting and its motion is described by a linearized system of magnetoelasticity equations; conjugation conditions are satisfied on inner and outer interfaces. The problem is solved by the method of the Laplace integral time transformation originals are determined by the numerical transformation. Time histories of tangential and radial stresses and radial rates of interfaces are analyzed.

Translated title of the contribution	Dynamic Response of a Hollow Magnetoelastic Cylinder in a Liquid Under Pulse Excitation.
Original language	Russian
Pages (from-to)	108-110
Number of pages	3
Journal	Problemy Prochnosti
Issue number	9
State	Published - 1 Sep 1986

ASJC Scopus subject areas

Mechanics of Materials

Cite this

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title = "DINAMICHESKAYA REAKTSIYA POLOGO MAGNITOUPRUGOGO TSILINDRA V ZHIDKOSTI PRI IMPUL'SNOM VOZBUZHDENII.",

abstract = "A hollow magnetoelastic cylinder located in a homogeneous longitudinal magnetic field and loaded on the inside with an axisymmetric mechanical pressure of pulse type is studied for its stress state and radiation into the external liquid medium. Inner and outer media - nonconducting compressible - have different densities and elasticity moduli, their motion is described by wave equations. The hollow cylinder is supposed to be ideally conducting and its motion is described by a linearized system of magnetoelasticity equations; conjugation conditions are satisfied on inner and outer interfaces. The problem is solved by the method of the Laplace integral time transformation originals are determined by the numerical transformation. Time histories of tangential and radial stresses and radial rates of interfaces are analyzed.",

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year = "1986",

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language = "רוסית",

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AU - Tkachenko, V. A.

PY - 1986/9/1

Y1 - 1986/9/1

N2 - A hollow magnetoelastic cylinder located in a homogeneous longitudinal magnetic field and loaded on the inside with an axisymmetric mechanical pressure of pulse type is studied for its stress state and radiation into the external liquid medium. Inner and outer media - nonconducting compressible - have different densities and elasticity moduli, their motion is described by wave equations. The hollow cylinder is supposed to be ideally conducting and its motion is described by a linearized system of magnetoelasticity equations; conjugation conditions are satisfied on inner and outer interfaces. The problem is solved by the method of the Laplace integral time transformation originals are determined by the numerical transformation. Time histories of tangential and radial stresses and radial rates of interfaces are analyzed.

AB - A hollow magnetoelastic cylinder located in a homogeneous longitudinal magnetic field and loaded on the inside with an axisymmetric mechanical pressure of pulse type is studied for its stress state and radiation into the external liquid medium. Inner and outer media - nonconducting compressible - have different densities and elasticity moduli, their motion is described by wave equations. The hollow cylinder is supposed to be ideally conducting and its motion is described by a linearized system of magnetoelasticity equations; conjugation conditions are satisfied on inner and outer interfaces. The problem is solved by the method of the Laplace integral time transformation originals are determined by the numerical transformation. Time histories of tangential and radial stresses and radial rates of interfaces are analyzed.

UR - https://www.scopus.com/pages/publications/0022778152

M3 - מאמר

AN - SCOPUS:0022778152

SN - 0556-171X

SP - 108

EP - 110

JO - Problemy Prochnosti

JF - Problemy Prochnosti

IS - 9

ER -

DINAMICHESKAYA REAKTSIYA POLOGO MAGNITOUPRUGOGO TSILINDRA V ZHIDKOSTI PRI IMPUL'SNOM VOZBUZHDENII.

Abstract

ASJC Scopus subject areas

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