Non-stationary axially symmetric goal of thermo-elasticity for a fixed rigid circular multi-layer plate

Shlyakhin, D. A.

doi:10.1051/matecconf/201711700156

MATEC Web Conf.

2017

DOI: 10.1051/matecconf/201711700156

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Non-stationary axially symmetric goal of thermo-elasticity for a fixed rigid circular multi-layer plate

D. A. Shlyakhin

Abstract: Abstract. This paper considers axially symmetric goal of thermoselasticity for a fixed rigid circular multi-layer isotropic plate with nonstationary heat flows on its front faces. The mathematical model is presented in the form of a not self-adjoint system that includes differential motion equations and a linear equation of the thermal-elastic state in a three-dimensional model. A new closed solution in an unconnected setting is built by the method of finite integral transformation. At the same time, a standar… Show more

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Analyzing calculation results of non-stationary axisymmetric thermoelasticity task for a circular isotropic plate

Shlyahin

2018

MATEC Web Conf.

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The paper releases results of numerical calculation of axisymmetric dynamic thermoelasticity task for a fixed circular isotropic plate in case of temperature change on its front faces (boundary conditions of the 1st type). The calculated ratios are obtained by using the GL-theory of thermoelasticity (classical theory), which determines the dependence of the vector of heat flux on the velocity of change and temperature gradient. The mathematical model of the task in question includes differential equations of axisymmetric motion and thermal conductivity, formulated as regard to the component of the movement vector and the function of temperature change. Not self-adjoint system is investigated independently. For its solution, a mathematical apparatus technique of separation of variable in the form of finite integral transformations is used, that is transformations of Fourier, Hankel and generalized integral transformation (GIT). The constructed calculation ratios give an opportunity to define stress and strain state and character of distribution of a thermal field of rigidly fixed circular plate with arbitrary axially symmetrical temperature external influence. It is shown, that elastic inertial characteristics of a plate influence the law of change of movement over time only while investigating very thin plates at high-speed temperature impact.

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Analyzing calculation results of non-stationary axisymmetric thermoelasticity task for a circular isotropic plate

Shlyahin

2018

MATEC Web Conf.

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Non-stationary axially symmetric goal of thermo-elasticity for a fixed rigid circular multi-layer plate

Cited by 1 publication

References 9 publications

Analyzing calculation results of non-stationary axisymmetric thermoelasticity task for a circular isotropic plate

Analyzing calculation results of non-stationary axisymmetric thermoelasticity task for a circular isotropic plate

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