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Investigation of the Stress-Strain State of a Rectangular Plate after a Temperature Shock

Author

Listed:
  • A. V. Sedelnikov

    (Institute of Aerospace Engineering of Samara National Research University, 34 Moskovskoye Shosse, 443086 Samara, Russia)

  • D. I. Orlov

    (Institute of Aerospace Engineering of Samara National Research University, 34 Moskovskoye Shosse, 443086 Samara, Russia)

  • V. V. Serdakova

    (Institute of Aerospace Engineering of Samara National Research University, 34 Moskovskoye Shosse, 443086 Samara, Russia)

  • A. S. Nikolaeva

    (Institute of Aerospace Engineering of Samara National Research University, 34 Moskovskoye Shosse, 443086 Samara, Russia)

Abstract

In this paper, the temperature shock phenomenon is considered. This phenomenon occurs during the operation of engineering structures on Earth and in outer space. A rectangular plate has been selected as a structural element exposed to temperature shock. It has a rigidly sealed edge and three free edges. A one-dimensional third initial boundary value problem of thermal conductivity was posed and solved to study the stress–strain state of the plate. Fourier’s law was used to solve this problem, taking into account the inertial term, since the temperature shock is a fairly fast-dynamic phenomenon. It was believed that all the thermophysical properties of the plate are constant and do not depend on its temperature. As a result, the temperature field of the plate was obtained after the temperature shock. This temperature field generates temperature stresses inside the plate, which lead to temperature deformations. To determine these deformations, the initial boundary value problem of thermoelasticity was posed and solved in this work. The Sophie Germain equation was used while solving this problem. To describe the plate, the theory of flexible plates was used, taking into account the stresses in the middle surface of the plate. Next, the accuracy of analytical solutions for the points displacement of a homogeneous plate subjected to a temperature shock was investigated. The temperature field was constructed using a numerical simulation. Functions of the displacement vector components were obtained using approximate analytical solutions. The accuracy of approximate analytical solutions for the components of the plate points deformation vector was estimated. The obtained results allow us to describe the stress–strain state of the plate after the temperature shock. The results of this work can be used in the design of engineering structures for both terrestrial and space purposes in terms of stability calculations and the implementation of deformation constraints.

Suggested Citation

  • A. V. Sedelnikov & D. I. Orlov & V. V. Serdakova & A. S. Nikolaeva, 2023. "Investigation of the Stress-Strain State of a Rectangular Plate after a Temperature Shock," Mathematics, MDPI, vol. 11(3), pages 1-12, January.
    • Handle: RePEc:gam:jmathe:v:11:y:2023:i:3:p:638-:d:1047874
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    References listed on IDEAS

    as
    1. Aatef Hobiny & Ibrahim Abbas, 2022. "The Effects of Variable Thermal Conductivity in Thermoelastic Interactions in an Infinite Material with and without Kirchhoff’s Transformation," Mathematics, MDPI, vol. 10(22), pages 1-14, November.
    2. Qiang Li & Tubing Yin & Xibing Li & Ronghua Shu, 2021. "Experimental and Numerical Investigation on Thermal Damage of Granite Subjected to Heating and Cooling," Mathematics, MDPI, vol. 9(23), pages 1-15, November.
    3. Tareq Saeed & Ibrahim A. Abbas, 2021. "The Effect of Fractional Time Derivative on Two-Dimension Porous Materials Due to Pulse Heat Flux," Mathematics, MDPI, vol. 9(3), pages 1-14, January.
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