Analytical method for determining the stationary thermal fields in layered structures
Journal Title: Вісник Тернопільського національного технічного університету - Year 2015, Vol 77, Issue 1
Abstract
The method of two-dimensional thermal stationary fields’ calculation in multilayer plates is proposed. Thermal fields are considered periodical along spatial value. The temperature of the upper and lower limits is described by pair periodic functions with similar periods. Continuity condition of thermal field and thermal flow equality is realized within layer limits. Found temperatures of the layers are expressed in trigonometric series cosines. There are two free constants of differential equations solution about amplitude to every layer and harmonic. The method of compliance matrices is proposed for realizing conditions within layer limits. Two auxiliary sequences are introduced for every layer. These sequences are connected with temperature and thermal flow on the upper layer limit. They realize thermal field distribution within layer. The author proved that the elements of one of these sequences are expressed by the elements of another sequence in this layer, and appropriate coefficient of Fourier series of the lower plate limit. Recurrence relations are built for the coefficients of these dependences. These dependences allow calculating the coefficients in accordance with geometrical and physical properties of the plate’s layers, beginning with the lower one. Algorithm of task solution is stated. The author stresses that if the functions describing the upper and lower plate’s limits spread out into the complete Fourier series, then the proposed method provides accurate task solution for any complete quantity of layers. The main advantage of this method is that its labor coefficient rises slowly with layer growth. The results of numerical experiments show the influence of geometrical and physical parameters on the heat distribution in a two-layer plate. Just shows graphs constructed for different conditions at the external borders of the plate. Influence of heat conductivity factor changing in the middle layer of three-dimensional plate on heat distribution within plate is analyzed. Three-dimensional temperature graphs are built. The conclusion has been drawn.
Authors and Affiliations
Svitlana Boyko, Olena Velichko
Keywords
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