Abstract
We propose a method for the determination of the thermal stressed state of elastic bodies of revolution made of functionally graded materials. The formulation of the mathematical problem contains a thermal loading. A numerical algorithm for the solution of the corresponding problem is developed and realized for the problems of heat conduction and thermoelasticity. The thermoelastic state of a hollow cylinder is computed for a given mode of heating and different heat-conduction coefficients, elasticity moduli, specific heat capacities, and linear coefficients of thermal expansion. These results enable us to plot the graphic dependences of the thermal stressed state of a hollow cylinder.
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