Mathematical modeling and method of determining steady thermoelastic state in multi-layered thermal-sensitive cylinders (Q2808425)

The authors propose a method of obtaining analytical expressions for the description of an axisymmetric stationary thermal field and steady or quasi-steady stress and strain field in long hollow multilayered cylinders made from thermal-sensitive materials. On the bounding cylinder surfaces constant normal loadings and arbitrary classical heat exchange conditions are given. The construction of the solution to the heat conduction problem is reduced to determination of one integration constant by means of which all the other such constants of nonlinear algebraic equation are determined. The thermoelasticity problem is reduced to solution of a system of second kind integral Volterra equations with corresponding integral conditions. The application of the proposed method of solving the system of integral equations allows one to obtain formulas for the stress-strain state characteristics as functions of temperature, mass forces, layer thickness and surface loads and as the dependencies of mechanical properties of material layers on the temperature.