Abstract
On the basis of the general solution of the equilibrium equations for an isotropic medium in a spherical coordinate system within the framework of the second variant of the method of perturbation of the shape of the boundary (MZFG), it is obtained taking into account the first three approximations of the solution of the problem of the stress-strain state (SST) of thick layered shells of rotation, limited surfaces with a small amplitude of deviation from spherical ones. According to the analytical solutions, numerical data were obtained, which made it possible to analyze the stress-strain state of the shells under the action of constant or variable axisymmetric (internal and external) pressure. Depending on the geometric parameters of the equations of the non-canonical surfaces of the shells, the effect of the conditions of ideal and non-ideal contact between the layers on the redistribution of stresses is shown compared to the case of a spherical shell with a layered structure (canonical form – zero approximation).
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