Calculation of lamina shells of revolution and plates of orthotropic viscoelastic materials in refined statement

Refined finite-shear theory represents the basis for developing method for analysis of stress-strained state variables of multilayer orthotropic revolution shells made of viscoelastic materials. The method is based on square approximation of deformation and numerical integration in time. The linear viscoelasticity boundary-value problem is solved by numerical method of discrete orthogonalization. Results of computation of laminated plate, cylinder and cylindrical panel made of orthotropic viscoelastic materials as well as three-layered viscoelastic (elliptical, cylindrical and hyperbolical) shells are obtained by the proposed method the Schepery method of quasi-elastic solutions.