Conservative numerical method for solving static linear boundary value problems of elastic shells of revolution

In this paper, we propose an algorithm for constructing a conservative numerical scheme for solving boundary value problems for linear Hamiltonian systems with an arbitrary finite-order approximation to the exact solution. Application of the algorithm expressed in high-level languages allowed us to develop the program for calculating the stress-strain state of a thin multilayered anisotropic shell of revolution. The results of calculations of real shells made of composite materials are presented.