Influence of conical shells geometric characteristics on their dynamic stability
DOI:
https://doi.org/10.32347/2410-2547.2019.103.235-242Keywords:
natural frequencies, forced oscillations, dynamic stability, conical shell, curvilinear grids method, parameter continuation method, Newton-Kantorovich methodAbstract
The influence of geometrical characteristics on the stability of established oscillations conical shells under the action of uniformly distributed longitudinal loads periodic in time is studied. The stability problem of nonlinear forced vibrations shells is formed on the basis of a modified finite-difference method of curvilinear grids, which allowed the transition from vector ordinary differential relations to a nonlinear system of equations. The solution of the system is constructed using the method of continuation the solution by parameter in combination with the Newton-Kantorovich method. At each step the implementation of the computational algorithm, the values of the determinants the matrix of linearized equations corresponding to symmetric or cyclically symmetric vibration modes are analyzed. The criterion for the conical shells loss of the dynamic stability was a change in the sign of the corresponding determinant or a change in the number of positive and negative diagonal elements of the matrix of linearized equations. The critical value of the dynamic load characterized the level of its intensity with the loss of stability of the shells.
The features of the oscillatory motion and loss forms of conical shells stability are revealed. The critical values of the longitudinal loads are determined. The dependence of the critical values of the load intensity on the frequency of steady oscillations with varying geometric parameters of the conical shell is investigated.
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