期刊
NONLINEAR DYNAMICS
卷 95, 期 3, 页码 1903-1921出版社
SPRINGER
DOI: 10.1007/s11071-018-4667-2
关键词
Non-continuous elastic boundary; Geometrically nonlinear; Laminated cylindrical shells
资金
- China Natural Science Funds [51575093]
- Fundamental Research Funds for the Central Universities [N160313001, N170308028]
The geometrically nonlinear forced vibration response of non-continuous elastic-supported laminated composite thin cylindrical shells is investigated in this paper. Two kinds of non-continuous elastic supports are simulated by using artificial springs, which are point and arc constraints, respectively. By using a set of Chebyshev polynomials as the admissible displacement function, the nonlinear differential equation of motion of the shell subjected to periodic radial point loading is obtained through the Lagrange equations, in which the geometric nonlinearity is considered by using Donnell's nonlinear shell theory. Then, these equations are solved by using the numerical method to obtain nonlinear amplitude-frequency response curves. The numerical results illustrate the effects of spring stiffness and constraint range on the nonlinear forced vibration of points-supported and arcs-supported laminated composite cylindrical shells. The results reveal that the geometric nonlinearity of the shell can be changed by adjusting the values of support stiffness and distribution areas of support, and the values of circumferential and radial stiffness have a more significant influence on amplitude-frequency response than the axial and torsional stiffness.
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