Nonlinear dynamical bifurcation and chaotic motion of shallow conical lattice shell
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- 作者:Xin-zhi Wang ; Ming-jun Han ; Yan-ying Zhao and Yong-gang Zhao
- 关键词:lattice shell ; the method of quasi ; shell ; bifurcation ; chaotic motion
- 刊名:Applied Mathematics and Mechanics
- 出版年:2006
- 出版时间:May, 2006
- 年:2006
- 卷:27
- 期:5
- 页码:661-666
- 全文大小:178 KB
文摘
The nonlinear dynamical equations of axle symmetry are established by the method of quasi-shells for three-dimensional shallow conical single-layer lattice shells. The compatible equations are given in geometrical nonlinear range. A nonlinear differential equation containing the second and the third order nonlinear items is derived under the boundary conditions of fixed and clamped edges by the method of Galerkin. The problem of bifurcation is discussed by solving the Floquet exponent. In order to study chaotic motion, the equations of free oscillation of a kind of nonlinear dynamics system are solved. Then an exact solution to nonlinear free oscillation of the shallow conical single-layer lattice shell is found as well. The critical conditions of chaotic motion are obtained by solving Melnikov functions, some phase planes are drawn by using digital simulation proving the existence of chaotic motion.