考虑气动力非线性时二维受热壁板的颤振分析
FLUTTER ANALYSIS OF TWO DIMENSIONAL HEATED PANELS CONSIDERING NONLINEAR AERODYNAMIC
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摘要: 考虑了气动力非线性,采用三阶活塞理论计算气动力,基于Von Karman 薄板理论建立了超音速气流中二维受热薄板的气动弹性方程。采用Galerkin 方法在模态空间对方程进行了离散,分析了气动力非线性对壁板热屈曲和颤振幅值的影响,采用Lyapunov 间接法分析了受热壁板的稳定性,并确定了壁板颤振边界。采用数值积分方法在时域内求解了壁板的非线性颤振响应,发现了壁板的各种动力学现象,如衰减运动、极限环运动以及混沌运动等。Abstract: Considering nonlinear aerodynamic, the aero-elastic equation in supersonic flow is constructed by applying the third piston theory based on Von Karman's nonlinear panel theory. Then the equation is scattered in modal space by Galerkin method. The influence of thermal buckling amplitude and flutter amplitude by nonlinear aerodynamic is analyzed. The stability of heated panels and the boundary of flutter is determined using Lyapunov indirect method. The nonlinear flutter responses of the heated panel are numerically simulated in time domain. The results show that there are complex dynamic phenomenons such as convergent motion, limit cycle oscillation and chaotic motion.