建立了叶片-转子-轴承系统模型,并分析了考虑非线性油膜力作用下系统的弯扭耦合运动。为了考虑叶片弯曲变形的影响,将叶片模化为悬臂梁结构,利用假设模态法进行离散求解,通过Lagrange方法建立系统的运动方程,运用Runge-Kutta法对所得动力学方程进行数值求解,最终通过对分岔图、三维谱图、相图和Poincaré映射的分析,得到了叶片-转子-轴承系统中蕴含的各种复杂非线性动力学行为。通过与不考虑叶片的转子-轴承系统进行比较,指出叶片的弯曲振动使系统的不稳定区域提前,并在某些转速下激起系统的混沌运动。 The model of the blade-rotor-bearing system is established, and the bending-torsional coupling movement of the system is analyzed considering the nonlinear oil film force. In order to consider the effect of blade bending deformation, the blade was modeled as a cantilever beam structure. The model was solved by using the modal method. The Lagrange method was used to establish the equations of motion. The Runge-Kutta method was used to solve the dynamic equations. Finally, By analyzing bifurcation diagrams, three-dimensional spectra, phase diagrams and Poincaré maps, various complex nonlinear dynamic behaviors in the blade-rotor-bearing system are obtained. By comparing with the rotor-bearing system which does not consider the blade, it is pointed out that the bending vibration of the blade advances the instability area of ​​the system and causes the chaotic motion of the system at certain rotational speeds.