一种描述减振器滞回特性的Bouc–Wen改进模型

An improved Bouc –Wen model for describing hysteretic characteristics of shock absorbers

  • 摘要: Bouc–Wen模型在非识别激励工况下模拟的阻尼力与实际阻尼力误差较大,对非识别激励振幅过于敏感,针对这一问题,提出了一种描述减振器滞回特性的改进模型。首先用Mechanical testing and simulation(MTS)疲劳试验机对磁流变减振器进行力学性能试验,获得在多种激励幅值、频率和电流作用下的阻尼力。采用阻尼力对位移的斜率与阻尼力关系来模拟滞回环特性曲线。根据滞回曲线特点利用二次多项式函数来表征滞回环斜率与阻尼力的关系,同时,引入关于速度的指数函数修正项,进而对改进后的Bouc–Wen模型进行参数识别,并对其进行仿真及验证。与试验得到的阻尼力进行对比,发现在非识别激励工况下,曲线吻合效果较好。对改进前后Bouc–Wen模型模拟的阻尼力特性曲线进行对比,结果表明:改进后模型得到的阻尼力仿真值能够较好地模拟试验得到的各种工况下阻尼力的值,且优于Bouc–Wen模型,同时Bouc–Wen模型在非识别激励工况下模拟阻尼力精度较差这一问题得到了改善。新模型为保证车辆悬架系统在多变工况下仿真响应的准确性打下了基础。

     

    Abstract: The error between the actual damping force and the simulated damping force obtained using the Bouc–Wen model under non-identification excitation conditions is large, and the model is too sensitive to non-identification excitation amplitude and thus features poor accuracy. To solve this sensitivity problem, an improved model describing hysteretic characteristics of shock absorbers was proposed. Firstly, the mechanical properties of a magnetorheological (MR) damper were tested to obtain the damping force under various excitation amplitudes, frequencies and currents using a mechanical testing and simulation(MTS) fatigue testing machine. The smooth hysteresis loop curve was simulated based on the relationship between the slope of the hysteresis loop and the damping force. The quadratic polynomial function was used to characterize the relationship between the slope of hysteresis loop and the damping force according to the hysteresis curve characteristics. At the same time, the revision term of the exponential function for the velocity value was introduced, and the parameters of the established improved Simulink model were identified. The damping forces under different working conditions were obtained from the experiment, and the new model was simulated and validated. The damping forces obtained from new model and the experiment were compared, and the curves obtained from the model agree well with the experimental results under different working conditions. Meanwhile, the improved model was compared with the Bouc–Wen model based on the characteristic curves of the damping force. The results show that the improved model can better simulate the damping force values obtained from tests under different conditions, and is superior to the Bouc–Wen model. At the same time, the problem of poor accuracy of the Bouc–Wen model under non identification excitation conditions was improved. The new model lays the foundation for ensuring the accuracy of the vehicle suspension system response under various working conditions.

     

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