Suspension parameters for low-damped carbody oscillation of high-speed railway vehicle

Joonhyuk Park
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Abstract

This study presents an optimization method to design the suspension properties associated with low-damped carbody oscillations for high-speed railway vehicles. In this method, the least damping ratio for the low-frequency modes in the entire service speed range and the critical speed for a worn wheel are proposed for the design objectives. Based on the linearized vehicle model, a genetic algorithm is applied to determine the optimal suspension properties to maximize the least damping ratio while maintaining the critical speed above the desired speed. The optimization results show that the proposed method can enhance lateral ride comfort by eliminating the region where the least damping ratio of the carbody mode decreases excessively and securing a constant for the entire service speed range. The least damping ratio was improved from approximately 5.7% to 15.6% and the critical for the worn wheel increased from approximately 430 to 499 km/h. Parametric studies are conducted to investigate the influence of the tolerances of the suspension properties, and the results provide useful information regarding the manufacture of suspension elements and assembly of the bogie system. The validity of the optimized suspension properties is verified from the simulation results using railway vehicle dynamics software.
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高速铁路车辆低阻尼车体振荡的悬挂参数
本研究提出了一种优化方法,用于设计与高速铁路车辆低阻尼车体振荡相关的悬挂特性。在该方法中,为设计目标提出了整个服务速度范围内低频模式的最小阻尼比和磨损车轮的临界速度。在线性化车辆模型的基础上,应用遗传算法确定最佳悬挂性能,以最大限度地提高最小阻尼比,同时保持临界速度高于所需的速度。优化结果表明,所提出的方法可以消除车身模式最小阻尼比过度减小的区域,并确保在整个服务速度范围内保持恒定,从而提高横向乘坐舒适性。最小阻尼比从大约 5.7% 提高到 15.6%,磨损车轮的临界值从大约 430 公里/小时提高到 499 公里/小时。进行了参数研究,以调查悬挂特性公差的影响,结果为悬挂元件的制造和转向架系统的组装提供了有用的信息。使用铁路车辆动力学软件的模拟结果验证了优化悬挂特性的有效性。
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