悬架模型对铁道车辆车体垂向振动特性仿真的影响

IF 1.9 Q3 ENGINEERING, MECHANICAL
Vibration Pub Date : 2023-07-04 DOI:10.3390/vibration6030032
M. Dumitriu, Ioana Izabela Apostol, D. I. Stănică
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引用次数: 2

摘要

基于数值模拟结果评价铁道车辆车体的振动特性,要求采用合适的悬架理论模型,考虑影响车体振动水平的重要因素。本文基于加速度频响函数、加速度功率谱密度和加速度均方根的数值模拟结果,研究了二次悬架模型对轨道车辆车体垂直振动特性的影响。基于七自由度刚柔耦合车辆模型,开发了相应的车身振动模式:弹跳、俯仰和第一次垂直弯曲模式,以及转向架振动模式:弹跳和俯仰的数值模拟应用程序。将四种不同的二次悬架模型集成到整车模型中,即一个参考模型和四个分析模型。分析模型包括将转向架的俯仰振动传递给车体从而影响车体振动行为的系统,以及以车体与转向架之间的相对角位移为参数的系统和以转向架与车体之间的纵向力传递为参数的系统。分别分析了这两种系统对轨道车辆车体振动特性的影响,并对其进行了综合分析。在本文的结论中,指出了二级悬架模型对车体垂直弯曲和转向架俯仰共振频率下振动水平的影响。强调了转向架与车体之间的纵向力传递系统在将转向架的俯仰振动传递给车体中所起的重要作用,从而对高速行驶时车体的振动水平产生影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Influence of the Suspension Model in the Simulation of the Vertical Vibration Behavior of the Railway Vehicle Car Body
The evaluation of the vibration behavior of railway vehicle car bodies based on the results of numerical simulations requires the adoption of an appropriate theoretical model of the suspension which considers the important factors that influence the vibration level of the car body. In this paper, the influence of the secondary suspension model on the vertical vibration behavior of the railway vehicle car body is investigated, based on the results of numerical simulations on the frequency response functions of the acceleration, the power spectral density of the acceleration and the root mean square of the acceleration of the car body. Numerical simulation applications are developed based on a rigid-flexible coupled vehicle model with seven degrees of freedom, corresponding to car body vibration modes: bounce, pitch, and first vertical bending mode, and bogie vibration modes: bounce and pitch. Four different models of secondary suspension are integrated into the vehicle model, namely a reference model and four analysis models. Analysis models include systems through which the pitch vibration of the bogies is transmitted to the car body, influencing its vibration behavior and, respectively, a system that takes the relative angular displacement between the car body and the bogie and a system that models the transmission system of the longitudinal forces between the bogie and the car body are analyzed. The effects of these two systems on the vibration behavior of the railway vehicle car body are analyzed both for each system separately and together. In the conclusions of the paper, the influence of the secondary suspension model on the vibration level at the resonance frequencies of the vertical bending of the car body and the pitch of the bogie is pointed out. It also highlights the important contribution of the transmission system of the longitudinal forces between the bogie and the car body in transmitting pitch vibrations of the bogies to the car body, with effects on the vibration level of the car body at high speeds.
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CiteScore
3.20
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