Assessment of Risky Cornering on a Horizontal Road Curve by Improving Vehicle Suspension Performance

The Baltic Journal of Road and Bridge Engineering Pub Date : 2021-12-28 DOI:10.7250/bjrbe.2021-16.537

V. Žuraulis, Vytenis Surblys

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引用次数: 2

Abstract

Vehicle stability during cornering on horizontal road curves is a risky stage of travel because of additional factors acting. The main stability factor is centrifugal force, which depends on road curve sharpness and is very sensitive to driving speed usually controlled by the driver. However, the counterforce is produced at tire-road interaction, where different pavement types and states cause a wide variation of tire contact forces and vehicle stability. In the paper, the part of vehicle suspension performance while moving on a sharp horizontal road curve with different levels of pavement roughness was simulated by 14 degrees of freedom vehicle model. The model was built in MATLAB/Simulink software with available pavement roughness selection according to ISO 8608. The influence of variable suspension damping available in modern vehicles on risky cornering is analysed when a vehicle reaches the edge of the pavement with its specific roughness. Critical parameters of vehicle stability depending on road curvature, pavement roughness and driving speed are selected to assess the solutions for safe cornering.

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基于改进车辆悬架性能的水平弯道危险转弯评估

由于其他因素的作用，车辆在水平弯道转弯时的稳定性是一个危险的行驶阶段。主要的稳定因素是离心力，离心力取决于道路曲线的锐度，并且对驾驶员通常控制的行驶速度非常敏感。然而，反作用力是在轮胎-道路相互作用中产生的，不同的路面类型和状态会导致轮胎接触力和车辆稳定性的很大变化。本文采用14自由度车辆模型，模拟了车辆在不同路面平整度的急转弯路面上行驶时的部分悬架性能。在MATLAB/Simulink软件中建立模型，并根据ISO 8608提供路面粗糙度选择。分析了当车辆到达具有特定粗糙度的路面边缘时，现代车辆可用的可变悬架阻尼对危险转弯的影响。选取道路曲率、路面平整度和车速等车辆稳定性关键参数，评估安全转弯方案。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Baltic Journal of Road and Bridge Engineering

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