一种新型麦克弗森支撑悬架系统的运动学与动力学分析

Q3 Engineering Mechanics and Mechanical Engineering Pub Date : 2018-12-01 DOI:10.2478/mme-2018-0094

S. Dehbari, J. Marzbanrad

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引用次数: 5

摘要

摘要本文对汽车前悬架系统进行了运动学和动力学分析。所研究的模型是一个全尺寸麦克弗森多体系统。本文考虑两自由度模型，用位移矩阵来表示簧载质量和非簧载质量的垂直位移。乘程和操纵参数包括簧载和非簧载质量的位移、弧度/脚轮角以及轨道变化。并用Adams/Car软件对几何模型和方程进行了验证。在分析和数值输出中比较了运动学和动力学结果，以进行验证。该分析模型与复杂的多体模型差异小于5%。

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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Kinematic and Dynamic Analysis for a New MacPherson Strut Suspension System

Abstract The present paper undertakes kinematic and dynamic analysis of front suspension system. The investigated model is a full-scale Macpherson which is a multibody system. Two degree of freedom model is considered here to illustrate the vertical displacement of sprung mass and unsprung mass with using displacement matrix. Ride and handling parameters including displacement of sprung and unsprung masses, camber/caster angle, and track changes are derived from the relationships. Moreover, geometrical model and equations are validated by Adams/Car software. The kinematic and dynamic results have been compared in both analytical and numerical outputs for verification. The proposed analytical model shows less than 5% differences with a complicated multibody model.

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Mechanics and Mechanical Engineering Engineering-Automotive Engineering

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