摘要
文章以某轻型货车驱动桥为基础,运用Solidworks软件建立前梁、转向节、转向摇臂等部件三维模型并对其进行优化,采用Solidworks三维软件simulation插件对前梁和转向节建立有限元模型,并对前梁和转向节在紧急制动工况和侧滑工况下施加载荷作用,得到各工况下的应力、应变和位移云图。结果表明:该前桥既满足强度和刚度要求,同时又具有良好的驾控性能。
This article takes the driving axle of a light truck as a model,establishes a three-dimensional model of the front beam,steering knuckle,steering rocker arm and other components in Solidworks,and optimizes them.The Solidworks three-dimensional software simulation plugin is used to establish a grid for the front beam and steering knuckle,and loads are applied to the front beam and steering knuckle under emergency braking and side slip conditions.Thus the stress,strain,and displacement cloud maps under each working condition can be obtained.The results indicate that the front axle not only meets the requirements of strength and stiffness but also has good driving performance.
作者
郑永杰
闫小军
王振兴
高宇晗
Zheng Yongjie;Yan Xiaojun;Wang Zhenxing;Gao Yuhan(Hebei Institute ofArchitecture and Engineering,Zhangjiakou,Hebei 075000,China)
出处
《邢台职业技术学院学报》
2023年第5期100-104,共5页
Journal of Xingtai Polytechnic College
关键词
载货汽车
有限元仿真分析
前梁
转向节
truck
finite element simulation analysis
front beam
steering knuckle
