基于ANSYS的汽车碰撞模拟

2019 15th International Conference on Electronics, Computer and Computation (ICECCO) Pub Date : 2019-12-01 DOI:10.1109/ICECCO48375.2019.9043275

A. Muhammad, I. H. Shanono

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引用次数: 3

摘要

决定汽车在碰撞时的耐撞性的一个重要因素是它的强度。在设计中，汽车结构应具有通过吸收冲击载荷和降低应力值来保护或减少对驾驶员和车身的损害程度的特性。在碰撞中，汽车的正面更容易受到高能撞击和变形。本文在ANSYS工作台上利用显式动力学方法对某汽车正面碰撞在不同障碍物上的碰撞进行了仿真分析。以初速为35m/s的铝材车体为研究对象，分析了在相同速度和车体结构的情况下，撞击钢壁、静止和运动的汽车时所产生的应力和变形。绘制并分析了三种情况下由于碰撞而产生的应力和变形。两辆移动的汽车之间的碰撞冲击和变形较大，其次是静态车辆，与静态墙壁的碰撞冲击和变形最小。

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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Simulation of a Car crash using ANSYS

An important factor used in determining the crashworthiness of an automobile vehicle during impact is its strength. In designing, a car structure should have the property of protecting or reducing the level of damage done to the driver and the car body, by absorbing the impacted load and reducing the stress values. The frontal side of a car is more liable to high energy impact and deformation during a crash. This paper provides the simulation and analysis of a car frontal crash impact on different barriers using explicit dynamics in ANSYS workbench. A car body of Aluminum materials moving with an initial velocity of 35m/s is used to analyse the developed stress and deformation on impact into a steel material wall, static and a moving car having the same speed and body structure. The developed stress and deformation due to the crash for all the three scenario were plotted and analysed. The collision impact and deformation between two moving cars was found to be higher, followed by a static vehicle, and the least is with the static wall.

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2019 15th International Conference on Electronics, Computer and Computation (ICECCO)

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