Optimization of Energy Absorption and Deformation Characteristics of Aluminium Crash Box with the Effect of Groove along with a Screw

Q3 Engineering

SAE Technical Papers Pub Date : 2023-11-10 DOI:10.4271/2023-28-0089

Vignesh SK, Jaikumar Mayakrishnan, Peter König

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引用次数: 0

Abstract

The Crash box is the mechanical component that absorbs the impact energy by axial deformation. When an accident occurs, energy absorption and deformation play a vital role in the Automobile safety aspects, and also grooves and triggers are the ones included in the crash box for axial folding and uniform deformation. Here in this research paper, the energy absorption of kinetic energy and deformation parameter is going to be compared with the crash box with the groove at different thicknesses, also the groove is added through the vertical axis along with axial crush occurs. The modeling is done in Hyper mesh 2021 and the simulation and result validation in LS Dyna. The primary goal of this research project is to increase the crash box’s efficiency and enhance the crashworthiness and the passive safety of the passenger vehicle. It is also observed that the groove plays a vital role in reducing the acceleration transmitted to the surrounding area. The box sleeve with screw run through the groove first which almost absorbs 20% of impact energy and the remaining will be absorbed during full axial folding of the crash box. The rupture will happen along with the failure of the grooves when the screw moves, thus improving the energy absorption in the crash box, this kind of screw-type crash box was also easy to replace after the collision. Further, this simulation result will be compared with the crash box without a groove. The improvisation of crashworthiness in the crumple zone of the passenger car is the primary goal of this research. The research findings provide a valuable reference for the design of crash box constructions.

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考虑螺旋槽效应的铝碰撞箱吸能及变形特性优化

<div class="section abstract"><div class="htmlview段落"> Crash box是通过轴向变形吸收冲击能量的机械部件。当发生事故时，能量吸收和变形对汽车安全起着至关重要的作用，而碰撞箱中包含的沟槽和触发器是用于轴向折叠和均匀变形的。在本文中，我们将对具有不同厚度槽的碰撞箱的动能吸收和变形参数进行比较，并在发生轴向挤压时通过垂直轴添加槽。在Hyper mesh 2021中进行建模，在LS Dyna中进行仿真和结果验证。本课题研究的主要目标是提高碰撞箱的效率，提高乘用车的耐撞性和被动安全性。还观察到凹槽在减少传递到周围区域的加速度方面起着至关重要的作用。带螺杆的箱套首先穿过槽，几乎吸收了20%的冲击能量，剩余的冲击能量将在碰撞箱的全轴向折叠时被吸收。当螺杆运动时，随着凹槽的失效而发生破裂，从而提高了碰撞箱内的能量吸收，这种螺杆式碰撞箱在碰撞后也易于更换。并将仿真结果与无槽碰撞箱进行比较。乘用车皱缩区耐撞性的即时性是本研究的主要目标。研究结果为碰撞箱结构的设计提供了有价值的参考。

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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来源期刊

SAE Technical Papers Engineering-Industrial and Manufacturing Engineering

CiteScore

1.00

自引率

0.00%

发文量

1487

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