Low-velocity impact of square conical gradient aluminium foam-filled automobile energy-absorbing boxes

IF 1.8 4区 工程技术 Q3 ENGINEERING, MANUFACTURING
Xiwei Wu, Jing Zhang, Jianxun Zhang, Rui He, Qimin Liu
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Abstract

AbstractIn this paper, the low-velocity impact and lightweight design of the square conical gradient aluminium foam-filled automobile energy-absorbing boxes (EABes) is numerically studied. Firstly, the validity of the finite element calculation model is verified by comparing with the experimental results. Then, the influences of the conical bottom angle, tube-wall thickness, the number, position, height and depth of induction grooves, and the parameters of gradient foam on the energy absorption properties of the EABes under axial low-velocity impact are studied. After that, the mitigation and energy absorption of square conical gradient aluminium foam-filled automobile EAB are optimised. The results indicate that the aluminium tube-wall thickness has no obvious effect on improving the energy absorption properties of the EAB, and other factors have good effects on improving the energy absorption properties of the EAB. Compared with the constant cross-section EAB before optimisation, the peak impact force (Fmax) of the finally optimised square conical gradient aluminium foam-filled automobile EAB reduces by 22.4%, and the specific energy absorption (SEA) increases by 59.8%. The investigation is helpful for the design of the square conical gradient aluminium foam-filled automobile EAB.Keywords: Conical automobile energy-absorbing boxgradient aluminium foamlow-velocity impactlightweight design Disclosure statementNo potential conflict of interest was reported by the authors.Data availability statementThe authors attest that all data for this study are included in the paper.Additional informationFundingThe authors are grateful for their financial support through NSFC (12272290 and 11872291), Foundation of State Key Laboratory of Automotive Simulation and Control (20210206), the State Key Laboratory of Automotive Safety and Energy under Project No. KFY2202.
方形锥形梯度泡沫铝填充汽车吸能箱的低速冲击
摘要本文对方形锥形梯度泡沫铝填充汽车吸能箱的低速冲击及轻量化设计进行了数值研究。首先,通过与试验结果的对比,验证了有限元计算模型的有效性。然后,研究了锥形底角、管壁厚度、感应槽数量、位置、高度和深度以及梯度泡沫参数对轴向低速冲击下EABes吸能性能的影响。在此基础上,对方形锥形梯度泡沫铝填充汽车EAB的减振和吸能进行了优化。结果表明,铝管壁厚度对提高EAB的吸能性能没有明显影响,其他因素对提高EAB的吸能性能有较好的影响。与优化前的等截面泡沫铝填充汽车EAB相比,优化后的方形锥形梯度泡沫铝填充汽车EAB的峰值冲击力(Fmax)降低了22.4%,比能量吸收(SEA)提高了59.8%。研究结果可为方形锥形梯度泡沫铝填充汽车EAB的设计提供参考。关键词:锥形汽车吸能箱梯度铝泡沫低速冲击轻量化设计披露声明作者未报告潜在利益冲突数据可用性声明作者保证本研究的所有数据均包含在论文中。作者感谢国家自然科学基金(12272290和11872291)、汽车仿真与控制国家重点实验室基金(20210206)、汽车安全与能源国家重点实验室(项目No. 1)的资助。KFY2202。
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
International Journal of Crashworthiness
International Journal of Crashworthiness 工程技术-工程:机械
CiteScore
3.70
自引率
10.50%
发文量
72
审稿时长
2.3 months
期刊介绍: International Journal of Crashworthiness is the only journal covering all matters relating to the crashworthiness of road vehicles (including cars, trucks, buses and motorcycles), rail vehicles, air and spacecraft, ships and submarines, and on- and off-shore installations. The Journal provides a unique forum for the publication of original research and applied studies relevant to an audience of academics, designers and practicing engineers. International Journal of Crashworthiness publishes both original research papers (full papers and short communications) and state-of-the-art reviews. International Journal of Crashworthiness welcomes papers that address the quality of response of materials, body structures and energy-absorbing systems that are subjected to sudden dynamic loading, papers focused on new crashworthy structures, new concepts in restraint systems and realistic accident reconstruction.
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