Multiobjective optimization of dimension and position of elliptical crush initiator on crashworthiness performance of square tube using response surface methodology

IF 2 Q2 ENGINEERING, MECHANICAL

Frontiers in Mechanical Engineering Pub Date : 2023-10-06 DOI:10.3389/fmech.2023.1273447

M. Hafid, Jos Istiyanto, Nasruddin Nasruddin

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Abstract

In this study, the crashworthiness performance of a thin-walled square steel-tube structure with an elliptical crush initiator under impact loading was investigated. The effect of the height, width, and distance of the crush initiator from the top of the tube on the crashworthiness performance was analyzed using several numerical simulations using ABAQUS Explicit. The response surface methodology was used to predict the crashworthiness performance indices, and optimization was performed to determine the optimal dimensions and position of the crush initiator. The optimization was aimed at minimizing the peak force (PF) while maximizing the mean crushing force (MCF), crush force efficiency (CFE), and specific energy absorption (SEA). The result was an elliptical crush initiator with a height of 15 mm, width of 24.784 mm, and distance of 15.08 mm. Validation was performed to verify these results. The optimal crush initiator effect resulted in a 10.12% decrease in the peak force, 13.67% increase in the crush force efficiency, and 2.23% increase in the mean crushing force. However, a slight decrease of 0.82% in specific energy absorption was observed.

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用响应面法对方形管耐撞性能进行椭圆型碰撞起爆器尺寸和位置的多目标优化

在冲击载荷作用下，研究了带有椭圆破碎起爆剂的薄壁方钢管结构的耐撞性能。利用ABAQUS Explicit软件进行了数值模拟，分析了破碎起爆点的高度、宽度和距管顶的距离对耐撞性能的影响。采用响应面法预测碰撞性能指标，并进行优化，确定碰撞引发剂的最佳尺寸和位置。优化的目标是最小化峰值力(PF)，同时最大化平均破碎力(MCF)、破碎力效率(CFE)和比能吸收(SEA)。得到了高15 mm、宽24.784 mm、距离15.08 mm的椭圆型粉碎引发器。对这些结果进行了验证。最佳破碎引发剂效果使破碎力峰值降低10.12%，破碎力效率提高13.67%，平均破碎力提高2.23%。但比能吸收略有下降0.82%。

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