圆柱壳填充凹六边形结构在多种载荷下的耐撞性能

IF 1.2 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY

Frattura ed Integrita Strutturale Pub Date : 2023-06-22 DOI:10.3221/igf-esis.65.10

Andre Hartawan Mettanadi, A. Prabowo, B. Kusharjanta, T. Muttaqie, Fajar Budi Laksono, H. Nubli

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引用次数: 0

摘要

安全抗冲击性是指材料通过受控失效机制吸收冲击能量的能力。碰撞安全结构的能量吸收越大，防止主体结构由于撞击而变形的安全性就越大。在本研究中，进行了数值验证、网格收敛性研究和多载荷工况研究，以研究轴向载荷下的碰撞阻力。数值验证结果表明，本研究与参考文献的相似度达到95%。由于输入材料性质不同，会出现5%的偏差。结果表明，作为填充元件的凹六边形比传统的空心管具有更大的能量吸收能力，并且凹六边形结构越多，能量吸收越好。本研究中进行了斜压，因此样品在低角度下具有良好的抗冲击性，在20°等高角度下没有影响。

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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Crashworthiness performance of the designed concave hexagonal structures as filler element in cylindrical shell in multiple load cases

Safety Impact resistance is defined as the ability of a material to absorb impact energy through controlled failure mechanism. The greater the energy absorption by the crash safety structure, the greater the safety in preventing deformation of the main structure due to impact. In this study, numerical validation, mesh convergence studies and multiple load case studies were performed to investigate crash resistance under axial loading. Numerical validation results show that the similarity between this study and the reference reaches 95%. A deviation of 5% occurs due to different input material properties. The results show that the concave hexagons as filling elements have greater energy absorption capacity than conventional hollow tubes, and the more concave hexagonal structures, the better the energy absorption. Oblique compression was performed in this study and as a result the sample has good impact resistance at low angles and no effect at high angles like 20°.

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