双向梯度双箭头辅助超材料的低速冲击响应分析

International Journal of Modern Physics B Pub Date : 2024-07-02 DOI:10.1142/s0217979225400363

Xuelin Li, Z. Mo, Shihao Song, Jiahui Lin, Zhuangzhuang Li, Yue Zhou, Jun Li

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摘要

本文提出了具有双向壁厚梯度的双箭头辅助超材料（DAMs）。我们使用经过验证的有限元（FE）模型系统地研究了它们在低速冲击下的挤压行为。结果表明，双向梯度设计有效改善了均匀 DAMs 中观察到的横向颈缩效应。双向梯度配置有助于提高能量吸收和冲击强度。具体来说，与均匀 DAM 相比，比能量吸收（SEA）提高了 60.7%，高原应力提高了 40.5%。此外，双向梯度配置还降低了动态挤压过程中产生的初始峰值应力，并表现出更高的碰撞负载效率（CLE）。

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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Analysis of low-velocity impact responses in bidirectional gradient double-arrow auxetic metamaterials

In this paper, we propose double-arrowed auxetic metamaterials (DAMs) featuring bidirectional wall thickness gradients. Their crushing behavior under low-velocity impact is systematically investigated using a validated finite element (FE) model. The results show that the bidirectional gradient design effectively improves the transverse necking effect observed in uniform DAMs. The bidirectional gradient configuration contributes to improved energy absorption and impact strength. Specifically, there is a 60.7% increase in specific energy absorption (SEA) and a 40.5% improvement in plateau stress, compared to uniform DAMs. Furthermore, the bidirectional gradient configuration reduces the initial peak stresses generated during the dynamic crushing process and exhibits higher crash load efficiency (CLE).

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International Journal of Modern Physics B

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