基于顶点的分层辅助蜂窝的平面内动态挤压行为

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Yichen Zan, Xiuhui Hou, Zichen Deng
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引用次数: 0

摘要

具有负泊松比(NPR)效应的磁性超材料已在许多工程领域得到广泛应用。然而,它们的高孔隙率不可避免地削弱了其承载能力和抗冲击性。为了提高辅助蜂窝的能量吸收效率,我们设计了一种新颖的基于顶点的分层星形蜂窝(VSH),将经典星形蜂窝(SSH)中的每个顶点替换为新添加的自相似子单元。建立了一个分析模型来研究 VSH 的杨氏模量,该模型与实验结果和数值模拟结果显示出良好的一致性。研究了 VSH 在三种不同破碎速度下的面内动态破碎行为,并推导出了致密化应变和高原应力的经验公式。数值结果表明,由于增加了自相似星形子单元,VSH 的变形模式更加稳定。此外,在相同的相对密度下,与 SSH 相比,VSH 表现出更好的比能量吸收和更高的高原应力。因此,VSH 被证实是在保持辅助效应的同时吸收能量的更好选择。这项研究有望为辅助蜂窝提供一种新的设计策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

In-Plane Dynamic Crushing Behaviors of a Vertex-Based Hierarchical Auxetic Honeycomb

In-Plane Dynamic Crushing Behaviors of a Vertex-Based Hierarchical Auxetic Honeycomb

Auxetic metamaterials, which exhibit the negative Poisson’s ratio (NPR) effect, have found wide applications in many engineering fields. However, their high porosity inevitably weakens their bearing capacity and impact resistance. To improve the energy absorption efficiency of auxetic honeycombs, a novel vertex-based hierarchical star-shaped honeycomb (VSH) is designed by replacing each vertex in the classical star-shaped honeycomb (SSH) with a newly added self-similar sub-cell. An analytical model is built to investigate the Young’s modulus of VSH, which shows good agreement with experimental results and numerical simulations. The in-plane dynamic crushing behaviors of VSH at three different crushing velocities are investigated, and empirical formulas for the densification strain and plateau stress are deduced. Numerical results reveal more stable deformation modes for VSH, attributed to the addition of self-similar star-shaped sub-cells. Moreover, compared with SSH under the same relative densities, VSH exhibits better specific energy absorption and higher plateau stresses. Therefore, VSH is verified to be a better candidate for energy absorption while maintaining the auxetic effect. This study is expected to provide a new design strategy for auxetic honeycombs.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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