Three-dimensional meta-architecture with programmable mechanical properties

IF 4.5 3区材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY

International Journal of Smart and Nano Materials Pub Date : 2022-01-02 DOI:10.1080/19475411.2022.2051640

Qiangqiang Zhang, J. Dong, Yantang Zhao, Yueyan Zheng

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引用次数: 2

Abstract

ABSTRACT Artificial metamaterials have attracted widespread attention of research communities due to their anomalous physical properties compared to those of conventional materials. In this study, we designed a three-dimensional (3D) lightweight meta-architecture consisting of 6-connected anti-chiral honeycombs. The mechanical properties (e.g. Young’s modulus, compression strength, and Poisson’s ratio) of the proposed meta-architecture could be programmed by adjusting a series of geometric parameters, as shown through numerical simulations. Moreover, an optically sensitive polymer-based 3D meta-architecture with 6-connected anti-chiral features was constructed by the stereolithography method. Owing to the regulation of the negative Poisson’s ratio, 3D meta-architecture achieved a greater ductility under compression than those of traditional truss structures while retaining a relatively high strength and low density. Compression experiments validated the excellent tunability of the mechanical properties of the proposed 3D 6-connected anti-chiral structure. The results suggest the promising applications of this structure in lightweight aircraft, vibration isolation, and mechanical sensors Graphical Abstract

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具有可编程力学性能的三维元架构

摘要人工超材料由于其与传统材料相比具有异常的物理特性，引起了研究界的广泛关注。在这项研究中，我们设计了一个由6个连接的反手性蜂窝组成的三维（3D）轻量级元架构。所提出的元结构的机械性能（例如杨氏模量、压缩强度和泊松比）可以通过调整一系列几何参数来编程，如数值模拟所示。此外，通过立体光刻方法构建了具有6连接反手性特征的基于光学敏感聚合物的三维元结构。由于负泊松比的调节，三维元结构在保持相对高强度和低密度的同时，获得了比传统特拉斯结构更大的压缩延性。压缩实验验证了所提出的3D6-连接反手性结构的机械性能的优异可调性。结果表明，该结构在轻型飞机、隔振和机械传感器方面有着广阔的应用前景

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来源期刊

International Journal of Smart and Nano Materials MATERIALS SCIENCE, MULTIDISCIPLINARY-

CiteScore

6.30

自引率

5.10%

发文量

审稿时长

11 weeks

期刊介绍： The central aim of International Journal of Smart and Nano Materials is to publish original results, critical reviews, technical discussion, and book reviews related to this compelling research field: smart and nano materials, and their applications. The papers published in this journal will provide cutting edge information and instructive research guidance, encouraging more scientists to make their contribution to this dynamic research field.