Elasto-plastic shear behavior of reinforced honeycomb and auxetic reentrant lattices

Millenium - Journal of Education, Technologies, and Health Pub Date : 2018-09-27 DOI:10.29352/MILL0207.07.00179

V. Carneiro, J. Meireles

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引用次数: 2

Abstract

Introduction: Auxetic materials possess a negative Poisson’s ratio. Even though, the existence of isotropic auxetics is theoretically possible, they seem to be absent in natural states thus, there has been an effort to produce artificial auxetics mostly by the design of inverted (reentrant) honeycombs. Objetives: This study explores a novel Reinforced Honeycomb Lattices and Auxetic Reentrant lattices to enhance structural elasto-plastic behaviour in shear deformation. Methods: Finite element analysis (FEA) is used to simulate shear loading in Reinforced Honeycomb and Auxetic Reentrant lattices, while the imposed stress and strains are monitored. Results: Auxetic transformation promotes an increase in shear modulus, however, it generates plastic strains at lower values of shear deformation. However, the closing effect of auxetic materials, tends to reduce the plastic affected area. Conclusions: In this study, a novel generation of Reinforced Honeycomb and Auxetic Reentrant Lattices are presented. Even though, the auxetic transformation generates plastic strain for lower shear deformation regimes, it is able to reduce the areas affected by plasticity and elevate shear stiffness.

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加筋蜂窝和塑性重入格的弹塑性剪切性能

简介:增塑剂具有负泊松比。尽管各向同性的辅助作用在理论上是可能存在的，但它们在自然状态下似乎是不存在的，因此，人们一直在努力制造人工辅助作用，主要是通过设计倒置的(可重入的)蜂巢。目的:本研究探索了一种新型的增强蜂窝格和辅助重入格，以提高结构在剪切变形中的弹塑性性能。方法:采用有限元分析方法，模拟加筋蜂窝和补强再入格的剪切载荷，并监测加筋蜂窝和补强再入格的应力应变。结果:形变相变促进了剪切模量的增加，但在较低的剪切变形值下产生塑性应变。然而，消长材料的闭合效果，往往会减小塑性影响面积。结论:在这项研究中，提出了新一代的增强蜂窝和辅助重入晶格。尽管在较低的剪切变形条件下，塑性转变产生塑性应变，但它能够减少受塑性影响的区域并提高剪切刚度。

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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Millenium - Journal of Education, Technologies, and Health

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