STUDY ON TENSILE MECHANICAL BEHAVIOR OF X-TYPE RE-ENTRANT HONEYCOMB STRUCTURE

WANG Liang; LIU HaiTao

doi:10.16579/j.issn.1001.9669.2020.04.021

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STUDY ON TENSILE MECHANICAL BEHAVIOR OF X-TYPE RE-ENTRANT HONEYCOMB STRUCTURE

更新时间：2022-09-22

- STUDY ON TENSILE MECHANICAL BEHAVIOR OF X-TYPE RE-ENTRANT HONEYCOMB STRUCTURE
- Journal of Mechanical Strength Vol. 42, Issue 4, Pages: 896-900(2020)
- 作者机构：
  
  1. 河北工业大学机械工程学院
- 作者简介：
- 基金信息：
- DOI：10.16579/j.issn.1001.9669.2020.04.021
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WANG Liang, LIU HaiTao. STUDY ON TENSILE MECHANICAL BEHAVIOR OF X-TYPE RE-ENTRANT HONEYCOMB STRUCTURE. [J]. 42(4):896-900(2020)
DOI：

WANG Liang, LIU HaiTao. STUDY ON TENSILE MECHANICAL BEHAVIOR OF X-TYPE RE-ENTRANT HONEYCOMB STRUCTURE. [J]. 42(4):896-900(2020) DOI： 10.16579/j.issn.1001.9669.2020.04.021.

摘要

基于内凹机制,将星型和内凹六边形的微结构相结合,设计一种新型内凹蜂窝结构模型(简称X型结构)。针对该结构模型,给出了其相对密度,以达到轻量化的目的。采用有限元软件Abaqus对该结构进行轴向拉伸力学行为研究,得到了该结构的尖端内凹角、单元壁厚度、外夹角以及材料属性对等效弹性模量和泊松比的变化规律。数值结果表明:影响结构的重要因素是外夹角,随着外夹角在一定范围内的增加,使得其等效弹性模量和泊松比随之增大,在外夹角达到约67°时,该结构为零泊松比结构;当单元壁厚度越大,结构的负泊松比效应越明显,等效弹性模量也越来越大;当尖端内凹角越小,负泊松比效应越强。该研究结果可为新型负泊松结构的优化设计提供新的借鉴思路。

Abstract

Based on the re-entrant mechanism,the microstructure of the star and the re-entrant hexagon is combined. This paper designs a new re-entrant honeycomb structure model（X-shaped structure）. For the structure model,the relative density is given to achieve the purpose of weight reduction. The axial tensile mechanical behavior of the structure is studied by finite element software ABAQUS. Tip re-entrant angle,the variation of cell wall thickness,external angle and material properties on effective elastic modulus and Poisson’s ratio are obtained. The numerical results show that the important factor of affecting the structure is the external angle. With the increase of the external angle,the effective elastic modulus and Poisson’s ratio will increase. When the external angle reaches about 67°,the structure is zero Poisson’s ratio structure. Meanwhile,with the increase of the cell wall thickness,the negative Poisson’s ratio effect of the structure is more obvious,and the effective elastic modulus is also larger. When the tip angle is smaller,the negative Poisson’s ratio effect is stronger. The results can be provided a new reference for the optimization design of the new negative Poisson structure.

关键词

负泊松比内凹蜂窝结构力学性能轻质结构

Keywords

Negative Poisson ’s ratioRe-entrant honeycomb structureMechanical propertiesLightweight structure

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