4D printed zero Poisson's ratio metamaterial with switching function of mechanical and vibration isolation performance

4D printed zero Poisson's ratio metamaterial with switching function of mechanical and vibration isolation performance

The unusual properties of mechanical metamaterials are determined by the configuration of artificial periodic structures. However, the mechanical performance of conventional metamaterials is irreversible and cannot perceive and respond to the changes in the environment. In present study, a zero Pois...

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Main Authors: Kai Liu, Le Han, Wenxia Hu, Longtao Ji, Shengxin Zhu, Zhishuai Wan, Xudong Yang, Yuling Wei, Zongjie Dai, Zeang Zhao, Zhen Li, Pengfei Wang, Ran Tao
Format: Article
Language:English
Published: Elsevier 2020-11-01
Series:Materials & Design
Subjects:
4D printing
Shape memory behavior
Metamaterial
Vibration isolation
Online Access:http://www.sciencedirect.com/science/article/pii/S0264127520306882
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spelling doaj-cad00ce59479465b8c67d644616f3f3d2020-11-25T04:07:38ZengElsevierMaterials & Design0264-12752020-11-011961091534D printed zero Poisson's ratio metamaterial with switching function of mechanical and vibration isolation performanceKai Liu0Le Han1Wenxia Hu2Longtao Ji3Shengxin Zhu4Zhishuai Wan5Xudong Yang6Yuling Wei7Zongjie Dai8Zeang Zhao9Zhen Li10Pengfei Wang11Ran Tao12Institute of Advanced Structure Technology, Beijing Institute of Technology, Beijing 100081, ChinaBeijing Electro-mechanical Engineering Institute, Beijing 100074, ChinaInstitute of Advanced Structure Technology, Beijing Institute of Technology, Beijing 100081, ChinaDepartment of Mechanics and Engineering Structure, Wuhan University of Technology, Wuhan 430070, ChinaInstitute of Advanced Structure Technology, Beijing Institute of Technology, Beijing 100081, China; Corresponding authors.Institute of Advanced Structure Technology, Beijing Institute of Technology, Beijing 100081, China; Corresponding authors.Institute of Advanced Structure Technology, Beijing Institute of Technology, Beijing 100081, ChinaInstitute of Advanced Structure Technology, Beijing Institute of Technology, Beijing 100081, ChinaInstitute of Advanced Structure Technology, Beijing Institute of Technology, Beijing 100081, ChinaInstitute of Advanced Structure Technology, Beijing Institute of Technology, Beijing 100081, ChinaQian Xuesen Laboratory of Space Technology, China Academy of Space Technology, Beijing 100094, ChinaQian Xuesen Laboratory of Space Technology, China Academy of Space Technology, Beijing 100094, ChinaInstitute of Advanced Structure Technology, Beijing Institute of Technology, Beijing 100081, China; Corresponding authors.The unusual properties of mechanical metamaterials are determined by the configuration of artificial periodic structures. However, the mechanical performance of conventional metamaterials is irreversible and cannot perceive and respond to the changes in the environment. In present study, a zero Poisson's ratio metamaterial with intelligent switching mechanical properties and vibration isolation effect is proposed. Based on a 4D printing method of shape memory polymer, this metamaterial is created that can sense temperature changes and switch mechanical properties. The macroscopic deformation and the morphology change of the metamaterial during compression tests are analyzed using experimental and finite element methods. The irregular buckling distortion of the metamaterial is eliminated by cylindrical design, and controllable and adjustable local deformation and stress-strain curve are achieved based on microstructure gradient design. Subsequently, this work focused on the vibration isolation performance of metamaterials, and found fascinating shock absorption performance. Compared with traditional linear spring, this metamaterial spring can effectively reduce the vibration amplitude of certain frequency bands before reaching the resonance peak, which provides a new realization method for low-frequency vibration isolation design.http://www.sciencedirect.com/science/article/pii/S02641275203068824D printingShape memory behaviorMetamaterialVibration isolation
collection DOAJ
language English
format Article
sources DOAJ
author Kai Liu
Le Han
Wenxia Hu
Longtao Ji
Shengxin Zhu
Zhishuai Wan
Xudong Yang
Yuling Wei
Zongjie Dai
Zeang Zhao
Zhen Li
Pengfei Wang
Ran Tao
spellingShingle Kai Liu
Le Han
Wenxia Hu
Longtao Ji
Shengxin Zhu
Zhishuai Wan
Xudong Yang
Yuling Wei
Zongjie Dai
Zeang Zhao
Zhen Li
Pengfei Wang
Ran Tao
4D printed zero Poisson's ratio metamaterial with switching function of mechanical and vibration isolation performance
Materials & Design
4D printing
Shape memory behavior
Metamaterial
Vibration isolation
author_facet Kai Liu
Le Han
Wenxia Hu
Longtao Ji
Shengxin Zhu
Zhishuai Wan
Xudong Yang
Yuling Wei
Zongjie Dai
Zeang Zhao
Zhen Li
Pengfei Wang
Ran Tao
author_sort Kai Liu
title 4D printed zero Poisson's ratio metamaterial with switching function of mechanical and vibration isolation performance
title_short 4D printed zero Poisson's ratio metamaterial with switching function of mechanical and vibration isolation performance
title_full 4D printed zero Poisson's ratio metamaterial with switching function of mechanical and vibration isolation performance
title_fullStr 4D printed zero Poisson's ratio metamaterial with switching function of mechanical and vibration isolation performance
title_full_unstemmed 4D printed zero Poisson's ratio metamaterial with switching function of mechanical and vibration isolation performance
title_sort 4d printed zero poisson's ratio metamaterial with switching function of mechanical and vibration isolation performance
publisher Elsevier
series Materials & Design
issn 0264-1275
publishDate 2020-11-01
description The unusual properties of mechanical metamaterials are determined by the configuration of artificial periodic structures. However, the mechanical performance of conventional metamaterials is irreversible and cannot perceive and respond to the changes in the environment. In present study, a zero Poisson's ratio metamaterial with intelligent switching mechanical properties and vibration isolation effect is proposed. Based on a 4D printing method of shape memory polymer, this metamaterial is created that can sense temperature changes and switch mechanical properties. The macroscopic deformation and the morphology change of the metamaterial during compression tests are analyzed using experimental and finite element methods. The irregular buckling distortion of the metamaterial is eliminated by cylindrical design, and controllable and adjustable local deformation and stress-strain curve are achieved based on microstructure gradient design. Subsequently, this work focused on the vibration isolation performance of metamaterials, and found fascinating shock absorption performance. Compared with traditional linear spring, this metamaterial spring can effectively reduce the vibration amplitude of certain frequency bands before reaching the resonance peak, which provides a new realization method for low-frequency vibration isolation design.
topic 4D printing
Shape memory behavior
Metamaterial
Vibration isolation
url http://www.sciencedirect.com/science/article/pii/S0264127520306882
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