Auxetic frame with programmable strength and stiffness: Design, investigation and perspective

Wei Jiang; Xue Gang Zhang; Yi Zhang; Dong Han; Yi Min Xie; Xin Ren

doi:10.1016/j.conbuildmat.2023.133478

Auxetic frame with programmable strength and stiffness: Design, investigation and perspective

Wei Jiang, Xue Gang Zhang, Yi Zhang, Dong Han, Yi Min Xie, Xin Ren

School of Civil Engineering

Research output: Contribution to journal › Article › peer-review

12 Scopus citations

Abstract

To broaden the family of available matrices for auxetic composites, an auxetic TPU frame with cubic matrix cases is proposed, tested, and optimized. Quasi-static compression was applied to the new structure to investigate its mechanical performance. Verified finite element models were established for demonstrating the programmable strength and stiffness. Except for traditional materials that can be portably filled into auxetic frames, aluminum cubic tubes, as an instance of multiple matrixes, were filled into the frame. The newly fabricated auxetic composite structure was also tested experimentally. Besides, a section on multi-functional perspective and potential applications were given at the end to better illustrate the proposed structure in practice. The optimized auxetic frame can be used alone or with multiple strengthening matrixes in many aspects including energy absorbers and smart sensors.

Original language	English
Article number	133478
Journal	Construction and Building Materials
Volume	407
DOIs	https://doi.org/10.1016/j.conbuildmat.2023.133478
State	Published - 1 Dec 2023

Keywords

Auxetic
Composite structure
Energy absorption
Mechanical metamaterials
Negative Poisson's ratio
Programmable properties

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10.1016/j.conbuildmat.2023.133478

Cite this

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title = "Auxetic frame with programmable strength and stiffness: Design, investigation and perspective",

abstract = "To broaden the family of available matrices for auxetic composites, an auxetic TPU frame with cubic matrix cases is proposed, tested, and optimized. Quasi-static compression was applied to the new structure to investigate its mechanical performance. Verified finite element models were established for demonstrating the programmable strength and stiffness. Except for traditional materials that can be portably filled into auxetic frames, aluminum cubic tubes, as an instance of multiple matrixes, were filled into the frame. The newly fabricated auxetic composite structure was also tested experimentally. Besides, a section on multi-functional perspective and potential applications were given at the end to better illustrate the proposed structure in practice. The optimized auxetic frame can be used alone or with multiple strengthening matrixes in many aspects including energy absorbers and smart sensors.",

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author = "Wei Jiang and Zhang, {Xue Gang} and Yi Zhang and Dong Han and Xie, {Yi Min} and Xin Ren",

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T2 - Design, investigation and perspective

AU - Jiang, Wei

AU - Zhang, Xue Gang

AU - Zhang, Yi

AU - Han, Dong

AU - Xie, Yi Min

AU - Ren, Xin

PY - 2023/12/1

Y1 - 2023/12/1

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AB - To broaden the family of available matrices for auxetic composites, an auxetic TPU frame with cubic matrix cases is proposed, tested, and optimized. Quasi-static compression was applied to the new structure to investigate its mechanical performance. Verified finite element models were established for demonstrating the programmable strength and stiffness. Except for traditional materials that can be portably filled into auxetic frames, aluminum cubic tubes, as an instance of multiple matrixes, were filled into the frame. The newly fabricated auxetic composite structure was also tested experimentally. Besides, a section on multi-functional perspective and potential applications were given at the end to better illustrate the proposed structure in practice. The optimized auxetic frame can be used alone or with multiple strengthening matrixes in many aspects including energy absorbers and smart sensors.

KW - Auxetic

KW - Composite structure

KW - Energy absorption

KW - Mechanical metamaterials

KW - Negative Poisson's ratio

KW - Programmable properties

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VL - 407

JO - Construction and Building Materials

JF - Construction and Building Materials

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Auxetic frame with programmable strength and stiffness: Design, investigation and perspective

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Keywords

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