Aluminum foam-filled auxetic double tubular structures: Design and characteristic study

Xi Hai Ni; Xue Gang Zhang; Dong Han; Yi Zhang; Wei Jiang; Xing Chi Teng; Jian Hao; Xin Ren

doi:10.1080/15376494.2023.2175397

Aluminum foam-filled auxetic double tubular structures: Design and characteristic study

Xi Hai Ni, Xue Gang Zhang, Dong Han, Yi Zhang, Wei Jiang, Xing Chi Teng, Jian Hao, Xin Ren

School of Civil Engineering

Nanjing Tech University

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

24 Scopus citations

Abstract

In this work, a double tubular structure consisting of auxetic tubular structures and aluminum foam was proposed. The mechanical properties of the aluminum foam-filled auxetic tubular structures and aluminum foam-filled conventional tubes under uniaxial compression were compared numerically and experimentally. Compared with conventional aluminum foam-filled tubular structures (FFT), aluminum foam-filled auxetic double tubular structures (FFADT) have stable compression deformation and superior energy absorption because of stronger interaction between the aluminum foam and the auxetic tube. Although the FFADT exhibits lower bearing capacity but overcomes the shortcomings of larger peak force and larger load fluctuation that usually occurs in conventional tubes.

Original language	English
Pages (from-to)	3377-3388
Number of pages	12
Journal	Mechanics of Advanced Materials and Structures
Volume	31
Issue number	15
DOIs	https://doi.org/10.1080/15376494.2023.2175397
State	Published - 2024

Keywords

Auxetic
aluminum foam-filled tube
double tube
energy absorption
mechanical metamaterials

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10.1080/15376494.2023.2175397

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title = "Aluminum foam-filled auxetic double tubular structures: Design and characteristic study",

abstract = "In this work, a double tubular structure consisting of auxetic tubular structures and aluminum foam was proposed. The mechanical properties of the aluminum foam-filled auxetic tubular structures and aluminum foam-filled conventional tubes under uniaxial compression were compared numerically and experimentally. Compared with conventional aluminum foam-filled tubular structures (FFT), aluminum foam-filled auxetic double tubular structures (FFADT) have stable compression deformation and superior energy absorption because of stronger interaction between the aluminum foam and the auxetic tube. Although the FFADT exhibits lower bearing capacity but overcomes the shortcomings of larger peak force and larger load fluctuation that usually occurs in conventional tubes.",

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T1 - Aluminum foam-filled auxetic double tubular structures

T2 - Design and characteristic study

AU - Ni, Xi Hai

AU - Zhang, Xue Gang

AU - Han, Dong

AU - Zhang, Yi

AU - Jiang, Wei

AU - Teng, Xing Chi

AU - Hao, Jian

AU - Ren, Xin

PY - 2024

Y1 - 2024

N2 - In this work, a double tubular structure consisting of auxetic tubular structures and aluminum foam was proposed. The mechanical properties of the aluminum foam-filled auxetic tubular structures and aluminum foam-filled conventional tubes under uniaxial compression were compared numerically and experimentally. Compared with conventional aluminum foam-filled tubular structures (FFT), aluminum foam-filled auxetic double tubular structures (FFADT) have stable compression deformation and superior energy absorption because of stronger interaction between the aluminum foam and the auxetic tube. Although the FFADT exhibits lower bearing capacity but overcomes the shortcomings of larger peak force and larger load fluctuation that usually occurs in conventional tubes.

AB - In this work, a double tubular structure consisting of auxetic tubular structures and aluminum foam was proposed. The mechanical properties of the aluminum foam-filled auxetic tubular structures and aluminum foam-filled conventional tubes under uniaxial compression were compared numerically and experimentally. Compared with conventional aluminum foam-filled tubular structures (FFT), aluminum foam-filled auxetic double tubular structures (FFADT) have stable compression deformation and superior energy absorption because of stronger interaction between the aluminum foam and the auxetic tube. Although the FFADT exhibits lower bearing capacity but overcomes the shortcomings of larger peak force and larger load fluctuation that usually occurs in conventional tubes.

KW - Auxetic

KW - aluminum foam-filled tube

KW - double tube

KW - energy absorption

KW - mechanical metamaterials

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M3 - 文章

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SN - 1537-6494

VL - 31

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JO - Mechanics of Advanced Materials and Structures

JF - Mechanics of Advanced Materials and Structures

IS - 15

ER -

Aluminum foam-filled auxetic double tubular structures: Design and characteristic study

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Keywords

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