Crushing of circular steel tubes filled with nanoporous-materials-functionalized liquid

Yueting Sun; Yibing Li; Cang Zhao; Meng Wang; Weiyi  Lu; Yu  Qiao

doi:10.1177/1056789516683539

Crushing of circular steel tubes filled with nanoporous-materials-functionalized liquid

Yueting Sun, Yibing Li, Cang Zhao, Meng Wang, Weiyi Lu, Yu Qiao

Engineering

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

7 Citations (Scopus)

Abstract

The crush behaviors of steel tubes filled with nanoporous-materials-functionalized liquids are experimentally investigated under quasi-static and dynamic conditions. Results show that the nanoporous-materials-functionalized liquid can enhance the load-carrying and the energy absorption capacities of thin-walled tubes, as the buckling mode is affected. The effective buckling stress increases with the infiltration pressure, and the overall compressibility is highly dependent on the nanopore volume. A general rule of designing nanoporous-materials-functionalized liquid-filled tubes is proposed. The interaction between the tube wall and the nanoporous-materials-functionalized liquid is analyzed.

Original language	English
Pages (from-to)	439-450
Number of pages	12
Journal	International Journal of Damage Mechanics
Volume	27
Issue number	3
Early online date	12 Dec 2016
DOIs	https://doi.org/10.1177/1056789516683539
Publication status	Published - 1 Mar 2018

Keywords

thin-walled tube
crush behavior
nanoporous material
energy absorption
dynamic behaviour

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https://journals.sagepub.com/doi/10.1177/1056789516683539Licence: None: All rights reserved

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title = "Crushing of circular steel tubes filled with nanoporous-materials-functionalized liquid",

abstract = "The crush behaviors of steel tubes filled with nanoporous-materials-functionalized liquids are experimentally investigated under quasi-static and dynamic conditions. Results show that the nanoporous-materials-functionalized liquid can enhance the load-carrying and the energy absorption capacities of thin-walled tubes, as the buckling mode is affected. The effective buckling stress increases with the infiltration pressure, and the overall compressibility is highly dependent on the nanopore volume. A general rule of designing nanoporous-materials-functionalized liquid-filled tubes is proposed. The interaction between the tube wall and the nanoporous-materials-functionalized liquid is analyzed.",

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T1 - Crushing of circular steel tubes filled with nanoporous-materials-functionalized liquid

AU - Sun, Yueting

AU - Li, Yibing

AU - Zhao, Cang

AU - Wang, Meng

AU - Lu, Weiyi

AU - Qiao, Yu

PY - 2018/3/1

Y1 - 2018/3/1

N2 - The crush behaviors of steel tubes filled with nanoporous-materials-functionalized liquids are experimentally investigated under quasi-static and dynamic conditions. Results show that the nanoporous-materials-functionalized liquid can enhance the load-carrying and the energy absorption capacities of thin-walled tubes, as the buckling mode is affected. The effective buckling stress increases with the infiltration pressure, and the overall compressibility is highly dependent on the nanopore volume. A general rule of designing nanoporous-materials-functionalized liquid-filled tubes is proposed. The interaction between the tube wall and the nanoporous-materials-functionalized liquid is analyzed.

AB - The crush behaviors of steel tubes filled with nanoporous-materials-functionalized liquids are experimentally investigated under quasi-static and dynamic conditions. Results show that the nanoporous-materials-functionalized liquid can enhance the load-carrying and the energy absorption capacities of thin-walled tubes, as the buckling mode is affected. The effective buckling stress increases with the infiltration pressure, and the overall compressibility is highly dependent on the nanopore volume. A general rule of designing nanoporous-materials-functionalized liquid-filled tubes is proposed. The interaction between the tube wall and the nanoporous-materials-functionalized liquid is analyzed.

KW - thin-walled tube

KW - crush behavior

KW - nanoporous material

KW - energy absorption

KW - dynamic behaviour

U2 - 10.1177/1056789516683539

DO - 10.1177/1056789516683539

M3 - Article

SN - 1056-7895

VL - 27

SP - 439

EP - 450

JO - International Journal of Damage Mechanics

JF - International Journal of Damage Mechanics

IS - 3

ER -

Crushing of circular steel tubes filled with nanoporous-materials-functionalized liquid

Abstract

Keywords

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