Investigation of intelligent reversible diaphragm using shape memory polymers

Ran Tao; Qing Sheng Yang; Xia Liu; Xiao Qiao He; Kim Meow Liew

doi:10.1177/1045389X17740977

Investigation of intelligent reversible diaphragm using shape memory polymers

Ran Tao, Qing Sheng Yang^*, Xia Liu, Xiao Qiao He, Kim Meow Liew

^*Corresponding author for this work

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

5 Citations (Scopus)

Abstract

This article describes design and analysis of a novel reversible diaphragm using shape memory polymer. The reversible diaphragm could be applied to space engineering, such as propellant tank of rocket. The shape memory polymer diaphragm can automatically recover to the initial state after the overturning deformation and thus can be used repeatedly. A three-dimensional model is established to study the overturning and recovery behavior of the shape memory polymer diaphragm.The nonlinear finite element method based on the thermodynamic constitutive equations of shape memory polymer is used to obtain pressure -displacement relations and strain energy variation of SMP diaphragm with approximately hemispherical shape in the whole process of the overturning deformation. The influence of structural parameters and temperature on the overturning and recover behavior is discussed.

Original language	English
Pages (from-to)	1500-1509
Number of pages	10
Journal	Journal of Intelligent Material Systems and Structures
Volume	29
Issue number	7
DOIs	https://doi.org/10.1177/1045389X17740977
Publication status	Published - 1 Apr 2018
Externally published	Yes

Keywords

Reversible diaphragm
constitutive equations
overturning deformation
shape memory polymer

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title = "Investigation of intelligent reversible diaphragm using shape memory polymers",

abstract = "This article describes design and analysis of a novel reversible diaphragm using shape memory polymer. The reversible diaphragm could be applied to space engineering, such as propellant tank of rocket. The shape memory polymer diaphragm can automatically recover to the initial state after the overturning deformation and thus can be used repeatedly. A three-dimensional model is established to study the overturning and recovery behavior of the shape memory polymer diaphragm.The nonlinear finite element method based on the thermodynamic constitutive equations of shape memory polymer is used to obtain pressure -displacement relations and strain energy variation of SMP diaphragm with approximately hemispherical shape in the whole process of the overturning deformation. The influence of structural parameters and temperature on the overturning and recover behavior is discussed.",

keywords = "Reversible diaphragm, constitutive equations, overturning deformation, shape memory polymer",

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T1 - Investigation of intelligent reversible diaphragm using shape memory polymers

AU - Tao, Ran

AU - Yang, Qing Sheng

AU - Liu, Xia

AU - He, Xiao Qiao

AU - Liew, Kim Meow

PY - 2018/4/1

Y1 - 2018/4/1

N2 - This article describes design and analysis of a novel reversible diaphragm using shape memory polymer. The reversible diaphragm could be applied to space engineering, such as propellant tank of rocket. The shape memory polymer diaphragm can automatically recover to the initial state after the overturning deformation and thus can be used repeatedly. A three-dimensional model is established to study the overturning and recovery behavior of the shape memory polymer diaphragm.The nonlinear finite element method based on the thermodynamic constitutive equations of shape memory polymer is used to obtain pressure -displacement relations and strain energy variation of SMP diaphragm with approximately hemispherical shape in the whole process of the overturning deformation. The influence of structural parameters and temperature on the overturning and recover behavior is discussed.

AB - This article describes design and analysis of a novel reversible diaphragm using shape memory polymer. The reversible diaphragm could be applied to space engineering, such as propellant tank of rocket. The shape memory polymer diaphragm can automatically recover to the initial state after the overturning deformation and thus can be used repeatedly. A three-dimensional model is established to study the overturning and recovery behavior of the shape memory polymer diaphragm.The nonlinear finite element method based on the thermodynamic constitutive equations of shape memory polymer is used to obtain pressure -displacement relations and strain energy variation of SMP diaphragm with approximately hemispherical shape in the whole process of the overturning deformation. The influence of structural parameters and temperature on the overturning and recover behavior is discussed.

KW - Reversible diaphragm

KW - constitutive equations

KW - overturning deformation

KW - shape memory polymer

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Investigation of intelligent reversible diaphragm using shape memory polymers

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Keywords

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