Tuning of non-uniform switch toughening in ferroelectric composites by an electric field

Xiaodong Xia; Zheng Zhong

doi:10.1007/s10409-016-0597-8

Tuning of non-uniform switch toughening in ferroelectric composites by an electric field

Xiaodong Xia
, Zheng Zhong^*

^*Corresponding author for this work

Tongji University

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

2 Scopus citations

Abstract

This paper deals with a mode III interfacial crack subject to anti-plane stress and in-plane electric fields. The analysis concentrates on the tuning of fracture toughness from non-uniform ferroelectric-ferroelastic domain switching by an electric field. The electric loading changes the size of the asymmetric switching zone. Employing the weight function method, we obtain the electrically-dependent switch toughening for stationary and quasi-static growing interfacial cracks, respectively. Multi-domain solutions are derived for non-poled and fully-poled ferroelectric composites. Numerical results are presented on the electric field tuning of the critical applied stress intensity factor. The research provides ways to optimize fracture properties of ferroelectric composites by altering the electric field.

Original language	English
Pages (from-to)	866-880
Number of pages	15
Journal	Acta Mechanica Sinica/Lixue Xuebao
Volume	32
Issue number	5
DOIs	https://doi.org/10.1007/s10409-016-0597-8
State	Published - 1 Oct 2016
Externally published	Yes

Keywords

Domain switching
Electric field tuning
Ferroelectric-ferroelastic
Interfacial crack
Toughening

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10.1007/s10409-016-0597-8

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title = "Tuning of non-uniform switch toughening in ferroelectric composites by an electric field",

abstract = "This paper deals with a mode III interfacial crack subject to anti-plane stress and in-plane electric fields. The analysis concentrates on the tuning of fracture toughness from non-uniform ferroelectric-ferroelastic domain switching by an electric field. The electric loading changes the size of the asymmetric switching zone. Employing the weight function method, we obtain the electrically-dependent switch toughening for stationary and quasi-static growing interfacial cracks, respectively. Multi-domain solutions are derived for non-poled and fully-poled ferroelectric composites. Numerical results are presented on the electric field tuning of the critical applied stress intensity factor. The research provides ways to optimize fracture properties of ferroelectric composites by altering the electric field.",

keywords = "Domain switching, Electric field tuning, Ferroelectric-ferroelastic, Interfacial crack, Toughening",

author = "Xiaodong Xia and Zheng Zhong",

note = "Publisher Copyright: {\textcopyright} 2016, The Chinese Society of Theoretical and Applied Mechanics; Institute of Mechanics, Chinese Academy of Sciences and Springer-Verlag Berlin Heidelberg.",

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T1 - Tuning of non-uniform switch toughening in ferroelectric composites by an electric field

AU - Xia, Xiaodong

AU - Zhong, Zheng

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N2 - This paper deals with a mode III interfacial crack subject to anti-plane stress and in-plane electric fields. The analysis concentrates on the tuning of fracture toughness from non-uniform ferroelectric-ferroelastic domain switching by an electric field. The electric loading changes the size of the asymmetric switching zone. Employing the weight function method, we obtain the electrically-dependent switch toughening for stationary and quasi-static growing interfacial cracks, respectively. Multi-domain solutions are derived for non-poled and fully-poled ferroelectric composites. Numerical results are presented on the electric field tuning of the critical applied stress intensity factor. The research provides ways to optimize fracture properties of ferroelectric composites by altering the electric field.

AB - This paper deals with a mode III interfacial crack subject to anti-plane stress and in-plane electric fields. The analysis concentrates on the tuning of fracture toughness from non-uniform ferroelectric-ferroelastic domain switching by an electric field. The electric loading changes the size of the asymmetric switching zone. Employing the weight function method, we obtain the electrically-dependent switch toughening for stationary and quasi-static growing interfacial cracks, respectively. Multi-domain solutions are derived for non-poled and fully-poled ferroelectric composites. Numerical results are presented on the electric field tuning of the critical applied stress intensity factor. The research provides ways to optimize fracture properties of ferroelectric composites by altering the electric field.

KW - Domain switching

KW - Electric field tuning

KW - Ferroelectric-ferroelastic

KW - Interfacial crack

KW - Toughening

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JO - Acta Mechanica Sinica/Lixue Xuebao

JF - Acta Mechanica Sinica/Lixue Xuebao

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Tuning of non-uniform switch toughening in ferroelectric composites by an electric field

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Keywords

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