Failure behavior and failure criterion of conductive cracks (deep notches) in piezoelectric ceramics I - The charge-free zone model

Tong Yi Zhang; Minghao Zhao; Guoning Liu

doi:10.1016/j.actamat.2003.12.041

Failure behavior and failure criterion of conductive cracks (deep notches) in piezoelectric ceramics I - The charge-free zone model

Tong Yi Zhang^*
, Minghao Zhao
, Guoning Liu

^*Corresponding author for this work

Department of Mechanical and Aerospace Engineering

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

34 Citations (Scopus)

Abstract

The charge-free zone model proposed by Zhang et al. for the failure of conductive cracks in dielectrics was extended to predict the failure behavior of conductive cracks in piezoelectric ceramics. Piezoelectric ceramics were treated as mechanically brittle and electrically ductile materials in the charge-free zone model. The failure criterion, developed from the charge-free zone model, for conductive cracks in piezoelectric ceramics under mechanical and/or electrical loading has an elliptic shape in terms of the normalized electric intensity factor and the normalized stress intensity factor. The experimental results reported in Part II of the series verified the theoretical predictions.

Original language	English
Pages (from-to)	2013-2024
Number of pages	12
Journal	Acta Materialia
Volume	52
Issue number	7
DOIs	https://doi.org/10.1016/j.actamat.2003.12.041
Publication status	Published - 19 Apr 2004

Keywords

Conductive crack
Electroceramics
Fracture and fracture toughness
Theory and modeling

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10.1016/j.actamat.2003.12.041

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title = "Failure behavior and failure criterion of conductive cracks (deep notches) in piezoelectric ceramics I - The charge-free zone model",

abstract = "The charge-free zone model proposed by Zhang et al. for the failure of conductive cracks in dielectrics was extended to predict the failure behavior of conductive cracks in piezoelectric ceramics. Piezoelectric ceramics were treated as mechanically brittle and electrically ductile materials in the charge-free zone model. The failure criterion, developed from the charge-free zone model, for conductive cracks in piezoelectric ceramics under mechanical and/or electrical loading has an elliptic shape in terms of the normalized electric intensity factor and the normalized stress intensity factor. The experimental results reported in Part II of the series verified the theoretical predictions.",

keywords = "Conductive crack, Electroceramics, Fracture and fracture toughness, Theory and modeling",

author = "Zhang, \{Tong Yi\} and Minghao Zhao and Guoning Liu",

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T1 - Failure behavior and failure criterion of conductive cracks (deep notches) in piezoelectric ceramics I - The charge-free zone model

AU - Zhang, Tong Yi

AU - Zhao, Minghao

AU - Liu, Guoning

PY - 2004/4/19

Y1 - 2004/4/19

N2 - The charge-free zone model proposed by Zhang et al. for the failure of conductive cracks in dielectrics was extended to predict the failure behavior of conductive cracks in piezoelectric ceramics. Piezoelectric ceramics were treated as mechanically brittle and electrically ductile materials in the charge-free zone model. The failure criterion, developed from the charge-free zone model, for conductive cracks in piezoelectric ceramics under mechanical and/or electrical loading has an elliptic shape in terms of the normalized electric intensity factor and the normalized stress intensity factor. The experimental results reported in Part II of the series verified the theoretical predictions.

AB - The charge-free zone model proposed by Zhang et al. for the failure of conductive cracks in dielectrics was extended to predict the failure behavior of conductive cracks in piezoelectric ceramics. Piezoelectric ceramics were treated as mechanically brittle and electrically ductile materials in the charge-free zone model. The failure criterion, developed from the charge-free zone model, for conductive cracks in piezoelectric ceramics under mechanical and/or electrical loading has an elliptic shape in terms of the normalized electric intensity factor and the normalized stress intensity factor. The experimental results reported in Part II of the series verified the theoretical predictions.

KW - Conductive crack

KW - Electroceramics

KW - Fracture and fracture toughness

KW - Theory and modeling

UR - https://www.webofscience.com/wos/woscc/full-record/WOS:000221001300024

UR - https://openalex.org/W1973073326

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DO - 10.1016/j.actamat.2003.12.041

M3 - Journal Article

SN - 1359-6454

VL - 52

SP - 2013

EP - 2024

JO - Acta Materialia

JF - Acta Materialia

IS - 7

ER -

Failure behavior and failure criterion of conductive cracks (deep notches) in piezoelectric ceramics I - The charge-free zone model

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Keywords

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