Electric field induced cracking in ferroelectric ceramics

C. S. Lynch; W. Yang; L. Collier; Z. Suo; R. M. McMeeking

doi:10.1080/00150199508223569

Electric field induced cracking in ferroelectric ceramics

C. S. Lynch
, W. Yang
, L. Collier
, Z. Suo
, R. M. McMeeking

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

174 Scopus citations

Abstract

Ferroelectric ceramics are susceptible to fracture under high magnitude cyclic electric field. Flaws concentrate the electric field, inducing a large incompatible strain, and thereby a large stress. Stable growth of cracks with either conducting or insulating interiors is observed in 8/65/35 lanthanum lead zirconate titanate samples. Indentations on the electroded surface are filled with distilled water or a water-salt solution. Under cyclic electric field, tree like damage grows from the indented electrode. Indentations on the surfaces 90° to the electrodes are filled with silicone oil. This results in stable crack growth perpendicular to the cyclic electric field. Nonlinear fracture models are presented for both conducting and insulating cracks. Tensile stress intensity factors are predicted for both cases.

Original language	English
Pages (from-to)	11-30
Number of pages	20
Journal	Ferroelectrics
Volume	166
Issue number	1
DOIs	https://doi.org/10.1080/00150199508223569
State	Published - 1 Apr 1995
Externally published	Yes

Keywords

Ferroelectric
PLZT
fracture
reliability
toughness
water treeing

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10.1080/00150199508223569

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title = "Electric field induced cracking in ferroelectric ceramics",

abstract = "Ferroelectric ceramics are susceptible to fracture under high magnitude cyclic electric field. Flaws concentrate the electric field, inducing a large incompatible strain, and thereby a large stress. Stable growth of cracks with either conducting or insulating interiors is observed in 8/65/35 lanthanum lead zirconate titanate samples. Indentations on the electroded surface are filled with distilled water or a water-salt solution. Under cyclic electric field, tree like damage grows from the indented electrode. Indentations on the surfaces 90° to the electrodes are filled with silicone oil. This results in stable crack growth perpendicular to the cyclic electric field. Nonlinear fracture models are presented for both conducting and insulating cracks. Tensile stress intensity factors are predicted for both cases.",

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author = "Lynch, \{C. S.\} and W. Yang and L. Collier and Z. Suo and McMeeking, \{R. M.\}",

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T1 - Electric field induced cracking in ferroelectric ceramics

AU - Lynch, C. S.

AU - Yang, W.

AU - Collier, L.

AU - Suo, Z.

AU - McMeeking, R. M.

PY - 1995/4/1

Y1 - 1995/4/1

N2 - Ferroelectric ceramics are susceptible to fracture under high magnitude cyclic electric field. Flaws concentrate the electric field, inducing a large incompatible strain, and thereby a large stress. Stable growth of cracks with either conducting or insulating interiors is observed in 8/65/35 lanthanum lead zirconate titanate samples. Indentations on the electroded surface are filled with distilled water or a water-salt solution. Under cyclic electric field, tree like damage grows from the indented electrode. Indentations on the surfaces 90° to the electrodes are filled with silicone oil. This results in stable crack growth perpendicular to the cyclic electric field. Nonlinear fracture models are presented for both conducting and insulating cracks. Tensile stress intensity factors are predicted for both cases.

AB - Ferroelectric ceramics are susceptible to fracture under high magnitude cyclic electric field. Flaws concentrate the electric field, inducing a large incompatible strain, and thereby a large stress. Stable growth of cracks with either conducting or insulating interiors is observed in 8/65/35 lanthanum lead zirconate titanate samples. Indentations on the electroded surface are filled with distilled water or a water-salt solution. Under cyclic electric field, tree like damage grows from the indented electrode. Indentations on the surfaces 90° to the electrodes are filled with silicone oil. This results in stable crack growth perpendicular to the cyclic electric field. Nonlinear fracture models are presented for both conducting and insulating cracks. Tensile stress intensity factors are predicted for both cases.

KW - Ferroelectric

KW - PLZT

KW - fracture

KW - reliability

KW - toughness

KW - water treeing

UR - https://www.scopus.com/pages/publications/0029213016

U2 - 10.1080/00150199508223569

DO - 10.1080/00150199508223569

M3 - 文章

AN - SCOPUS:0029213016

SN - 0015-0193

VL - 166

SP - 11

EP - 30

JO - Ferroelectrics

JF - Ferroelectrics

IS - 1

ER -

Electric field induced cracking in ferroelectric ceramics

Abstract

Keywords

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