Effects of Bias Electric Fields on the Non-linear Ferroelastic Behavior of Soft Lead Zirconate Titanate Piezoceramics

Effects of Bias Electric Fields on the Non-linear Ferroelastic Behavior of Soft Lead Zirconate Titanate Piezoceramics

Modern piezoelectric transducers normally have complicated structures and work under severe loading conditions. Due to their inherent domain‐switching processes, the real response of piezoceramics under large‐signal loading is dominated by a significantly non‐linear behavior that is to be considered...

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Bibliographic Details
Published in:Journal of the American Ceramic Society Vol. 88; no. 4; pp. 867 - 874
Main Authors: Zhou, Dayu, Kamlah, Marc, Munz, Dietrich
Format: Journal Article
Language:English
Published: Oxford, UK Blackwell Science Inc 01-04-2005
Blackwell
Wiley Subscription Services, Inc
Subjects:
Applied sciences
Building materials. Ceramics. Glasses
Ceramic industries
Ceramics
Chemical industry and chemicals
Electric fields
Electrotechnical and electronic ceramics
Exact sciences and technology
Lead content
Shear loading
Technical ceramics
Transducers
Zirconium alloys
Piezoelectric sensor
Ferroelasticity
Electrical properties
Non linear properties
PZT
Lead Titanates Zirconates
Electric field effect
Experimental study
Oxide ceramics
Piezoelectric ceramics
Electroceramics
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Summary:Modern piezoelectric transducers normally have complicated structures and work under severe loading conditions. Due to their inherent domain‐switching processes, the real response of piezoceramics under large‐signal loading is dominated by a significantly non‐linear behavior that is to be considered in reliability assessment and devices design. This paper presents systematic measurements of the non‐linear depolarization and strain behavior of soft lead zirconate titanate piezoceramics over a wide range of compression loads and bias electric fields. An attempt has been made to explain the experimental findings by simultaneously taking into account the contributions of dielectric response, elastic deformation, irreversible domain switching, and piezoeffects.
Bibliography:ArticleID:JACE00139
ark:/67375/WNG-VZ0BPC1X-N
istex:86B608773787D23346AE5CDE2D34E6F47000EEAA
Based in part on the thesis submitted by D. Y. Zhou for the Ph.D. degree in Mechanical Engineering, University of Karlsruhe (TH), 2003.
Supported by the German Research Foundation (DFG).
J. Roedel—contributing editor
ObjectType-Article-2
SourceType-Scholarly Journals-1
ObjectType-Feature-1
content type line 23
ISSN:0002-7820
1551-2916
DOI:10.1111/j.1551-2916.2005.00139.x