Influence of domain structure on the electromechanical properties of lead zirconate-titanate and metal/sodium-bismuth titanate ferroelectric ceramics

1997 ◽  
Vol 39 (5) ◽  
pp. 821-822 ◽  
Author(s):  
A. M. Antonenko ◽  
A. Yu. Kudzin ◽  
M. G. Gavshin
Keyword(s):  
Domain Structure ◽  
Lead Zirconate Titanate ◽  
Bismuth Titanate ◽  
Lead Zirconate ◽  
Ferroelectric Ceramics ◽  
Electromechanical Properties ◽  
Sodium Bismuth Titanate ◽  
Zirconate Titanate

Pyroelectric behavior and thermally stimulated processes in niobium modified lead zirconate titanate ferroelectric ceramics

2013 ◽  
Vol 113 (4) ◽  
pp. 044104 ◽  
Author(s):  
A. Peláiz-Barranco ◽  
A. C. Garcia-Wong ◽  
Y. González-Abreu ◽  
J. D. S. Guerra
Keyword(s):  
Lead Zirconate Titanate ◽  
Lead Zirconate ◽  
Ferroelectric Ceramics ◽  
Zirconate Titanate

Crack propagation behavior in lead zirconate titanate-based ferroelectric ceramics

2020 ◽  
Vol 46 (8) ◽  
pp. 12430-12436
Author(s):  
Jiageng Xu ◽  
Shaoxiong Xie ◽  
Qian Xu ◽  
Qingyuan Wang ◽  
Yu Chen
Keyword(s):  
Crack Propagation ◽  
Lead Zirconate Titanate ◽  
Lead Zirconate ◽  
Ferroelectric Ceramics ◽  
Propagation Behavior ◽  
Zirconate Titanate ◽  
Crack Propagation Behavior

Composition Dependent Fatigue in Antiferroelectric PZST Ceramics Induced by Bipolar Electric Cycling

2005 ◽  
Vol 475-479 ◽  
pp. 1193-1196
Author(s):  
Long Jie Zhou ◽  
Georg Rixecker ◽  
André Zimmermann ◽  
Fritz Aldinger
Keyword(s):  
Phase Transition ◽  
Hysteresis Loop ◽  
Fatigue Resistance ◽  
Lead Zirconate Titanate ◽  
Hysteresis Loops ◽  
Lead Zirconate ◽  
Ferroelectric Ceramics ◽  
Fatigue Effect ◽  
Zirconate Titanate ◽  
Electric Fatigue

Bipolar electric fatigue in antiferroelectrics of the lead zirconate titanate stannate ceramics family was investigated. Variations in strain hysteresis loops and damages in microstructure of the materials due to the electric cycling were analyzed. The materials showed symmetric or asymmetric suppression of strain hysteresis loop, normal or diffuse AFE-FE phase transition and intact or damaged microstructure after 5×10-7 cycles, indicating a strong composition dependent fatigue effect and the corresponding mechanism. In general, the antiferroelectric materials exhibited much higher fatigue resistance than ferroelectric ceramics reported previously.

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