Uniaxial compression experiments on lead zirconate titanate 95/5-2Nb ceramic: Evidence for an orientation-dependent, “maximum compressive stress” criterion for onset of the ferroelectric to antiferroelectric polymorphic transformation-Reference-Cited by-同舟云学术

Uniaxial compression experiments on lead zirconate titanate 95/5-2Nb ceramic: Evidence for an orientation-dependent, “maximum compressive stress” criterion for onset of the ferroelectric to antiferroelectric polymorphic transformation

Published:2000-03 Issue:3 Volume:15 Page:689-703
ISSN:0884-2914
Container-title:Journal of Materials Research
language:en
Short-container-title:J. Mater. Res.

Author:

Zeuch D. H.,Montgomery S. T.,Holcomb D. J.

Abstract

Recently we showed that, under nonhydrostatic loading, the FR1 →AO polymorphic transformation of unpoled lead zirconate titanate 95/5-2Nb (PNZT) ceramic began when the maximum compressive stress equaled the hydrostatic pressure at which the transformation otherwise occurred. More recently we showed that this criterion seemed not to apply to poled ceramic. However, unpoled ceramic is isotropic whereas poled ceramic is not. If we further assume that the transformation depends on both the stress magnitude and its orientation relative to PNZT's structure, these disparate results can be resolved. This modified hypothesis makes two predictions for transformation of unpoled ceramic under uniaxial compression: (i) it will begin when the compressive stress equals the hydrostatic pressure for transformation, and (ii) steadily increasing stress will be required to drive it to completion. Here we present experimental results that confirm these predictions. We then revisit our earlier results for poled and unpoled PNZT. The new hypothesis quantifies the observed effect of shear stress on the mean stress for onset of the transformation of unpoled ceramic and explains previously reported kinetic effects.

Publisher

Springer Science and Business Media LLC

Subject

Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science

Reference23 articles.

1. 10. Zeuch D.H. , Montgomery S.T. , and Zimmerer D.J. , The Effects of Non-Hydrostatic Compression and Applied Electric Field on the Electromechanical Behavior of Poled PZT 95/5–2Nb Ceramic During the F R1 → A O Polymorphic Phase Transformation, Report No. SAND95–1951 (1995), available from National Technical Information Service, U.S. Dept. of Commerce, 5285 Port Royal Rd., Springfield, VA 22161.

2. Pressure-temperature phase diagrams for several modified lead zirconate ceramics

3. Ferroelectric ceramics: Application to mechanical electrical energy conversion under shock compression

4. Stress effects in two modified lead zirconate titanate ferroelectric ceramics

5. 16. Zeuch D.H. , Montgomery S.T. , Holcomb D.J. , Grazier J.M. , and Carlson L.W. , Uniaxial Compression Experiments on PZT 95/5–2Nb Ceramic: Evidence for an Orientation-Dependent, ‘Maximum Compressive Stress’ Criterion for Onset of the F R1 → A O Polymorphic Phase Transformation, Report No. SAND99–0077 (1999), available from National Technical Information Service, U.S. Dept. of Commerce, 5285 Port Royal Rd., Springfield, VA 22161.

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