Phase states and electrophysical properties of multicomponent perovskite solid solutions on the base of PMN-PT and PZT systems

Phase states and electrophysical properties of multicomponent perovskite solid solutions on the base of PMN-PT and PZT systems

Phase diagrams were constructed (at room temperature), the dielectric, piezoelectric, elastic and reversible properties of the Ge-modified xPbTiO3–yPbZrO3–zPbNb2∕3Mg1∕3O3 multicomponent system ceramics were studied. The data obtained are compared with the results of studies of solid solutions of bas...

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Bibliographic Details
Main Authors: Aleksey Pavelko, Lidiya Shilkina, Larisa Reznichenko
Format: Article
Language:English
Published: World Scientific Publishing 2020-02-01
Series:Journal of Advanced Dielectrics
Subjects:
ferroelectrics
ceramics
multicomponent system
phase diagrams
piezoelectric properties
Online Access:http://www.worldscientific.com/doi/pdf/10.1142/S2010135X20600115
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spelling doaj-509c86198d9e48c6973c7ca61c5748662020-11-25T03:07:13ZengWorld Scientific PublishingJournal of Advanced Dielectrics2010-135X2010-13682020-02-011001n022060011-12060011-610.1142/S2010135X2060011510.1142/S2010135X20600115Phase states and electrophysical properties of multicomponent perovskite solid solutions on the base of PMN-PT and PZT systemsAleksey Pavelko0Lidiya Shilkina1Larisa Reznichenko2Research Institute of Physics, Southern Federal University, 194 Stachki av., Rostov-on-Don 344090, RussiaResearch Institute of Physics, Southern Federal University, 194 Stachki av., Rostov-on-Don 344090, RussiaResearch Institute of Physics, Southern Federal University, 194 Stachki av., Rostov-on-Don 344090, RussiaPhase diagrams were constructed (at room temperature), the dielectric, piezoelectric, elastic and reversible properties of the Ge-modified xPbTiO3–yPbZrO3–zPbNb2∕3Mg1∕3O3 multicomponent system ceramics were studied. The data obtained are compared with the results of studies of solid solutions of basic binary systems, as well as with the results obtained previously for other sections of the system under consideration. A significant increase in the width of the morphotropic region, diffusion of the concentration dependences of the electrophysical characteristics, and an increase in stability under the influence of constant bias fields in the solid solutions of the studied system were established.http://www.worldscientific.com/doi/pdf/10.1142/S2010135X20600115ferroelectricsceramicsmulticomponent systemphase diagramspiezoelectric properties
collection DOAJ
language English
format Article
sources DOAJ
author Aleksey Pavelko
Lidiya Shilkina
Larisa Reznichenko
spellingShingle Aleksey Pavelko
Lidiya Shilkina
Larisa Reznichenko
Phase states and electrophysical properties of multicomponent perovskite solid solutions on the base of PMN-PT and PZT systems
Journal of Advanced Dielectrics
ferroelectrics
ceramics
multicomponent system
phase diagrams
piezoelectric properties
author_facet Aleksey Pavelko
Lidiya Shilkina
Larisa Reznichenko
author_sort Aleksey Pavelko
title Phase states and electrophysical properties of multicomponent perovskite solid solutions on the base of PMN-PT and PZT systems
title_short Phase states and electrophysical properties of multicomponent perovskite solid solutions on the base of PMN-PT and PZT systems
title_full Phase states and electrophysical properties of multicomponent perovskite solid solutions on the base of PMN-PT and PZT systems
title_fullStr Phase states and electrophysical properties of multicomponent perovskite solid solutions on the base of PMN-PT and PZT systems
title_full_unstemmed Phase states and electrophysical properties of multicomponent perovskite solid solutions on the base of PMN-PT and PZT systems
title_sort phase states and electrophysical properties of multicomponent perovskite solid solutions on the base of pmn-pt and pzt systems
publisher World Scientific Publishing
series Journal of Advanced Dielectrics
issn 2010-135X
2010-1368
publishDate 2020-02-01
description Phase diagrams were constructed (at room temperature), the dielectric, piezoelectric, elastic and reversible properties of the Ge-modified xPbTiO3–yPbZrO3–zPbNb2∕3Mg1∕3O3 multicomponent system ceramics were studied. The data obtained are compared with the results of studies of solid solutions of basic binary systems, as well as with the results obtained previously for other sections of the system under consideration. A significant increase in the width of the morphotropic region, diffusion of the concentration dependences of the electrophysical characteristics, and an increase in stability under the influence of constant bias fields in the solid solutions of the studied system were established.
topic ferroelectrics
ceramics
multicomponent system
phase diagrams
piezoelectric properties
url http://www.worldscientific.com/doi/pdf/10.1142/S2010135X20600115
work_keys_str_mv AT alekseypavelko phasestatesandelectrophysicalpropertiesofmulticomponentperovskitesolidsolutionsonthebaseofpmnptandpztsystems
AT lidiyashilkina phasestatesandelectrophysicalpropertiesofmulticomponentperovskitesolidsolutionsonthebaseofpmnptandpztsystems
AT larisareznichenko phasestatesandelectrophysicalpropertiesofmulticomponentperovskitesolidsolutionsonthebaseofpmnptandpztsystems
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