The Influence of the Firing Temperatures on the Phase Evolution, Microstructure, Dielectric and Strain Responses of BCTS Ceramics Prepared by the Solid State Combustion Technique

The Influence of the Firing Temperatures on the Phase Evolution, Microstructure, Dielectric and Strain Responses of BCTS Ceramics Prepared by the Solid State Combustion Technique

© 2018 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim. In this report, the influence of the firing temperatures on the phase evolution, microstructure, dielectric and strain responses of (Ba0.945Ca0.055)(Ti0.91Sn0.09)O3(BCTS) lead-free piezoelectric ceramics is investigated. BCTS ceramics are prep...

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Main Authors: Chittakorn Kornphom, Surirat Yotthuan, Suphornphun Chootin, Theerachai Bongkarn
Format: Journal
Published: 2018
Subjects:
Engineering
Materials Science
Physics and Astronomy
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http://cmuir.cmu.ac.th/jspui/handle/6653943832/58719
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Institution: Chiang Mai University
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spelling th-cmuir.6653943832-587192018-09-05T04:39:51Z The Influence of the Firing Temperatures on the Phase Evolution, Microstructure, Dielectric and Strain Responses of BCTS Ceramics Prepared by the Solid State Combustion Technique Chittakorn Kornphom Surirat Yotthuan Suphornphun Chootin Theerachai Bongkarn Engineering Materials Science Physics and Astronomy © 2018 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim. In this report, the influence of the firing temperatures on the phase evolution, microstructure, dielectric and strain responses of (Ba0.945Ca0.055)(Ti0.91Sn0.09)O3(BCTS) lead-free piezoelectric ceramics is investigated. BCTS ceramics are prepared with the solid state combustion technique with glycine as the fuel. Pure BCTS powders, with a perovskite structure, are obtained by calcining at 1150°C for 2h. The particle morphology of the BCTS powders exhibits a rounded shape and large agglomerated forms in all samples. The average particle size increases from 158 to 223nm when the calcination temperature is increased from 1050 to 1250°C. The XRD results of the sintered samples show they all have a single perovskite structure. The Rietveld refinement analysis indicates that the BCTS ceramics sintered at 1400°C have the orthorhombic (O), tetragonal (T), and rhombohedral (R) phases coexisting while the O+T phases coexist in the other samples. The average grain size, density, dielectric constant (at Tc), %strain, and d33* increase when the sintering temperature is increased up to 1400°C and then, reduced in values. At the optimum sintering temperature (1400°C), BCTS ceramic show multi phases (O+T+R), good crystalline morphology, the highest density (98%), an excellent dielectric constant (ε(lunate)c≅16252), and a good d33* value (866pm/V). 2018-09-05T04:29:17Z 2018-09-05T04:29:17Z 2018-01-01 Journal 18626319 18626300 2-s2.0-85050589103 10.1002/pssa.201701058 https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85050589103&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/58719
institution Chiang Mai University
building Chiang Mai University Library
country Thailand
collection CMU Intellectual Repository
topic Engineering
Materials Science
Physics and Astronomy
spellingShingle Engineering
Materials Science
Physics and Astronomy
Chittakorn Kornphom
Surirat Yotthuan
Suphornphun Chootin
Theerachai Bongkarn
The Influence of the Firing Temperatures on the Phase Evolution, Microstructure, Dielectric and Strain Responses of BCTS Ceramics Prepared by the Solid State Combustion Technique
description © 2018 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim. In this report, the influence of the firing temperatures on the phase evolution, microstructure, dielectric and strain responses of (Ba0.945Ca0.055)(Ti0.91Sn0.09)O3(BCTS) lead-free piezoelectric ceramics is investigated. BCTS ceramics are prepared with the solid state combustion technique with glycine as the fuel. Pure BCTS powders, with a perovskite structure, are obtained by calcining at 1150°C for 2h. The particle morphology of the BCTS powders exhibits a rounded shape and large agglomerated forms in all samples. The average particle size increases from 158 to 223nm when the calcination temperature is increased from 1050 to 1250°C. The XRD results of the sintered samples show they all have a single perovskite structure. The Rietveld refinement analysis indicates that the BCTS ceramics sintered at 1400°C have the orthorhombic (O), tetragonal (T), and rhombohedral (R) phases coexisting while the O+T phases coexist in the other samples. The average grain size, density, dielectric constant (at Tc), %strain, and d33* increase when the sintering temperature is increased up to 1400°C and then, reduced in values. At the optimum sintering temperature (1400°C), BCTS ceramic show multi phases (O+T+R), good crystalline morphology, the highest density (98%), an excellent dielectric constant (ε(lunate)c≅16252), and a good d33* value (866pm/V).
format Journal
author Chittakorn Kornphom
Surirat Yotthuan
Suphornphun Chootin
Theerachai Bongkarn
author_facet Chittakorn Kornphom
Surirat Yotthuan
Suphornphun Chootin
Theerachai Bongkarn
author_sort Chittakorn Kornphom
title The Influence of the Firing Temperatures on the Phase Evolution, Microstructure, Dielectric and Strain Responses of BCTS Ceramics Prepared by the Solid State Combustion Technique
title_short The Influence of the Firing Temperatures on the Phase Evolution, Microstructure, Dielectric and Strain Responses of BCTS Ceramics Prepared by the Solid State Combustion Technique
title_full The Influence of the Firing Temperatures on the Phase Evolution, Microstructure, Dielectric and Strain Responses of BCTS Ceramics Prepared by the Solid State Combustion Technique
title_fullStr The Influence of the Firing Temperatures on the Phase Evolution, Microstructure, Dielectric and Strain Responses of BCTS Ceramics Prepared by the Solid State Combustion Technique
title_full_unstemmed The Influence of the Firing Temperatures on the Phase Evolution, Microstructure, Dielectric and Strain Responses of BCTS Ceramics Prepared by the Solid State Combustion Technique
title_sort influence of the firing temperatures on the phase evolution, microstructure, dielectric and strain responses of bcts ceramics prepared by the solid state combustion technique
publishDate 2018
url https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85050589103&origin=inward
http://cmuir.cmu.ac.th/jspui/handle/6653943832/58719
_version_ 1681425117970694144

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