Influence of ferric oxide on the crystallization of Li-Zn ferrite anorthite and hematite phases at low temperature ceramic glaze

Influence of ferric oxide on the crystallization of Li-Zn ferrite anorthite and hematite phases at low temperature ceramic glaze

© 2015 Elsevier Ltd. The crystallization mechanism and properties of lithium zinc ferrite (LiZnFe < inf > 2 < /inf > O < inf > 4 < /inf > ) anorthite (CaAl < inf > 2 < /inf > Si < inf > 2 < /inf > O < inf > 8 < /inf > ) and hematite (α-Fe &...

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Main Authors: Supakorn Silakate, Anucha Wannagon, Apinon Nuntiya
Format: Journal
Published: 2018
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Agricultural and Biological Sciences
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http://cmuir.cmu.ac.th/jspui/handle/6653943832/44616
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spelling th-cmuir.6653943832-446162018-04-25T07:53:34Z Influence of ferric oxide on the crystallization of Li-Zn ferrite anorthite and hematite phases at low temperature ceramic glaze Supakorn Silakate Anucha Wannagon Apinon Nuntiya Agricultural and Biological Sciences © 2015 Elsevier Ltd. The crystallization mechanism and properties of lithium zinc ferrite (LiZnFe < inf > 2 < /inf > O < inf > 4 < /inf > ) anorthite (CaAl < inf > 2 < /inf > Si < inf > 2 < /inf > O < inf > 8 < /inf > ) and hematite (α-Fe < inf > 2 < /inf > O < inf > 3 < /inf > ) of ceramic glaze containing Li < inf > 2 < /inf > O and ZnO system were studied as a function of Fe < inf > 2 < /inf > O < inf > 3 < /inf > contents. The glaze was fired at 1100°C and the addition of 5-25wt.% Fe < inf > 2 < /inf > O < inf > 3 < /inf > contents developed brown color crystals. A non-isothermal analysis was performed to study the crystallization behavior of LiZnFe < inf > 2 < /inf > O < inf > 4 < /inf > anorthite and hematite using DTA with various heating rates for calculating activation energy and Avrami constant from Kissinger and Augis-Bennett equation. XRD, SEM/EDS and Raman spectroscopy were used to determine the crystalline phases. The occurrence of LiZnFe < inf > 2 < /inf > O < inf > 4 < /inf > anorthite and hematite depended on the Fe < inf > 2 < /inf > O < inf > 3 < /inf > content in the glaze. In the case of 15wt.% Fe < inf > 2 < /inf > O < inf > 3 < /inf > demonstrated the main crystalline phase of LiZnFe < inf > 2 < /inf > O < inf > 4 < /inf > . Furthermore, anorthite and hematite were also found in 25wt.% Fe < inf > 2 < /inf > O < inf > 3 < /inf > content. The values of Avrami constant were 0.9 and 0.5, and the surface crystallization tendency is dominant for these crystalline phases. 2018-01-24T04:45:37Z 2018-01-24T04:45:37Z 2015-01-01 Journal 1873619X 09552219 2-s2.0-84933680108 10.1016/j.jeurceramsoc.2015.01.029 https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84933680108&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/44616
institution Chiang Mai University
building Chiang Mai University Library
country Thailand
collection CMU Intellectual Repository
topic Agricultural and Biological Sciences
spellingShingle Agricultural and Biological Sciences
Supakorn Silakate
Anucha Wannagon
Apinon Nuntiya
Influence of ferric oxide on the crystallization of Li-Zn ferrite anorthite and hematite phases at low temperature ceramic glaze
description © 2015 Elsevier Ltd. The crystallization mechanism and properties of lithium zinc ferrite (LiZnFe < inf > 2 < /inf > O < inf > 4 < /inf > ) anorthite (CaAl < inf > 2 < /inf > Si < inf > 2 < /inf > O < inf > 8 < /inf > ) and hematite (α-Fe < inf > 2 < /inf > O < inf > 3 < /inf > ) of ceramic glaze containing Li < inf > 2 < /inf > O and ZnO system were studied as a function of Fe < inf > 2 < /inf > O < inf > 3 < /inf > contents. The glaze was fired at 1100°C and the addition of 5-25wt.% Fe < inf > 2 < /inf > O < inf > 3 < /inf > contents developed brown color crystals. A non-isothermal analysis was performed to study the crystallization behavior of LiZnFe < inf > 2 < /inf > O < inf > 4 < /inf > anorthite and hematite using DTA with various heating rates for calculating activation energy and Avrami constant from Kissinger and Augis-Bennett equation. XRD, SEM/EDS and Raman spectroscopy were used to determine the crystalline phases. The occurrence of LiZnFe < inf > 2 < /inf > O < inf > 4 < /inf > anorthite and hematite depended on the Fe < inf > 2 < /inf > O < inf > 3 < /inf > content in the glaze. In the case of 15wt.% Fe < inf > 2 < /inf > O < inf > 3 < /inf > demonstrated the main crystalline phase of LiZnFe < inf > 2 < /inf > O < inf > 4 < /inf > . Furthermore, anorthite and hematite were also found in 25wt.% Fe < inf > 2 < /inf > O < inf > 3 < /inf > content. The values of Avrami constant were 0.9 and 0.5, and the surface crystallization tendency is dominant for these crystalline phases.
format Journal
author Supakorn Silakate
Anucha Wannagon
Apinon Nuntiya
author_facet Supakorn Silakate
Anucha Wannagon
Apinon Nuntiya
author_sort Supakorn Silakate
title Influence of ferric oxide on the crystallization of Li-Zn ferrite anorthite and hematite phases at low temperature ceramic glaze
title_short Influence of ferric oxide on the crystallization of Li-Zn ferrite anorthite and hematite phases at low temperature ceramic glaze
title_full Influence of ferric oxide on the crystallization of Li-Zn ferrite anorthite and hematite phases at low temperature ceramic glaze
title_fullStr Influence of ferric oxide on the crystallization of Li-Zn ferrite anorthite and hematite phases at low temperature ceramic glaze
title_full_unstemmed Influence of ferric oxide on the crystallization of Li-Zn ferrite anorthite and hematite phases at low temperature ceramic glaze
title_sort influence of ferric oxide on the crystallization of li-zn ferrite anorthite and hematite phases at low temperature ceramic glaze
publishDate 2018
url https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84933680108&origin=inward
http://cmuir.cmu.ac.th/jspui/handle/6653943832/44616
_version_ 1681422592361103360

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