Effects of pH control on preparation of Z-type hexagonal ferrite Ba 3Co2Fe24O41 by polymerized complex method

Makoto Nakanishi; Asako Akiyama; Tatsuo Fujii; Jun Takada; Takeyuki Kikuchi; Yoshihiro Kusano

Effects of pH control on preparation of Z-type hexagonal ferrite Ba ₃Co₂Fe₂₄O₄₁ by polymerized complex method

Makoto Nakanishi, Asako Akiyama, Tatsuo Fujii, Jun Takada, Takeyuki Kikuchi, Yoshihiro Kusano

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

The formation process of Z-type hexagonal ferrite, Ba₃Co ₂Fe₂₄O₄₁, prepared by polymerized complex method and the effects of pH control of citrate complex solution were investigated. By heating a precursor, a pyrolyzed complex polymer, spinel phase, M-type ferrite and Y-type ferrite were formed sequently with increasing the heating temperature. By heating up to 1200°C, monophasic Z-type ferrite was not synthesized in usual preparation procedures. So pH of citrate complex solution was changed and the effects on formation process were examined. As ammonia solution was added to change the complex solution from acidic to basic, the phases in the pyrolysate changed form barium carbonate to barium nitrate and the crystallinity of the constituent phases decreased. By controlling pH to 11, monophasic Z-type ferrite was obtained by heating at 1200°C. On the other hand, pH control of the complex solution toward basic condition suppressed the formation of Y-type ferrite. It was revealed that the optimum conditions for preparing the complex solution depended on phases even for same Ba-Co-Fe-O system.

Original language	English
Title of host publication	Electroceramic Materials and Applications - Proceedings of the 6th Pacific Rim Conference on Ceramic and Glass Technology
Pages	435-440
Number of pages	6
Publication status	Published - Dec 1 2006
Event	6th Pacific Rim Conference on Ceramic and Glass Technology - Maui, Hawaii, United States Duration: Sept 11 2005 → Sept 16 2005

Publication series

Name	Ceramic Transactions
Volume	196
ISSN (Print)	1042-1122

Other

Other	6th Pacific Rim Conference on Ceramic and Glass Technology
Country/Territory	United States
City	Maui, Hawaii
Period	9/11/05 → 9/16/05

ASJC Scopus subject areas

Ceramics and Composites
Materials Chemistry

Cite this

Effects of pH control on preparation of Z-type hexagonal ferrite Ba ₃Co₂Fe₂₄O₄₁ by polymerized complex method. / Nakanishi, Makoto; Akiyama, Asako; Fujii, Tatsuo et al.
Electroceramic Materials and Applications - Proceedings of the 6th Pacific Rim Conference on Ceramic and Glass Technology. 2006. p. 435-440 (Ceramic Transactions; Vol. 196).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Nakanishi, M, Akiyama, A, Fujii, T, Takada, J, Kikuchi, T & Kusano, Y 2006, Effects of pH control on preparation of Z-type hexagonal ferrite Ba ₃Co₂Fe₂₄O₄₁ by polymerized complex method. in Electroceramic Materials and Applications - Proceedings of the 6th Pacific Rim Conference on Ceramic and Glass Technology. Ceramic Transactions, vol. 196, pp. 435-440, 6th Pacific Rim Conference on Ceramic and Glass Technology, Maui, Hawaii, United States, 9/11/05.

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title = "Effects of pH control on preparation of Z-type hexagonal ferrite Ba 3Co2Fe24O41 by polymerized complex method",

abstract = "The formation process of Z-type hexagonal ferrite, Ba3Co 2Fe24O41, prepared by polymerized complex method and the effects of pH control of citrate complex solution were investigated. By heating a precursor, a pyrolyzed complex polymer, spinel phase, M-type ferrite and Y-type ferrite were formed sequently with increasing the heating temperature. By heating up to 1200°C, monophasic Z-type ferrite was not synthesized in usual preparation procedures. So pH of citrate complex solution was changed and the effects on formation process were examined. As ammonia solution was added to change the complex solution from acidic to basic, the phases in the pyrolysate changed form barium carbonate to barium nitrate and the crystallinity of the constituent phases decreased. By controlling pH to 11, monophasic Z-type ferrite was obtained by heating at 1200°C. On the other hand, pH control of the complex solution toward basic condition suppressed the formation of Y-type ferrite. It was revealed that the optimum conditions for preparing the complex solution depended on phases even for same Ba-Co-Fe-O system.",

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AU - Kikuchi, Takeyuki

AU - Kusano, Yoshihiro

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N2 - The formation process of Z-type hexagonal ferrite, Ba3Co 2Fe24O41, prepared by polymerized complex method and the effects of pH control of citrate complex solution were investigated. By heating a precursor, a pyrolyzed complex polymer, spinel phase, M-type ferrite and Y-type ferrite were formed sequently with increasing the heating temperature. By heating up to 1200°C, monophasic Z-type ferrite was not synthesized in usual preparation procedures. So pH of citrate complex solution was changed and the effects on formation process were examined. As ammonia solution was added to change the complex solution from acidic to basic, the phases in the pyrolysate changed form barium carbonate to barium nitrate and the crystallinity of the constituent phases decreased. By controlling pH to 11, monophasic Z-type ferrite was obtained by heating at 1200°C. On the other hand, pH control of the complex solution toward basic condition suppressed the formation of Y-type ferrite. It was revealed that the optimum conditions for preparing the complex solution depended on phases even for same Ba-Co-Fe-O system.

AB - The formation process of Z-type hexagonal ferrite, Ba3Co 2Fe24O41, prepared by polymerized complex method and the effects of pH control of citrate complex solution were investigated. By heating a precursor, a pyrolyzed complex polymer, spinel phase, M-type ferrite and Y-type ferrite were formed sequently with increasing the heating temperature. By heating up to 1200°C, monophasic Z-type ferrite was not synthesized in usual preparation procedures. So pH of citrate complex solution was changed and the effects on formation process were examined. As ammonia solution was added to change the complex solution from acidic to basic, the phases in the pyrolysate changed form barium carbonate to barium nitrate and the crystallinity of the constituent phases decreased. By controlling pH to 11, monophasic Z-type ferrite was obtained by heating at 1200°C. On the other hand, pH control of the complex solution toward basic condition suppressed the formation of Y-type ferrite. It was revealed that the optimum conditions for preparing the complex solution depended on phases even for same Ba-Co-Fe-O system.

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