Mechanical activation of the synthesis reaction of BaTiO3 from a mixture of BaCO3 and TiO2 powders

C. Gomez-Yañez; C. Benitez; H. Balmori-Ramirez

doi:10.1016/S0272-8842(99)00053-X

Mechanical activation of the synthesis reaction of BaTiO₃ from a mixture of BaCO₃ and TiO₂ powders

C. Gomez-Yañez, C. Benitez, H. Balmori-Ramirez

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

117 Citas (Scopus)

Resumen

The influence of long term milling in an attritor of a mixture of BaCO₃ and TiO₂ powders on the reaction synthesis of BaTiO₃ was studied. Thermal analysis (TG and DTA) of the unmilled and milled powders and X-ray diffraction of powders calcined at different temperatures were undertaken. Milling does not change the reaction sequence between BaCO₃ and TiO₂. BaTiO₃ and Ba₂TiO₄ are produced in both kinds of powders. However, milling reduces the formation temperature and accelerates the formation rate of these two phases. The production of final BaTiO₃ is incomplete in the milled powder, probably because of the formation of big crystals of Ba₂TiO₄. As a consequence, the milled powder contains large amounts of Ba₂TiO₄ after calcination at 1200 °C. Milling produces allotropic transformations in TiO₂ from anatase phase, to α-PbO₂-like phase and finally to rutile structure.

Idioma original	Inglés
Páginas (desde-hasta)	271-277
Número de páginas	7
Publicación	Ceramics International
Volumen	26
N.º	3
DOI	https://doi.org/10.1016/S0272-8842(99)00053-X
Estado	Publicada - 1 abr. 2000
Publicado de forma externa	Sí

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title = "Mechanical activation of the synthesis reaction of BaTiO3 from a mixture of BaCO3 and TiO2 powders",

abstract = "The influence of long term milling in an attritor of a mixture of BaCO3 and TiO2 powders on the reaction synthesis of BaTiO3 was studied. Thermal analysis (TG and DTA) of the unmilled and milled powders and X-ray diffraction of powders calcined at different temperatures were undertaken. Milling does not change the reaction sequence between BaCO3 and TiO2. BaTiO3 and Ba2TiO4 are produced in both kinds of powders. However, milling reduces the formation temperature and accelerates the formation rate of these two phases. The production of final BaTiO3 is incomplete in the milled powder, probably because of the formation of big crystals of Ba2TiO4. As a consequence, the milled powder contains large amounts of Ba2TiO4 after calcination at 1200 °C. Milling produces allotropic transformations in TiO2 from anatase phase, to α-PbO2-like phase and finally to rutile structure.",

author = "C. Gomez-Ya{\~n}ez and C. Benitez and H. Balmori-Ramirez",

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T1 - Mechanical activation of the synthesis reaction of BaTiO3 from a mixture of BaCO3 and TiO2 powders

AU - Gomez-Yañez, C.

AU - Benitez, C.

AU - Balmori-Ramirez, H.

N1 - Funding Information: This work was performed under a research project (DEPI-951196) granted by the Instituto Politécnico Nacional.

PY - 2000/4/1

Y1 - 2000/4/1

N2 - The influence of long term milling in an attritor of a mixture of BaCO3 and TiO2 powders on the reaction synthesis of BaTiO3 was studied. Thermal analysis (TG and DTA) of the unmilled and milled powders and X-ray diffraction of powders calcined at different temperatures were undertaken. Milling does not change the reaction sequence between BaCO3 and TiO2. BaTiO3 and Ba2TiO4 are produced in both kinds of powders. However, milling reduces the formation temperature and accelerates the formation rate of these two phases. The production of final BaTiO3 is incomplete in the milled powder, probably because of the formation of big crystals of Ba2TiO4. As a consequence, the milled powder contains large amounts of Ba2TiO4 after calcination at 1200 °C. Milling produces allotropic transformations in TiO2 from anatase phase, to α-PbO2-like phase and finally to rutile structure.

AB - The influence of long term milling in an attritor of a mixture of BaCO3 and TiO2 powders on the reaction synthesis of BaTiO3 was studied. Thermal analysis (TG and DTA) of the unmilled and milled powders and X-ray diffraction of powders calcined at different temperatures were undertaken. Milling does not change the reaction sequence between BaCO3 and TiO2. BaTiO3 and Ba2TiO4 are produced in both kinds of powders. However, milling reduces the formation temperature and accelerates the formation rate of these two phases. The production of final BaTiO3 is incomplete in the milled powder, probably because of the formation of big crystals of Ba2TiO4. As a consequence, the milled powder contains large amounts of Ba2TiO4 after calcination at 1200 °C. Milling produces allotropic transformations in TiO2 from anatase phase, to α-PbO2-like phase and finally to rutile structure.

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DO - 10.1016/S0272-8842(99)00053-X

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EP - 277

JO - Ceramics International

JF - Ceramics International

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