Effect of glass composition on the dielectric properties of a liquid- phase-sintered MgO-doped BaTiO3

Shin Tae Bae; Sangwook Lee; Jin Ho Kim; Kug Sun Hong; Hyunho Shinw; Hyun Suk Jung

doi:10.1111/j.1551-2916.2008.02435.x

Effect of glass composition on the dielectric properties of a liquid- phase-sintered MgO-doped BaTiO₃

Shin Tae Bae, Sangwook Lee, Jin Ho Kim, Kug Sun Hong, Hyunho Shinw, Hyun Suk Jung

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Abstract

A series of BaTiO₃-MgO-glass mixtures has been sintered via liquid-phase sintering in a reducing atmosphere at 12801C by controlling MgO/CaO ratio in an aluminum borosilicate glass composition, and the subsequent microstructure, phase evolution, and dielectric properties have been investigated. The growth of BaTiO3 grains was inhibited in all of the prepared specimens with the evidence of Mg incorporation to the BaTiO₃ lattice from the glass. The change in MgO/CaO ratio in the glass notably modified the dielectric properties: a high MgO/ CaO ratio in the glass resulted in a decreased dielectric constant, a decreased phase transition temperature, a broadened temperature range of phase transition, a decreased temperature coefficient of capacitance, and increased electrical resistivity.

Original language	English
Pages (from-to)	2205-2210
Number of pages	6
Journal	Journal of the American Ceramic Society
Volume	91
Issue number	7
DOIs	https://doi.org/10.1111/j.1551-2916.2008.02435.x
State	Published - Jul 2008

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title = "Effect of glass composition on the dielectric properties of a liquid- phase-sintered MgO-doped BaTiO3",

abstract = "A series of BaTiO3-MgO-glass mixtures has been sintered via liquid-phase sintering in a reducing atmosphere at 12801C by controlling MgO/CaO ratio in an aluminum borosilicate glass composition, and the subsequent microstructure, phase evolution, and dielectric properties have been investigated. The growth of BaTiO3 grains was inhibited in all of the prepared specimens with the evidence of Mg incorporation to the BaTiO3 lattice from the glass. The change in MgO/CaO ratio in the glass notably modified the dielectric properties: a high MgO/ CaO ratio in the glass resulted in a decreased dielectric constant, a decreased phase transition temperature, a broadened temperature range of phase transition, a decreased temperature coefficient of capacitance, and increased electrical resistivity.",

author = "Bae, {Shin Tae} and Sangwook Lee and Kim, {Jin Ho} and Hong, {Kug Sun} and Hyunho Shinw and Jung, {Hyun Suk}",

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T1 - Effect of glass composition on the dielectric properties of a liquid- phase-sintered MgO-doped BaTiO3

AU - Bae, Shin Tae

AU - Lee, Sangwook

AU - Kim, Jin Ho

AU - Hong, Kug Sun

AU - Shinw, Hyunho

AU - Jung, Hyun Suk

PY - 2008/7

Y1 - 2008/7

N2 - A series of BaTiO3-MgO-glass mixtures has been sintered via liquid-phase sintering in a reducing atmosphere at 12801C by controlling MgO/CaO ratio in an aluminum borosilicate glass composition, and the subsequent microstructure, phase evolution, and dielectric properties have been investigated. The growth of BaTiO3 grains was inhibited in all of the prepared specimens with the evidence of Mg incorporation to the BaTiO3 lattice from the glass. The change in MgO/CaO ratio in the glass notably modified the dielectric properties: a high MgO/ CaO ratio in the glass resulted in a decreased dielectric constant, a decreased phase transition temperature, a broadened temperature range of phase transition, a decreased temperature coefficient of capacitance, and increased electrical resistivity.

AB - A series of BaTiO3-MgO-glass mixtures has been sintered via liquid-phase sintering in a reducing atmosphere at 12801C by controlling MgO/CaO ratio in an aluminum borosilicate glass composition, and the subsequent microstructure, phase evolution, and dielectric properties have been investigated. The growth of BaTiO3 grains was inhibited in all of the prepared specimens with the evidence of Mg incorporation to the BaTiO3 lattice from the glass. The change in MgO/CaO ratio in the glass notably modified the dielectric properties: a high MgO/ CaO ratio in the glass resulted in a decreased dielectric constant, a decreased phase transition temperature, a broadened temperature range of phase transition, a decreased temperature coefficient of capacitance, and increased electrical resistivity.

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Effect of glass composition on the dielectric properties of a liquid- phase-sintered MgO-doped BaTiO₃

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