Effects of B2O3 on the Phase Stability of Ba2Ti9O20 Microwave Ceramic |
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Authors: | Sea-Fue Wang Chiang-Chuang Chung Chai-Hui Wang Jinn P Chu |
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Affiliation: | Department of Materials and Minerals Resources Engineering, National Taipei University of Technology, Taipei, Taiwan, Republic of China;Institute of Materials Engineering, National Taiwan Ocean University, Keelung, Taiwan, Republic of China |
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Abstract: | Preparation of dense and phase-pure Ba2Ti9O20 is generally difficult using solid-state reaction, since there are several thermodynamically stable compounds in the vicinity of the desired composition and a curvature of Ba2Ti9O20 equilibrium phase boundary in the BaO–TiO2 system at high temperatures. In this study, the effects of B2O3 on the densification, microstructural evolution, and phase stability of Ba2Ti9O20 were investigated. It was found that the densification of Ba2Ti9O20 sintered with B2O3 was promoted by the transient liquid phase formed at 840°C. At sintering temperatures higher than 1100°C, the solid-state sintering became dominant because of the evaporation of B2O3. With the addition of 5 wt% B2O3, the ceramic yielded a pure Ba2Ti9O20 phase at sintering temperatures as low as 900°C, without any solid solution additive such as SnO2 or ZrO2. The facilities of B2O3 addition to the stability of Ba2Ti9O20 are apparently due to the eutectic liquid phase which accelerates the migration of reactant species. |
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Keywords: | boron oxide microwaves phases |
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