期刊
CERAMICS INTERNATIONAL
卷 49, 期 11, 页码 17340-17347出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.ceramint.2023.02.101
关键词
CaO; MgO; Transparent ceramics; Densification; Thermal conductivity; Composite ceramic
By using CaO as a sintering additive, highly transparent MgO ceramic was prepared by hot isostatic pressing (HIP) technique of vacuum-sintered MgO compact. The densification process of MgO ceramic is significantly enhanced by doping 0.5 at% CaO at the vacuum-sintering temperature of 1100-1350 degrees C. The resulting ceramic exhibits high transmittance and thermal conductivity, making it a promising material for phosphor composite ceramics.
Highly transparent MgO ceramic was prepared by hot isostatic pressing (HIP) technique of vacuum-sintered MgO compact using CaO as the sintering additive. Densification process of MgO ceramic is significantly enhanced by doping 0.5 at% CaO at the vacuum-sintering temperature of 1100-1350 degrees C. By subsequent HIP sintering at 1650 degrees C, the relative density of 0.5% CaO-doped MgO ceramic vacuum-sintered at 1350 degrees C increases from 94.67% to 99.97%. It attains high in-line transmittance of 70.78% at 600 nm and 87.59% at 6000 nm, respectively. Meanwhile, the thermal conductivity reaches 53.2 W/(m center dot K), demonstrating that CaO-doped MgO is a promising candidate material as the secondary phase of phosphor composite ceramics. Herein, 0.5% CaO-doped MgO-YGAG:Ce (Y2.82Gd0.18Al5O12:Ce) composite ceramic with stable binary-phase structure, high rela-tive density of 99.1% and thermal conductivity of 32.6 W/(m center dot K) was synthesized by vacuum-sintering at 1350 degrees C and the luminescence performance under blue laser excitation was evaluated.
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