固相反应制备高性能低温烧结微波介质陶瓷

Chun-Hsu Shen, Zhifu Liu, Yunxia Huang, Zhimin Li, Yongxiang Li
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引用次数: 1

摘要

本文介绍了一种多步固相反应法制备高性能低温烧结微波介质陶瓷的方法。以CaO-SiO2-B2O3三元体系为模型材料进行了研究。制备了不同Ca/B/Si比的样品。研究了复合材料的相组成、微观结构和微波介电性能。所研究的组合物的主要晶相是CaSiO3、Ca2B2O5和SiO2。扫描电镜观察到棒状结晶相。在980℃的烧结温度下,42%CaO-26%B2O3-32%SiO2组分具有优异的微波介电性能,介电常数为6.2,Q·f值为28200 (@13 GHz)。低介电损耗归因于无玻璃工艺和高度结晶的相组成。加入BBAS材料后,烧结温度降至900℃,介电常数为5.9,Q·f值为11200 (@13 GHz)。低温烧结陶瓷与银电极的相容性较好。
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High performance low temperature sintered microwave dielectric ceramics prepared by solid-state reaction
In this work, a multi-step solid reaction method was introduced for preparing high performance low temperature sintered microwave dielectric ceramics. The CaO-SiO2-B2O3 ternary system was investigated as a model material. Samples with different Ca/B/Si ratios were prepared. The phase composition, microstructure, and microwave dielectric properties were studied. The major crystalline phases of the studied compositions were CaSiO3, Ca2B2O5, and SiO2. Bar-like crystallized phase were observed from the scanning electron microscopy images. Among these studied compositions, the 42%CaO-26%B2O3-32%SiO2 component showed excellent microwave dielectric properties with a dielectric constant of 6.2 and Q·f value of 28200 (@13 GHz) at a sintering temperature of 980°C. The low dielectric loss attributes to the glass-free process and highly crystallized phase compositions. The sintering temperature could be reduced to 900°C by adding the BBAS material, and a dielectric constant of 5.9 and Q·f value of 11200 (@13 GHz) was obtained. The low temperature sintered ceramic is cofirable with Ag electrode.
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