Dielectric properties of (Zn1-xMgx)TiO3 ceramics and the modulation effect of TiO2

机译：（Zn1-xMgx）TiO3陶瓷的介电性能和TiO2的调制效应

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Microwave ceramics with good performances based on (ZnMg)TiO3-TiO2 system were developed and prepared by conventional solid-state method. The influence of Zn:Mg ratio, calcination temperature, and TiO2 addition on the microstructures, crystal phases and microwave properties of (Zn1-xMgx)TiO3 (x = 0.1～0.5) was investigated. The results indicate that the sufficient addition of MgTiO3 can inhibit the decomposition of ZnTiO3 efficiently, and hexagonal single-phase (ZnMg)TiO3 host materials can be synthesized in the wide temperature range. Due to the compensation effect of TiO2 for τ f of host materials, microwave properties of (Zn1-xMgx)TiO3 were improved significantly. (Zn0.65Mg0.35TiO3 ceramics doped 10～15wt% TiO2 with excellent microwave properties of ε = 27～33, τ f ≈±10 ppm/℃,Q×f > 70,000 (10GHz) were obtained finally.

机译：以（ZnMg）TiO3-TiO2为基体，采用常规固相法制备并制备了性能优良的微波陶瓷。研究了Zn：Mg比，煅烧温度和TiO2的添加对（Zn1-xMgx）TiO3（x = 0.1〜0.5）的微观结构，晶相和微波性能的影响。结果表明，充分添加MgTiO3可以有效抑制ZnTiO3的分解，并且可以在较宽的温度范围内合成六方单相（ZnMg）TiO3基质材料。由于TiO2对基质材料τf的补偿作用，（Zn1-xMgx）TiO3的微波性能得到了显着改善。（Zn0.65Mg0.35TiO3掺杂10〜15wt％的TiO2陶瓷，微波性能优异，ε= 27〜33，τf≈±10 ppm /℃，Q×f> 70,000（10GHz）。

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《Asian Pacific Confederation of Chemical Engineering congress》|2008年|1-9|
会议地点 Dalian(CN)
作者
rn; rn;
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作者单位

Wenming Cao;

rnRui Wang;

rnWeixin Xie;

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会议组织
原文格式 PDF
正文语种
中图分类化学工业;
关键词
microwave ceramics; ZnTiO3; MgTiO3; dielectric properties; microstructure;

机译：微波陶瓷； ZnTiO3; MgTiO3;介电性能微观结构;

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Dielectric properties of (Zn1-xMgx)TiO3 ceramics and the modulation effect of TiO2

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