<![CDATA[Microstructure, phase evolution and interfacial effects in a new Zn <ce:inf loc='post'>0.9</ce:inf>Mg <ce:inf loc='post'>0.1</ce:inf>TiO <ce:inf loc='post'>3</ce:inf>-ZnNb <ce:inf loc='post'>2</ce:inf>O <ce:inf loc='post'>6</ce:inf> ceramic system with greatly induced improvement in microwave dielectric properties]]>

Shenhui Lei; Huiqing Fan; Xiaohu Ren; Jiawen Fang; Longtao Ma; Hailin Tian

首页> 外文期刊>Scripta materialia >0.9Mg 0.1TiO 3-ZnNb 2O 6 ceramic system with greatly induced improvement in microwave dielectric properties]]>

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0.9Mg 0.1TiO 3-ZnNb 2O 6 ceramic system with greatly induced improvement in microwave dielectric properties]]>

机译：<！“> TIO 3 -ZNNB 2 O 6 陶瓷系统，具有极大地诱导微波介质特性的改进]]]>

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Abstract

Zn0.9Mg0.1TiO3-ZnNb2O6(ZMT-ZN) ceramics was synthesized and characterized successfully for the first time, and phase conversion to secondary phases was largely restrained due to the introduction of ZnO nano inhibitors. Excellent microwave dielectric properties and optimal combination were achieved for the ceramics sintered at 1100°C, i.e.,εr=27.5,Q×f=75,000GHz,τf=?3.8ppm/°C. Particularly, the comparatively insulated interlayers were considered as the key mechanism to impede transportation or transfer of defects and surface polarization charges. Considering the merits of facile, low cost and simple process, this series of ZMT-ZN ceramics are promising new candidates for ultra-low microwave devices.

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Zn0 。9 MG 0.1 TIO 3 -ZNNB 2 O 6 （ZMT-ZN）陶瓷是合成的，并且首次成功地表征，并且由于引入ZnO，在很大程度上限制了对二次相的相位转换纳米抑制剂。优异的微波介电性能和最佳组合在1100℃下烧结的陶瓷，即ε r = 27.5， q × f = 75,000ghz，τ f =？3.8ppm /°c。特别地，相对绝缘的中间层被认为是妨碍运输或转移缺陷和表面偏振电荷的关键机制。考虑到Facile，低成本和简单过程的优点，这一系列ZMT-ZN陶瓷是超低微波器件的新候选者。

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来源
《Scripta materialia》 |2018年第2018期|共6页
作者
Shenhui Lei; Huiqing Fan; Xiaohu Ren; Jiawen Fang; Longtao Ma; Hailin Tian;
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作者单位

State Key Laboratory of Solidification Processing School of Materials Science and Engineering Northwestern Polytechnical University;

State Key Laboratory of Solidification Processing School of Materials Science and Engineering Northwestern Polytechnical University;

State Key Laboratory of Solidification Processing School of Materials Science and Engineering Northwestern Polytechnical University;

Center for NanoScience (CeNS) Ludwig-Maximilians-Universit?t München;

State Key Laboratory of Solidification Processing School of Materials Science and Engineering Northwestern Polytechnical University;

State Key Laboratory of Solidification Processing School of Materials Science and Engineering Northwestern Polytechnical University;

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原文格式 PDF
正文语种 eng
中图分类冶金工业;
关键词
Zn0.9Mg0.1TiO3-ZnNb2O6ceramics; Microwave dielectric properties; Structural evolution; ZnO inhibitor; Interfacial effect;

机译：Zn0.9mg0.1tio3-znnb2o6ceramics;微波介电性能;结构演变;ZnO抑制剂;界面效应;

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机译：烧结过程对（Ba $ LT; INF $ LT; / INF $ GT; CA $ LT; INF $ LT; / INF $ GT;）（TI $ LT; / INF $ GT;）（TI $ LT;）（TI $ LT;）（TI $ LT;）（TI $ LT;）（TI $ LT;）（TI $ LT;）（TI $ LT; inf $ 0.9 $ / inf $ zr $ inf $ 0.1 $ / / inf $ ）o $ inf $ 3 $ / inf $ 领先 - 免费陶瓷

0.9Mg 0.1TiO 3-ZnNb 2O 6 ceramic system with greatly induced improvement in microwave dielectric properties]]>

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