个人信息
教师姓名:尹良君
教师拼音名称:yinliangjun
电子邮箱:ljyin@uestc.edu.cn
所在单位:电子科学与工程学院
学历:博士研究生毕业
办公地点:国家电磁辐射控制材料工程技术研究中心 C318B
性别:男
学位:工学博士学位
职称:教授
在职信息:在职人员
毕业院校:中国科技大学
硕士生导师
曾获荣誉:省部级人才计划
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所属院系: 电子科学与工程学院(示范性微电子学院)
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学科:电子信息材料与元器件
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论文成果
Pursuing low infrared emissivity materials with wider coverage band in ZrB2–CeO2 compounds and their reaction mechanisms
发布时间:2025-05-23 点击次数:
所属单位:[1] School of Materials and Energy, University of Electronic Science and Technology of China, Xiyuan Road, Chengdu, 2006, China; [2] National Engineering Research Center of Electromagnetic Radiation Control Materials, University of Electronic Science and Technology of China, Xiyuan Road, Chengdu, 2006, China; [3] Department of Materials Science and Engineering, University of Central Florida, Orlando, FL, 32826, United States; [4] College of Physics Engineering, Henan University of Science and Technology, Luoyang, 471300, China
发表刊物:Ceramics International
关键字:Glass - Microstructure - Cerium oxide - Nitrogen oxides - Electromagnetic wave emission - Zirconia - Phase composition
摘要:Low infrared emissivity in 3–5 μm or 8–14 μm band has been realized in different host materials. Realizing the low infrared emissivity in single material covering the entire band is rarely achieved. This research explores a binary system of ultra-high temperature ceramic ZrB2–CeO2 composites prepared by solid state sintering. their phase composition, microstructure evolution, reaction mechanism and infrared emissivity performance were discussed in detail. It was found that CeO2, ZrB2, ZrO2, and ZrnCe1-nO2 existed in the sample in addition to the coated glass phase of CeO2 on the surface of the sample. In-situ HRTEM results clearly revealed a series of reaction mechanism of CeO2 and ZrB2. With the increase of sintering temperature, the CeO2 particles gradually transformed into a glass phase, and were distributed on the surface of ZrB2 particles, and ZrO2 was formed on the surface of ZrB2, simultaneously. Consequently, ZrnCe1-nO2 is formed as the reaction of ZrO2 and CeO2. Compared with the infrared emissivity spectra of pure CeO2 and ZrB2, a low infrared emissivity less than 0.2 in a wider coverage band of 3–5 and 8–14 μm in ZrB2–CeO2 compounds was achieved as a result of synergistic interaction between CeO2 and ZrB2. The obtained information about the phase composition and microstructure evolution helps to realize low infrared emissivity in a wider coverage band in compounds via composition and microstructure modification. ? 2020 Elsevier Ltd and Techna Group S.r.l.
文献类型:Journal article (JA)
卷号:46
期号:11
页面范围:18234-18240
ISSN号:02728842
是否译文:否
