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- 열차폐용 희토류 산화물의 상형성과 열물성
- 심병철, 곽길호, 이성민, 오윤석, 김형태, 장병국, 김성원
- Phase Evolution and Thermo-physical Properties of Rare-earth Oxides for Thermal Barrier Systems
- Byung-Chul Shim, Kil-Ho Kwak, Sung-Min Lee, Yoon-Suk Oh, Hyung-Tae Kim, Byung-Koog Jang, Seong-Won Kim
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Journal of Korean Powder Metallurgy Institute 2010;17(2):148-153
DOI: https://doi.org/10.4150/KPMI.2010.17.2.148
2한국세라믹기술원 엔지니어링세라믹센터
3한국세라믹기술원 엔지니어링세라믹센터
4한국세라믹기술원 엔지니어링세라믹센터
5한국세라믹기술원 엔지니어링세라믹센터
6물질.재료 연구기구, 나노세라믹센터
7한국세라믹기술원 엔지니어링세라믹센터
1Engineering Ceramic Center, Korea Institute of Ceramic Engineering and Technology
2Engineering Ceramic Center, Korea Institute of Ceramic Engineering and Technology
3Engineering Ceramic Center, Korea Institute of Ceramic Engineering and Technology
4Engineering Ceramic Center, Korea Institute of Ceramic Engineering and Technology
5Engineering Ceramic Center, Korea Institute of Ceramic Engineering and Technology
6Nano Ceramics Center, National Institute of Materials Science
7Engineering Ceramic Center, Korea Institute of Ceramic Engineering and Technology
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Abstract
Thermal barrier systems have been widely investigated over the past decades, in order to enhance reliability and efficiency of gas turbines at higher temperatures. Yttria-stabilized zirconia (YSZ) is one of the most leading materials as the thermal barriers due to its low thermal conductivity, thermodynamic stability, and thermal compatibility with metal substrates. In this work, rare-earth oxides with pyrochlore phases for thermal barrier systems were investigated. Pyrochlore phases were successfully formed via solid-state reactions started from rare-earth oxide powders. For the heat-treated samples, thermo-physical properties were examined. These rare-oxide oxides showed thermal expansion of 9sim12times10-6/K and thermal conductivity of 1.2~2.4 W/mK, which is comparable with the thermal properties of YSZ.
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