Effects of Dy3+-doping on the thermophysical properties of Ba2Ybalo5 ceramics

Ling Liu; Wei Zheng; Zhouwei Zhang; Zhuang Ma

doi:10.17222/mit.2017.223

Effects of Dy³⁺-doping on the thermophysical properties of Ba₂Ybalo₅ ceramics

Ling Liu, Wei Zheng, Zhouwei Zhang, Zhuang Ma^*

^*此作品的通讯作者

材料学院

Beijing Institute of Technology

科研成果: 期刊稿件 › 文章 › 同行评审

1 引用（Scopus）

摘要

Ba₂Ba₂(Dy_xYb_1-x)AlO₅ ceramics were prepared by solid-state sintering in air for 10 h at 1560 °C.The influence of Dy³⁺ doping on the thermal physical properties of Ba₂YbAlO₅ was studied. The phase structure of these ceramics were identified by X-ray diffraction, which indicates that all of these ceramics have a perovskite structure. The thermal physical properties of these ceramics measurement show that the thermal expansion coefficient of them by Dy³⁺ doped significantly increased, and the maximum value of about 12.2 × 10^-6K^-1 was reached at x = 0.3. The thermal conductivity of Ba₂(Dy_xYb_1-x)AlO₅ decreased firstly and then increased with the increasing of x. For samples with the same compound point x = 0.2, the minimum value (0.998 W·m^-1·K^-1) was realized. The excellent thermal physical properties mean that these solid solutions are potential materials for ceramic layers in thermal barrier coatings.

源语言	英语
页（从-至）	615-618
页数	4
期刊	Materiali in Tehnologije
卷	52
期	5
DOI	https://doi.org/10.17222/mit.2017.223
出版状态	已出版 - 2018

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title = "Effects of Dy3+-doping on the thermophysical properties of Ba2Ybalo5 ceramics",

abstract = "Ba2Ba2(DyxYb1-x)AlO5 ceramics were prepared by solid-state sintering in air for 10 h at 1560 °C.The influence of Dy3+ doping on the thermal physical properties of Ba2YbAlO5 was studied. The phase structure of these ceramics were identified by X-ray diffraction, which indicates that all of these ceramics have a perovskite structure. The thermal physical properties of these ceramics measurement show that the thermal expansion coefficient of them by Dy3+ doped significantly increased, and the maximum value of about 12.2 × 10-6K-1 was reached at x = 0.3. The thermal conductivity of Ba2(DyxYb1-x)AlO5 decreased firstly and then increased with the increasing of x. For samples with the same compound point x = 0.2, the minimum value (0.998 W·m-1·K-1) was realized. The excellent thermal physical properties mean that these solid solutions are potential materials for ceramic layers in thermal barrier coatings.",

keywords = "Perovskite-like ceramics, Perovskitna keramika, Prevleke, Thermal barrier coatings, Thermal conductivity, Thermal expansion coefficient, Toplotna prevodnost, Toplotni razteznostni koeficient, Uporabne kot termi{\v c}ne pregrade",

author = "Ling Liu and Wei Zheng and Zhouwei Zhang and Zhuang Ma",

note = "Publisher Copyright: {\textcopyright} Institute of Metals and Technology, Ljubljana, Slovenia.",

year = "2018",

doi = "10.17222/mit.2017.223",

language = "English",

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AU - Liu, Ling

AU - Zheng, Wei

AU - Zhang, Zhouwei

AU - Ma, Zhuang

N1 - Publisher Copyright: © Institute of Metals and Technology, Ljubljana, Slovenia.

PY - 2018

Y1 - 2018

N2 - Ba2Ba2(DyxYb1-x)AlO5 ceramics were prepared by solid-state sintering in air for 10 h at 1560 °C.The influence of Dy3+ doping on the thermal physical properties of Ba2YbAlO5 was studied. The phase structure of these ceramics were identified by X-ray diffraction, which indicates that all of these ceramics have a perovskite structure. The thermal physical properties of these ceramics measurement show that the thermal expansion coefficient of them by Dy3+ doped significantly increased, and the maximum value of about 12.2 × 10-6K-1 was reached at x = 0.3. The thermal conductivity of Ba2(DyxYb1-x)AlO5 decreased firstly and then increased with the increasing of x. For samples with the same compound point x = 0.2, the minimum value (0.998 W·m-1·K-1) was realized. The excellent thermal physical properties mean that these solid solutions are potential materials for ceramic layers in thermal barrier coatings.

AB - Ba2Ba2(DyxYb1-x)AlO5 ceramics were prepared by solid-state sintering in air for 10 h at 1560 °C.The influence of Dy3+ doping on the thermal physical properties of Ba2YbAlO5 was studied. The phase structure of these ceramics were identified by X-ray diffraction, which indicates that all of these ceramics have a perovskite structure. The thermal physical properties of these ceramics measurement show that the thermal expansion coefficient of them by Dy3+ doped significantly increased, and the maximum value of about 12.2 × 10-6K-1 was reached at x = 0.3. The thermal conductivity of Ba2(DyxYb1-x)AlO5 decreased firstly and then increased with the increasing of x. For samples with the same compound point x = 0.2, the minimum value (0.998 W·m-1·K-1) was realized. The excellent thermal physical properties mean that these solid solutions are potential materials for ceramic layers in thermal barrier coatings.

KW - Perovskite-like ceramics

KW - Perovskitna keramika

KW - Prevleke

KW - Thermal barrier coatings

KW - Thermal conductivity

KW - Thermal expansion coefficient

KW - Toplotna prevodnost

KW - Toplotni razteznostni koeficient

KW - Uporabne kot termične pregrade

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Effects of Dy3+-doping on the thermophysical properties of Ba2Ybalo5 ceramics

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Effects of Dy³⁺-doping on the thermophysical properties of Ba₂Ybalo₅ ceramics