Microstructural evolution at interfaces of thermal barrier coatings during isothermal oxidation

Liu Y. Z.; Zheng S. J.; Zhu Y. L.; Wei H.; Ma X. L.

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Microstructural evolution at interfaces of thermal barrier coatings during isothermal oxidation

机译：等温氧化过程中热障涂层界面的微观结构演变

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Using transmission electron microscopy, we investigate microstructural evolution at interfaces of a plasma sprayed thermal barrier coating system with an yttria-stabilized zirconia top coat and a NiCrAlY bond coat after isothermal oxidation at 1100 degrees C for up to 50 h. Interestingly, thermally grown oxide (TGO) layers split into two sub-layers. In principle, one of the two sub-layers comprises a mixture of alpha-Al2O3, Cr2O3 and Ni(Al, Cr)(2)O-4, while the other one consists of dense alpha-Al2O3 and Cr2O3. Main microstructural evolution of the TGO layers follows a similar sequence that: original phases -> alpha-Al2O3 + Cr2O3 -> alpha-Al2O3 + Cr2O3 + Ni(Al, Cr)(2)O-4. Particularly, after 50 h oxidation, gamma-Ni and NiO form in the upper TGO sub-layer at the top coat-bond coat interface, and gamma-Ni and alpha-Cr form in the upper TGO sub-layer at the bond coat-substrate interface. Moreover, gamma-Al and beta-Ti precipitate at the TGO-substrate interface after 50 h oxidation. (C) 2016 Elsevier Ltd. All rights reserved.

机译：使用透射电子显微镜，我们研究了等离子喷涂热障涂层系统（在1100摄氏度下等温氧化长达50小时后，具有氧化钇稳定的氧化锆顶涂层和NiCrAlY粘合涂层）的界面上的微观结构演变。有趣的是，热生长氧化物（TGO）层分为两个子层。原则上，两个子层之一包含α-Al2O3，Cr2O3和Ni（Al，Cr）（2）O-4的混合物，而另一层包含致密的α-Al2O3和Cr2O3。 TGO层的主要微观结构演变遵循类似的顺序：原始相->α-Al2O3+ Cr2O3->α-Al2O3+ Cr2O3 + Ni（Al，Cr）（2）O-4。特别是在氧化50小时后，γ-Ni和NiO在顶涂层-粘结层界面的上层TGO子层中形成，γ-Ni和α-Cr在粘结层-上层的TGO子层中-基材界面。此外，氧化50小时后，γ-Al和β-Ti沉淀在TGO-底物界面上。（C）2016 Elsevier Ltd.保留所有权利。

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《Journal of the European Ceramic Society 》 |2016年第7期| 共10页
作者
Liu Y. Z.; Zheng S. J.; Zhu Y. L.; Wei H.; Ma X. L.;
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正文语种 eng
中图分类陶瓷工业 ;
关键词
Thermal barrier coating (TBC); Interfaces; Isothermal oxidation; Thermally grown oxide (TGO); Transmission electron microscopy (TEM);

机译：热障涂层（TBC）;界面;等温氧化;热生长氧化物（TGO）;透射电子显微镜（TEM）;

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1. Microstructural evolution at interfaces of thermal barrier coatings during isothermal oxidation [J] . Liu Y. Z., Zheng S. J., Zhu Y. L., Journal of the European Ceramic Society . 2016 ,第7期

机译：等温氧化过程中热障涂层界面的微观结构演变
2. Microstructural Evolution of Thermal Barrier Coatings during Isothermal Oxidation [J] . A. Salazar, J. Gomez-Garcia, P. Poza, Key Engineering Materials . 2007 ,第期

机译：等温氧化过程中热障涂层的组织演变
3. An Investigation of the Effects of Isothermal Exposure on Microstructural Evolution and Oxidation in a Thermal Barrier Coating [J] . T.Chang, C.Mercer, M.Walter Key Engineering Materials . 2001 ,第期

机译：等温暴露对热障涂层微观结构演变和氧化影响的研究
4. Microstructural Evolution of Thermal Barrier Coatings during Isothermal Oxidation [C] . A. Salazar, J. Gomez-Garcia, P. Poza and V. Utrilla SICMAC Summer School on Layered,Functional Gradient Ceramics,and Thermal barrier Coatings . 2007

机译：等温氧化过程中热阻挡涂层的微观结构演变
5. Opportunities for functional oxides in yttrium oxide-titanium oxide-zirconium oxide system: Applications for novel thermal barrier coatings . [D] . Francillon, Wesley. 2009

机译：氧化钇-氧化钛-氧化锆体系中功能性氧化物的机会：新型热障涂层的应用。
6. The Impact of Isothermal Treatment on the Microstructural Evolution and the Precipitation Behavior in High Strength Linepipe Steel [O] . Yong Tian, Hongtao Wang, Xiaoning Xu, 2020

机译：等温处理对高强度管线钢的组织演变和析出行为的影响
7. Microstructural evolution and growth kinetics of thermally grown oxides in plasma sprayed thermal barrier coatings [O] . Xiaoju Liu, Teng Wang, Caicai Li, 2016

机译：等离子喷涂热障涂层中热生长氧化物的微观结构演变和生长动力学

Microstructural evolution at interfaces of thermal barrier coatings during isothermal oxidation

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