材料科学
热障涂层
涂层
萤石
热膨胀
分层(地质)
复合材料
开裂
图层(电子)
沉积(地质)
相(物质)
冶金
古生物学
化学
有机化学
沉积物
生物
俯冲
构造学
作者
Jeroen A. Deijkers,Matthew R. Begley,H.N.G. Wadley
标识
DOI:10.1016/j.jeurceramsoc.2022.04.046
摘要
The durability of environmental barrier coating (EBC) systems in gas turbine engine environments depends upon their temperature dependent rates of degradation by processes such as steam volatilization and bond coat oxidation. While addition of a thermal barrier coating (TBC) reduces the temperature within the EBC system, it introduces new failure mechanisms. Deposition of a segmented HfO2 TBC with a reduced in-plane Young’s modulus is essential to avoid bifurcated TBC channel cracking into a Yb2Si2O7 EBC, and delamination, as a result of an approximately 50% difference in coefficients of thermal expansion (CTE) of the coating layers. During prolonged high temperature steam cycling, a thin fluorite phase reaction layer is observed to develop at the HfO2-YbDS interface consistent with recent thermochemical assessments. The CTE of the fluorite phase is shown to be substantially higher than that of either of the layers to which it is bonded, resulting in tunnel cracking of the fluorite, and eventual coating delamination of the TBC at either the fluorite-HfO2 or YbDS-fluorite interfaces upon cooling. The study highlights the importance of matching the CTEs of the TBC and EBC layers during coating system design, and those of the reaction products that may form between them.
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