燃气轮机叶片热障涂层降解特性评价

Yongchan Jung, Min-Tae Kim, Ju-Hak Lee, Jamin Ahn, Kihong Kim
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引用次数: 0

摘要

为了评估发电用燃气轮机高温热障涂层部件的寿命,本研究在一台超过24 k等效工作小时的80 mw级燃气轮机上进行。通过分析YSZ(钇稳定氧化锆)面漆(作为热障涂层)、NiCrAlY结合涂层和界面层来评估降解特性。对顶部、中部和底部切片的显微组织分析表明,高温切片中热生长氧化物(TGO)生长、结合层内Cr析出物生长和扩散层形成活跃。这些显微组织变化与在使用叶片表面观察到的热障涂层损伤区域一致。除了TGO的厚度外,结合层内Cr析出物的分布也是评价降解特性的关键指标。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evaluation of Degradation Characteristics of Thermal Barrier Coating on Gas Turbine Blades
In order to evaluate the lifespan of high-temperature parts with thermal barrier coating in gas turbines used for power generation, this study was performed on an 80 MW-class gas turbine exceeding 24 k equivalent operating hours. Degradation characteristics were evaluated by analyzing the YSZ (Yttria Stabilized Zirconia) top coat, which serves as the thermal barrier coating layer, the NiCrAlY bond coat, and interface layers. Microstructural analysis of the top, middle, and bottom sections showed that Thermal Growth Oxide (TGO) growth, Cr precipitate growth within the bond coat layer, and formation of diffusion layer occur actively in high-temperature sections. These microstructural changes were consistent with damaged areas of the thermal barrier coating layer observed at the surface of the used blade. The distribution of Cr precipitates within the bond coat layer, in addition to the thickness of TGO, is regarded as a key indicator in the evaluation of degradation characteristics.
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