The Effect of Coating Composition and Geometry on TBC Lifetime

机译：涂层组成和几何形状对TBC寿命的影响

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Several factors are being investigated that affect the performance of thermal barrier coatings (TBC) for use in land-based gas turbines where coatings are mainly thermally sprayed. This study examined high velocity oxygen fuel (HVOF), air plasma sprayed (APS) and vacuum plasma sprayed (VPS) MCrAlYHfSi bond coatings with APS YSZ top coatings at 900°-1100°C. For superalloy 247 substrates and VPS coatings tested in 1-h cycles at 1100°C, removing 0.6wt.%Si had no effect on average lifetime in 1-h cycles at 1100°C, but adding 0.3%Ti had a negative effect. Rod specimens were coated with APS, HVOF and HVOF with an outer APS layer bond coating and tested in 100-h cycles in air+10%H_2O at 1100°C. With an HVOF bond coating, initial results indicate that 12.5 mm diameter rod specimens have much shorter 100-h cycle lifetimes than disk specimens. Longer lifetimes were obtained when the bond coating had an inner HVOF layer and outer APS layer.

机译：目前正在研究影响隔热涂层（TBC）性能的几个因素，这些隔热涂层用于陆基燃气轮机，而隔热涂层主要是热喷涂的。这项研究在900°-1100°C下检查了高速氧燃料（HVOF），空气等离子喷涂（APS）和真空等离子喷涂（VPS）MCrAlYHfSi粘结涂层以及APS YSZ顶涂层。对于在1100°C下进行1h循环测试的247合金和VPS涂层，去除0.6wt。％Si对1100°C下1h循环的平均寿命没有影响，但是添加0.3％Ti则具有负面影响。棒状样品在APS，HVOF和HVOF上涂有APS外层粘结涂层，并在1100°C的空气+ 10％H_2O中进行100小时循环测试。使用HVOF粘结涂层，初步结果表明，直径为12.5 mm的棒状样品的100小时循环寿命比圆盘状样品要短得多。当粘结涂层具有内部HVOF层和外部APS层时，可获得更长的使用寿命。

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《ASME turbo expo: turbine technical conference and exposition》|2017年|V006T24A018.1-V006T24A018.9|共9页
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Bruce A. Pint; Michael J. Lance; J. Allen Haynes;
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1. Impact of superalloy composition, bond coat roughness and water vapor on TBC lifetime with HVOF NiCoCrAlYHfSi bond coatings [J] . J.A. Haynes, K.A. Unocic, M.J. Lance, Surface & Coatings Technology . 2013,第Null期

机译：HVOF NiCoCrAlYHfSi粘结涂层对超级合金成分，粘结层粗糙度和水蒸气的影响对TBC寿命的影响
2. The Effect of Coating Composition and Geometry on Thermal Barrier Coatings Lifetime [J] . Pint Bruce A., Lance Michael J., Haynes J. Allen Journal of Engineering for Gas Turbines and Power . 2019,第3期

机译：涂层组成和几何形状对热障涂层寿命的影响
3. High-temperature cyclic oxidation of Pt-rich γ-γ' bond-coatings. Part Ⅱ: Effect of Pt and Al on TBC system lifetime [J] . Audigie Pauline, Rouaix-Vande Put Aurelie, Malie Andre, Corrosion science . 2019,第APRa期

机译：富含Pt的γ-γ'粘结涂层的高温循环氧化。第二部分：铂和铝对TBC系统寿命的影响
4. The Effect of Coating Composition and Geometry on TBC Lifetime [C] . Bruce A. Pint, Michael J. Lance, J. Allen Haynes ASME Turbine Technical Conference and Exposition . 2017

机译：涂料组合物和几何对TBC寿命的影响
5. Evaluation of the effectiveness of alkaline-earth metal oxides in inhibiting vanadium-induced hot corrosion of yttria-stabilized zirconia thermal barrier coatings (TBCs) [D] . Gbadamosi, Aliyu Arisekola. 2013

机译：评价碱土金属氧化物抑制钒稳定的氧化钇稳定的氧化锆热障涂层（TBC）的有效性
6. A Study on the Microstructural Characterization and Phase Compositions of Thermally Sprayed Al2O3-TiO2 Coatings Obtained from Powders and Water-Based Suspensions [O] . Monika Michalak, Filofteia-Laura Toma, Leszek Latka, 2020

机译：粉末和水悬浮液获得的热喷涂Al2O3-TiO2涂层的微观结构表征和相组成的研究
7. Influence of composition and processing on the oxidation behavior of MCrAlY-coatings for TBC applications [O] . Toscano Alvarez Juan Pablo 2008

机译：组成和工艺对TBC应用MCrAlY涂层氧化行为的影响

The Effect of Coating Composition and Geometry on TBC Lifetime

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