Preparation and oxidation performance of a low-diffusion Pt-modified aluminide coating with Re-base diffusion barrier

•Re-base diffusion barrier is developed for (Ni,Pt)Al coating on Ni-base single crystal superalloy.•(Ni,Pt)Al coating with Re-base DB exhibits better oxidation performance.•Re-base DB suppresses interdiffusion and reduces thickness of SRZ.•Holding σ phase structure, Re-base DB shows good stability a...

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Veröffentlicht in:Corrosion science 2020-05, Vol.168, p.108582, Article 108582
Hauptverfasser: Liu, H., Li, S., Jiang, C.Y., Yu, C.T., Bao, Z.B., Zhu, S.L., Wang, F.H.
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Sprache:eng
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Zusammenfassung:•Re-base diffusion barrier is developed for (Ni,Pt)Al coating on Ni-base single crystal superalloy.•(Ni,Pt)Al coating with Re-base DB exhibits better oxidation performance.•Re-base DB suppresses interdiffusion and reduces thickness of SRZ.•Holding σ phase structure, Re-base DB shows good stability and continuity during oxidation. A low-diffusion (Ni,Pt)Al coating with Re-base diffusion barrier was prepared on a second-generation single-crystal superalloy via electroplating and gaseous aluminizing, in which the electroplating consisted of depositing Ni-Re and Pt, sequentially. Compared with normal (Ni,Pt)Al, cyclic and isothermal oxidation performances of the coating with Re-base DB were evaluated at 1100 °C in static air. It is indicated that the Re-base DB contributed to better oxidation resistance and lower inter-diffusion extent, where the thickness of secondary reaction zone decreased by 49 % after 1000 h isothermal oxidation. Mechanisms responsible for the improved oxidation performance and the role of Re-base DB are discussed.
ISSN:0010-938X
1879-0496
DOI:10.1016/j.corsci.2020.108582