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Microstructure and properties of Al and Al-Cr coatings on nickel-based superalloy GH625 by a thermal diffusion process

Aluminide coating has been known as one of the best surface engineering approaches to combat high temperature corrosion in nickel-based superalloy. In this paper, A chromium-modified aluminide coating was prepared on the GH625 by the neutral salt bath method. The microstructure and properties of the...

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Bibliographic Details
Published in:Materials research express 2019-01, Vol.6 (4), p.46426
Main Authors: Li, Chong, Xu, Xiaojing, Wang, Saifu, Cai, Chengbin, Ju, Shihao, Huang, Jindong, Yang, Song
Format: Article
Language:English
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Summary:Aluminide coating has been known as one of the best surface engineering approaches to combat high temperature corrosion in nickel-based superalloy. In this paper, A chromium-modified aluminide coating was prepared on the GH625 by the neutral salt bath method. The microstructure and properties of the modified coating was studied and compared with simple-aluminized coating by scanning electron microscope, x-ray diffraction techniques, depth elemental profiling analysis, microhardness and interface bonding force test. Surface SEM and EDS analysis show that the Al-Cr coating contains more Cr element, finer microstructure and fewer oxide inclusions. Surface XRD analysis shows that the phase structure of Al-Cr coating is different and the -Cr phase has replaced Ni3Al and Al4CrNi15 phases in the Al coating. Cross section SEM and line scan analysis show that the microstructure of Al-Cr coating is more compact and the element distribution is more uniform than the Al coating. In addition, there is a significantly wider interface zone in the Al-Cr coating than that of Al coating. In the interface zone, there is an obvious Cr-rich area and a wider elemental diffusion area toward the substrate. As the result, the Al-Cr coating has higher microhardness and the interfacial bonding force between the coating and the substrate.
ISSN:2053-1591
2053-1591
DOI:10.1088/2053-1591/aaff03