Cyclic oxidation behavior of MCrAlX coatings made by electrolytic codeposition

Ying Zhang; Jason Witman; Sebastien Dryepondt

doi:10.1002/maco.202112843

Cyclic oxidation behavior of MCrAlX coatings made by electrolytic codeposition

Ying Zhang, Jason Witman, Sebastien Dryepondt

Corrosion Science & Technology

Research output: Contribution to journal › Article › peer-review

Abstract

MCrAlY coatings made by electron beam physical vapor deposition or thermal spray are often used to provide protection for superalloys against high-temperature oxidation and corrosion. In addition to Y, other elements such as Ta, Hf, and Si have been reported to be beneficial. In this paper, NiCoCrAlX (where X = Y, Ta, Hf, and/or Si) coatings were fabricated via an electrolytic codeposition process in a sulfate-based Ni–Co plating solution. As compared to uncoated René 80 substrates, the electro-codeposited NiCoCrAlX coatings demonstrated superior performance during oxidation testing with a 1-h cycle frequency at 1000°C and 1100°C. Further improved oxidation resistance was observed for the coatings with Hf and Si additions, but not with the addition of Ta. The levels of S, Y, and O in the electrodeposited NiCoCrAlY coating were measured by high-resolution glow discharge mass spectrometry and were compared to those in thermal spray coatings.

Original language	English
Pages (from-to)	747-757
Number of pages	11
Journal	Materials and Corrosion
Volume	73
Issue number	5
DOIs	https://doi.org/10.1002/maco.202112843
State	Published - May 2022

Funding

The authors would like to thank Dr. Doug Konitzer and Dr. Ben Nagaraj at GE for supplying the superalloy substrates; Brian Bates, Giovanni Mainardi, and William Buida at TTU for assistance with the experimental work. This study was sponsored by the Office of Naval Research with Grant N00014‐14‐1‐0341. The authors gratefully acknowledge the program manager Dr. David Shifler. The authors would like to thank Dr. Doug Konitzer and Dr. Ben Nagaraj at GE for supplying the superalloy substrates; Brian Bates, Giovanni Mainardi, and William Buida at TTU for assistance with the experimental work. This study was sponsored by the Office of Naval Research with Grant N00014-14-1-0341. The authors gratefully acknowledge the program manager Dr. David Shifler.

Keywords

MCrAlX coating
cyclic oxidation
electro-codeposition
plating
reactive element
sulfur

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10.1002/maco.202112843

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title = "Cyclic oxidation behavior of MCrAlX coatings made by electrolytic codeposition",

abstract = "MCrAlY coatings made by electron beam physical vapor deposition or thermal spray are often used to provide protection for superalloys against high-temperature oxidation and corrosion. In addition to Y, other elements such as Ta, Hf, and Si have been reported to be beneficial. In this paper, NiCoCrAlX (where X = Y, Ta, Hf, and/or Si) coatings were fabricated via an electrolytic codeposition process in a sulfate-based Ni–Co plating solution. As compared to uncoated Ren{\'e} 80 substrates, the electro-codeposited NiCoCrAlX coatings demonstrated superior performance during oxidation testing with a 1-h cycle frequency at 1000°C and 1100°C. Further improved oxidation resistance was observed for the coatings with Hf and Si additions, but not with the addition of Ta. The levels of S, Y, and O in the electrodeposited NiCoCrAlY coating were measured by high-resolution glow discharge mass spectrometry and were compared to those in thermal spray coatings.",

keywords = "MCrAlX coating, cyclic oxidation, electro-codeposition, plating, reactive element, sulfur",

author = "Ying Zhang and Jason Witman and Sebastien Dryepondt",

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T1 - Cyclic oxidation behavior of MCrAlX coatings made by electrolytic codeposition

AU - Zhang, Ying

AU - Witman, Jason

AU - Dryepondt, Sebastien

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N2 - MCrAlY coatings made by electron beam physical vapor deposition or thermal spray are often used to provide protection for superalloys against high-temperature oxidation and corrosion. In addition to Y, other elements such as Ta, Hf, and Si have been reported to be beneficial. In this paper, NiCoCrAlX (where X = Y, Ta, Hf, and/or Si) coatings were fabricated via an electrolytic codeposition process in a sulfate-based Ni–Co plating solution. As compared to uncoated René 80 substrates, the electro-codeposited NiCoCrAlX coatings demonstrated superior performance during oxidation testing with a 1-h cycle frequency at 1000°C and 1100°C. Further improved oxidation resistance was observed for the coatings with Hf and Si additions, but not with the addition of Ta. The levels of S, Y, and O in the electrodeposited NiCoCrAlY coating were measured by high-resolution glow discharge mass spectrometry and were compared to those in thermal spray coatings.

AB - MCrAlY coatings made by electron beam physical vapor deposition or thermal spray are often used to provide protection for superalloys against high-temperature oxidation and corrosion. In addition to Y, other elements such as Ta, Hf, and Si have been reported to be beneficial. In this paper, NiCoCrAlX (where X = Y, Ta, Hf, and/or Si) coatings were fabricated via an electrolytic codeposition process in a sulfate-based Ni–Co plating solution. As compared to uncoated René 80 substrates, the electro-codeposited NiCoCrAlX coatings demonstrated superior performance during oxidation testing with a 1-h cycle frequency at 1000°C and 1100°C. Further improved oxidation resistance was observed for the coatings with Hf and Si additions, but not with the addition of Ta. The levels of S, Y, and O in the electrodeposited NiCoCrAlY coating were measured by high-resolution glow discharge mass spectrometry and were compared to those in thermal spray coatings.

KW - MCrAlX coating

KW - cyclic oxidation

KW - electro-codeposition

KW - plating

KW - reactive element

KW - sulfur

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ER -

Cyclic oxidation behavior of MCrAlX coatings made by electrolytic codeposition

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