Effects of roughness on stresses in an oxide scale formed on a superalloy substrate

Date published

2021-04-19

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MDPI

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Article

ISSN

2079-6412

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Citation

Zhao Y, Sun F, Jiang P, Sun Y. (2021) Effects of roughness on stresses in an oxide scale formed on a superalloy substrate, Coatings, Volume 11, Issue 4, April 2021, Article number 479

Abstract

The effects of surface roughness on the stresses in an alumina scale formed on a Fecralloy substrate are investigated. Spherical indenters were used to create indents with different radii and depths to represent surface roughness and then the roughness effect was studied comprehensively. It was found that the residual stresses in the alumina scale formed around the rough surface are almost constant and they are dominated by the curvature rather than the depth of the roughness. Oxidation changes the surface roughness. The edge of the indent was sharpened after oxidation and the residual stress there was released presumably due to cracking. The residual stresses in the alumina scale decrease with increase in oxidation time, while the substrate thickness has little effect, given that the substrate is thicker than the alumina scale. Furthermore, the effect of roughness on the oxide growth stress is analysed. This work indicates that the surface roughness should be considered for evaluation of stresses in coatings.

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Github

Keywords

thermal barrier coatings, FeCrAlY, alumina, curvature, roughness

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Attribution 4.0 International

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