The Effect of Heat Treatment on the Oxidation Resistance of Cobalt-Based Superalloys

James P  Moffat; Tamsin E Whitfield; Katerina A  Christofidou; Ed Pickering; Nicholas G  Jones; Howard J Stone

doi:10.3390/met10020248

The Effect of Heat Treatment on the Oxidation Resistance of Cobalt-Based Superalloys

James P Moffat, Tamsin E Whitfield, Katerina A Christofidou, Ed Pickering, Nicholas G Jones, Howard J Stone

Materials Engineering

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

Abstract

Degradation of the mechanical integrity of cobalt-based superalloys can occur as the carbide network is progressively oxidised during high temperature service. In this study, a heat-treatment aimed at redistributing the carbides was tested on two similar commercial Co-based superalloys, one with high C content (Co-101) and one with low C content (Stellite-21), to determine its influence on oxidation resistance. It was found that the carbide phases in the lower C-containing alloy could be solutioned more readily than the higher C-containing alloy, enabling the continuity of the carbide network to be reduced. This resulted in a reduced attack of the carbides down the interdendritic channels during oxidation testing, but increased thickness of the oxide overscale.

Original language	English
Pages (from-to)	248
Journal	Metals
Volume	10
Issue number	2
Early online date	12 Feb 2020
DOIs	https://doi.org/10.3390/met10020248
Publication status	Published - 2020

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title = "The Effect of Heat Treatment on the Oxidation Resistance of Cobalt-Based Superalloys",

abstract = "Degradation of the mechanical integrity of cobalt-based superalloys can occur as the carbide network is progressively oxidised during high temperature service. In this study, a heat-treatment aimed at redistributing the carbides was tested on two similar commercial Co-based superalloys, one with high C content (Co-101) and one with low C content (Stellite-21), to determine its influence on oxidation resistance. It was found that the carbide phases in the lower C-containing alloy could be solutioned more readily than the higher C-containing alloy, enabling the continuity of the carbide network to be reduced. This resulted in a reduced attack of the carbides down the interdendritic channels during oxidation testing, but increased thickness of the oxide overscale.",

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AU - Moffat, James P

AU - Whitfield, Tamsin E

AU - Christofidou, Katerina A

AU - Pickering, Ed

AU - Jones, Nicholas G

AU - Stone, Howard J

PY - 2020

Y1 - 2020

N2 - Degradation of the mechanical integrity of cobalt-based superalloys can occur as the carbide network is progressively oxidised during high temperature service. In this study, a heat-treatment aimed at redistributing the carbides was tested on two similar commercial Co-based superalloys, one with high C content (Co-101) and one with low C content (Stellite-21), to determine its influence on oxidation resistance. It was found that the carbide phases in the lower C-containing alloy could be solutioned more readily than the higher C-containing alloy, enabling the continuity of the carbide network to be reduced. This resulted in a reduced attack of the carbides down the interdendritic channels during oxidation testing, but increased thickness of the oxide overscale.

AB - Degradation of the mechanical integrity of cobalt-based superalloys can occur as the carbide network is progressively oxidised during high temperature service. In this study, a heat-treatment aimed at redistributing the carbides was tested on two similar commercial Co-based superalloys, one with high C content (Co-101) and one with low C content (Stellite-21), to determine its influence on oxidation resistance. It was found that the carbide phases in the lower C-containing alloy could be solutioned more readily than the higher C-containing alloy, enabling the continuity of the carbide network to be reduced. This resulted in a reduced attack of the carbides down the interdendritic channels during oxidation testing, but increased thickness of the oxide overscale.

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DO - 10.3390/met10020248

M3 - Article

SN - 2075-4701

VL - 10

SP - 248

JO - Metals

JF - Metals

IS - 2

ER -

The Effect of Heat Treatment on the Oxidation Resistance of Cobalt-Based Superalloys

Abstract

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