Corrosion and corrosion wear behaviour of plasma carburised stellite 21 Co-Cr alloy

J. Chen; H. Dong

doi:10.1179/175158309X419043

Corrosion and corrosion wear behaviour of plasma carburised stellite 21 Co-Cr alloy

J. Chen^*, H. Dong

^*Corresponding author for this work

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

2 Citations (Scopus)

Abstract

Low temperature plasma surface alloying with carbon (i.e. plasma carburising) of Stellite 21 Co- Cr alloy was conducted at temperatures from 400 to 500°C for 15 h in a gas mixture of 98 vol.-%H₂ and 2 vol.-%CH₄. The surface treated layers were characterised by XRD, SEM and microhardness tests. The corrosion and corrosive wear behaviour of the plasma carburized Stellite 21 Co-Cr alloy were studied respectively using electrochemical tests and well designed reciprocating wear tests in 3.5% NaCl solution. The results show that low temperature ((≤460°C) plasma carburising can improve the corrosion resistance of Stellite 21 alloy; the corrosive wear resistance of Stellite 21 can be enhanced by up to three times; and the best corrosive wear resistance is achieved at the highest treating temperature (500°C). The detailed studies on the wear tracks indicate that the corrosive wear process was dependent on the individual wear and corrosion, as well as the synergetic effect.

Original language	English
Pages (from-to)	24-30
Number of pages	7
Journal	Tribology - Materials, Surfaces and Interfaces
Volume	3
Issue number	1
DOIs	https://doi.org/10.1179/175158309X419043
Publication status	Published - 2009

Keywords

Co-Cr alloy
Corrosive wear
Plasma carburising
S phase
Stellite 21

ASJC Scopus subject areas

Materials Science(all)
Mechanical Engineering

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10.1179/175158309X419043

Cite this

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title = "Corrosion and corrosion wear behaviour of plasma carburised stellite 21 Co-Cr alloy",

abstract = "Low temperature plasma surface alloying with carbon (i.e. plasma carburising) of Stellite 21 Co- Cr alloy was conducted at temperatures from 400 to 500°C for 15 h in a gas mixture of 98 vol.-%H2 and 2 vol.-%CH4. The surface treated layers were characterised by XRD, SEM and microhardness tests. The corrosion and corrosive wear behaviour of the plasma carburized Stellite 21 Co-Cr alloy were studied respectively using electrochemical tests and well designed reciprocating wear tests in 3.5% NaCl solution. The results show that low temperature ((≤460°C) plasma carburising can improve the corrosion resistance of Stellite 21 alloy; the corrosive wear resistance of Stellite 21 can be enhanced by up to three times; and the best corrosive wear resistance is achieved at the highest treating temperature (500°C). The detailed studies on the wear tracks indicate that the corrosive wear process was dependent on the individual wear and corrosion, as well as the synergetic effect.",

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AU - Dong, H.

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N2 - Low temperature plasma surface alloying with carbon (i.e. plasma carburising) of Stellite 21 Co- Cr alloy was conducted at temperatures from 400 to 500°C for 15 h in a gas mixture of 98 vol.-%H2 and 2 vol.-%CH4. The surface treated layers were characterised by XRD, SEM and microhardness tests. The corrosion and corrosive wear behaviour of the plasma carburized Stellite 21 Co-Cr alloy were studied respectively using electrochemical tests and well designed reciprocating wear tests in 3.5% NaCl solution. The results show that low temperature ((≤460°C) plasma carburising can improve the corrosion resistance of Stellite 21 alloy; the corrosive wear resistance of Stellite 21 can be enhanced by up to three times; and the best corrosive wear resistance is achieved at the highest treating temperature (500°C). The detailed studies on the wear tracks indicate that the corrosive wear process was dependent on the individual wear and corrosion, as well as the synergetic effect.

AB - Low temperature plasma surface alloying with carbon (i.e. plasma carburising) of Stellite 21 Co- Cr alloy was conducted at temperatures from 400 to 500°C for 15 h in a gas mixture of 98 vol.-%H2 and 2 vol.-%CH4. The surface treated layers were characterised by XRD, SEM and microhardness tests. The corrosion and corrosive wear behaviour of the plasma carburized Stellite 21 Co-Cr alloy were studied respectively using electrochemical tests and well designed reciprocating wear tests in 3.5% NaCl solution. The results show that low temperature ((≤460°C) plasma carburising can improve the corrosion resistance of Stellite 21 alloy; the corrosive wear resistance of Stellite 21 can be enhanced by up to three times; and the best corrosive wear resistance is achieved at the highest treating temperature (500°C). The detailed studies on the wear tracks indicate that the corrosive wear process was dependent on the individual wear and corrosion, as well as the synergetic effect.

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KW - S phase

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Corrosion and corrosion wear behaviour of plasma carburised stellite 21 Co-Cr alloy

Abstract

Keywords

ASJC Scopus subject areas

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