The effect of microstructure on abrasive wear of a Fe–Cr–C–Nb hardfacing alloy deposited by the open arc welding process

The effect of microstructure on abrasive wear of a Fe–Cr–C–Nb hardfacing alloy deposited by the open arc welding process

The relationship between abrasive wear resistance and microstructure of a hardfacing alloy based on Fe–Cr–C–Nb system (CNO) was investigated. This material was developed for cladding, by an open arc welding technique, of components subjected to severe abrasive wear. The work undertaken included micr...

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Bibliographic Details
Published in:Surface & coatings technology Vol. 276; pp. 479 - 484
Main Authors: Correa, E.O., Alcântara, N.G., Valeriano, L.C., Barbedo, N.D., Chaves, R.R.
Format: Journal Article
Language:English
Published: Elsevier B.V 25-08-2015
Subjects:
Abrasion
Abrasion resistance
Abrasive wear
Arc welding
Cast iron
Hardfacing
Microstructure
Three-body abrasion
Two-body abrasion
Volume fraction
Wear resistance
Three-body abrasion
Microstructure
Cast iron
Two-body abrasion
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Summary:The relationship between abrasive wear resistance and microstructure of a hardfacing alloy based on Fe–Cr–C–Nb system (CNO) was investigated. This material was developed for cladding, by an open arc welding technique, of components subjected to severe abrasive wear. The work undertaken included microstructural characterization and abrasion testing. Microstructural examinations of hardfaced layer showed that the microstructure of the alloy consisted of a large volume fraction of primary niobium carbides randomly dispersed in a eutectic matrix comprised of metastable austenite (γ) and eutectic M7C3 carbides as well as a high volume fraction of primary M7C3. Abrasive wear tests, in low stress and high stress, showed that the developed Fe–Cr–C–Nb hardfacing alloy exhibited improved abrasive wear resistance in comparison with the conventional high carbon/high chromium hardfacing alloy with higher hardness and higher volume fraction of primary M7C3. Owing to its better wear resistance and its relatively low cost, the alloy CNO may be a successful replacement of the more conventional hardfacing material for the refurbishment of components subjected to severe abrasive wear in order to extend their service life. •Microstructure and wear resistance of a Fe–Cr–C–Nb hardfacing alloy were studied.•Homogeneous distribution of fine NbC carbides in the eutectic matrix was observed.•The presence of fine NbC carbides improved the low and high stress abrasive wear.
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ISSN:0257-8972
1879-3347
DOI:10.1016/j.surfcoat.2015.06.026