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Journal of Materials Engineering and Performance

Erschienen in:

15.03.2017

Influence of Al₂O₃ Particle Size on Microstructure, Mechanical Properties and Abrasive Wear Behavior of Flame-Sprayed and Remelted NiCrBSi Coatings

verfasst von: K. A. Habib, D. L. Cano, C. T. Caudet, M. S. Damra, I. Cervera, J. Bellés, P. Ortells

Erschienen in: Journal of Materials Engineering and Performance | Ausgabe 4/2017

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Abstract

The influence of micrometric alumina (low surface area-to-volume ratio) and nanometric alumina (high surface area-to-volume ratio) on microstructure, hardness and abrasive wear of a NiCrBSi hardfacing alloy coating applied to an AISI 304 substrate using flame spraying (FS) combined with surface flame melting (SFM) is studied. Remelting after spraying improved the mechanical and tribological properties of the coatings. Microstructural characterization using XRD, SEM and EDS indicated that alumina additions produced similar phases (NiSi, Ni₃B, CrC and Ni₃₁Si₁₂) regardless of the alumina size, but the phases differed in morphology, size distribution and relative proportions from one coating to another. The addition of 12 wt.% nanometric Al₂O₃ increased the phases concentration more than five- to sixfold and reduced the hard phases size about four-to threefold compared with NiCrBSi + 12 wt.% micrometric Al₂O₃. Nanoalumina led to reduced mass loss during abrasive wear compared to micrometric alumina and greater improvement in hardness.

Vorheriger Artikel Facile Electrochemical Method to Improve Surface Features of Pure Copper in Dilute Basic Solutions

Nächster Artikel Morphological and Electrochemical Study of Sulfide/Nitride Nanostructure Deposited Through Pulsed Plasma Electrolysis

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Titel: Influence of Al2O3 Particle Size on Microstructure, Mechanical Properties and Abrasive Wear Behavior of Flame-Sprayed and Remelted NiCrBSi Coatings
verfasst von: K. A. Habib
D. L. Cano
C. T. Caudet
M. S. Damra
I. Cervera
J. Bellés
P. Ortells
Publikationsdatum: 15.03.2017
Verlag: Springer US
Erschienen in: Journal of Materials Engineering and Performance / Ausgabe 4/2017
Print ISSN: 1059-9495
Elektronische ISSN: 1544-1024
DOI: https://doi.org/10.1007/s11665-017-2603-0

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