Archives of Metallurgy and Materials (Jun 2017)

Effect of Wetting Agent and Carbide Volume Fraction on the Wear Response of Aluminum Matrix Composites Reinforced by WC Nanoparticles and Aluminide Particles

  • Lekatou A.,
  • Gkikas N.,
  • Karantzalis A.E.,
  • Kaptay G.,
  • Gacsi Z.,
  • Baumli P.,
  • Simon A.

DOI
https://doi.org/10.1515/amm-2017-0184
Journal volume & issue
Vol. 62, no. 2
pp. 1235 – 1242

Abstract

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Aluminum matrix composites were prepared by adding submicron sized WC particles into a melt of Al 1050 under mechanical stirring, with the scope to determine: (a) the most appropriate salt flux amongst KBF4, K2TiF6, K3AlF6 and Na3AlF6 for optimum particle wetting and distribution and (b) the maximum carbide volume fraction (CVF) for optimum response to sliding wear. The nature of the wetting agent notably affected particle incorporation, with K2TiF6 providing the greatest particle insertion. A uniform aluminide (in-situ) and WC (ex-situ) particle distribution was attained. Two different sliding wear mechanisms were identified for low CVFs (≤1.5%), and high CVFs (2.0%), depending on the extent of particle agglomeration.

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