Characterization of the Al6061 Alloy Reinforced with SiC Nanoparticles and Prepared via Powder Metallurgy

Authors

  • Wafa Melik Mechanical Engineering Department, LMSM, Biskra University, B.P.145, Biskra, Algeria
  • Zakaria Boumerzoug Mechanical Engineering Department, LMSM, Biskra University, B.P.145, Biskra, Algeria
  • Fabienne Delaunois Metallurgy Department, Mons University, Mons, Belgium

DOI:

https://doi.org/10.37934/mjcsm.9.1.2234

Keywords:

Composite material, powder metallurgy, sintering, mechanical properties, microstructure

Abstract

This study aimed to investigate the effect of sintering temperature on the microstructures and mechanical properties of a composite material prepared by powder metallurgy technique. The composite material was a 6061 aluminum alloy matrix reinforced with silicon carbide nanoparticles. The characterization techniques were X-ray diffraction, scanning electron microscopy (SEM) coupled with energy dispersive spectroscopy, optical microscopy, Vickers hardness, and density measurements. The composite material was successfully prepared, as indicated by the homogeneous distribution of the silicon carbide nanoparticles in the aluminum matrix. The sintering temperature has a remarkable effect on the densification of the composite material. It was found that when the sintering temperature increases up to 600°C, the density increases. This phenomenon is also accompanied by an increase in hardness up to 32.2 Hv. We have deduced that the optimal sintering temperature is 600°C.

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Author Biographies

Wafa Melik, Mechanical Engineering Department, LMSM, Biskra University, B.P.145, Biskra, Algeria

Mechanical Engineering Department, LMSM, Biskra University

Fabienne Delaunois, Metallurgy Department, Mons University, Mons, Belgium

Metallurgy Department, Mons University

Published

2022-11-30

How to Cite

Melik, W., Boumerzoug, Z., & Delaunois, F. . (2022). Characterization of the Al6061 Alloy Reinforced with SiC Nanoparticles and Prepared via Powder Metallurgy. Malaysian Journal on Composites Science and Manufacturing, 9(1), 22–34. https://doi.org/10.37934/mjcsm.9.1.2234
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