Journal of Composites Science (Nov 2023)

Tensile Properties of Aluminum Matrix Composites Produced via a Nitrogen-Induced Self-Forming Process

  • Kon-Bae Lee,
  • Kanhu C. Nayak,
  • Cheol-Hwee Shim,
  • Hye-In Lee,
  • Se-Hoon Kim,
  • Hyun-Joo Choi,
  • Jae-Pyoung Ahn

DOI
https://doi.org/10.3390/jcs7110457
Journal volume & issue
Vol. 7, no. 11
p. 457

Abstract

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This study compares the tensile properties of commercial aluminum matrix composites (AMCs) with those of AMCs produced via a nitrogen-induced self-forming process. This process is a newly developed AMCs manufacturing process that takes advantage of the price competitiveness and productivity of large-scale products produced via the liquid process. Additionally, this process has the freedom of choice of the reinforcement phase and the homogeneous dispersibility of the powder process. Compared to commercial monolithic 6061 alloys, 6061 aluminum alloy matrix composites exhibit increased Young’s modulus, yield strength, and ultimate tensile strength by 59%, 66%, and 81%, respectively. This study also compares the tensile properties of AMCs with different matrix compositions, including 2009 and 7050 aluminum alloys. The study shows that AMCs produced using the nitride-induced self-forming aluminum composite (NISFAC) process exhibit comparable or superior tensile properties to those obtained using existing commercial powder metallurgy (P/M) processes.

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