Scientific Reports (Jul 2024)

Corrosion suppression and strengthening of the Al-10Zn alloy by adding silica nanorods

  • Eman AbdElRhiem,
  • Yosry F. Barakat,
  • Shereen M. Abdelaziz,
  • M. M. Mostafa,
  • R. H. Nada,
  • Saad G. Mohamed

DOI
https://doi.org/10.1038/s41598-024-64323-x
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 14

Abstract

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Abstract Aluminum alloys have been widely studied because of their current engineering applications. Due to their high strength and lightweight, cracking can easily initiate on their surface, deteriorating their overall functional and structural properties and causing environmental attacks. The current study highlights the significant influence of incorporating 1 wt% silica nanostructure in aluminum-10 zinc alloys. The characteristics of the composites were examined using Vickers hardness, tensile, and electrochemical testing (OCP, Tafel, and EIS) at various artificial aging temperatures (423, 443, and 463 K). Silica nanorods may achieve ultrafine grains, increase hardness by up to 13.8%, increase σUTS values by up to 79% at 443 K, and improve corrosion rate by up to 89.4%, surpassing Al-10 Zn bulk metallics. We demonstrate that silica nanorods contribute to the creation of a superior nanocomposite that not only limits failure events under loading but also resists corrosion. Our findings suggest that silica nanocomposite can produce unique features for use in a variety of automotive, construction, and aerospace applications. This improvement can be attributed mainly to the large surface area of nano-silica particles, which alters the Al matrix. Microstructural, mechanical, and electrochemical studies revealed that the effects of structure refinement were dependent on nano-silica.

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