Manufacturing Review (Jan 2024)

Microstructural and corrosion behaviours of dissimilar friction stir welded aluminium alloys

  • Attah Benjamin I.,
  • Medupin RASAQ O.,
  • Ipilakyaa Tertsegha D.,
  • Okoro Uzoma G,
  • Adedipe Oyewole,
  • Sule Gowon,
  • Ikumapayi Omolayo Michael,
  • Bala Katsina C.,
  • Akinlabi Esther T.,
  • Lawal Sunday A.,
  • Abdulrahman Asipita S.

DOI
https://doi.org/10.1051/mfreview/2024003
Journal volume & issue
Vol. 11
p. 7

Abstract

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In this study, the friction stir welding (FSW) process was employed to investigate the effect of tool geometry on the corrosion behaviour and microstructure of friction stir welded AA7075-7651 and AA1200-H19 using Central Composite Design. The workpieces were machined and welded, and the interfaces were milled. A 2-level full factorial experimental design was deployed using Response Surface Methodology (RSM). A rotational speed of 1500 rpm, welding speed of 30, 60, and 90 mm/min, and a 2° tilt angle of the tool with a plunge force of 7 kN were utilized. The results show that regardless of the tool geometry, multi-response optimum weldment can be achieved at 60 mm/min welding speed and a tilt angle. The microstructure of the optimal weldments presents an ‘onion ring’ pattern, indicating proper mixing of the alloys during FSW. Analysis of the corrosion behaviour revealed a decrease in the polarization resistance when the transverse speed increased from 30 to 90 mm/min, as polarization resistance has a direct relationship with corrosion rate. It can be concluded that FSW ensures excellent weldment, as evident in the microstructural evolution of the resulting weldments, and that tool geometry plays a significant role in the corrosion inhibition efficiency of the alloys.

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