Influence of friction stir welding on the localised corrosion behaviour of AA2060 T8E30 and AA2099 T83 Al-Li alloys

The effect of friction stir welding (FSW) on the microstructure and localised corrosion behaviour of the dissimilar weld of AA2099 T83 and AA2060 T8E30 alloys is investigated. FSW results in a drastic change in the microstructure thus altering their corrosion behaviour. The heat-affected region exhi...

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Bibliographic Details
Published in:Corrosion science 2024-12, Vol.241, p.112519, Article 112519
Main Authors: Garg, Vishant, van Dam, Joost P.B., Michailidou, Emmanouela, Gonzalez-Garcia, Yaiza
Format: Article
Language:English
Subjects:
A: Aluminium-lithium alloys
B: In-situ time lapse imaging
B: Potentiodynamic polarisation
C: Friction Stir Welding
C: Localised corrosion
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Summary:The effect of friction stir welding (FSW) on the microstructure and localised corrosion behaviour of the dissimilar weld of AA2099 T83 and AA2060 T8E30 alloys is investigated. FSW results in a drastic change in the microstructure thus altering their corrosion behaviour. The heat-affected region exhibits similar attack morphology to their respective base metal but is the most protected region. The stir zone (SZ) is the most susceptible to attack. During immersion of the entire weld, attack initiation occurs from the AA2060 SZ due to galvanic activity within the region caused by the overlap of the grains in the weld zone. •Localised corrosion behaviour of dissimilar FSW of Al-Li alloys is investigated in this work.•Microstructural features of the weld regions are altered depending on their distance from the weld centre.•The HAZ regions are the most protected, while the SZ regions are the most susceptible to corrosion attack.•The stir zone presents an intricate corrosion mechanism due to overlapping layers from both alloys in the weld nugget.•The corrosion attack on the entire weld is driven by galvanic effect between the weld zones.
ISSN:0010-938X
DOI:10.1016/j.corsci.2024.112519