Ozyurt, GulcanUsta, Ibrahim2026-02-082026-02-0820260020-29671745-9192https://doi.org/10.1080/00202967.2025.2578889https://hdl.handle.net/20.500.12885/5825This study evaluates a Zirconium-based conversion coating as an eco-friendly alternative to conventional phosphating for welded aluminium alloys. Conventional phosphating often results in uneven coatings on high-silicon alloys and welded areas, reducing adhesion and corrosion resistance. The proposed chromium-, nickel-, and phosphate-free pretreatment contains hexafluorozirconic acid, organic silanes, stabilisers, and complexing agents, forming a thin, amorphous zirconium oxide layer that enhances paint adhesion and corrosion protection. The coating system was applied to 3103 and 5754 aluminium alloys and evaluated in two configurations: cataphoresis alone and a duplex system of cataphoresis followed by wet paint application. Compared to phosphating, salt spray tests and surface analyses showed that the Zirconium-based treatment provides more uniform coatings, better adhesion, and significantly improved corrosion resistance. These results demonstrate the method's technical effectiveness and environmental compliance, making it a promising surface preparation technique for automotive and industrial applications.eninfo:eu-repo/semantics/closedAccessZirconium-based coatingaluminium alloyssurface pretreatmentcataphoresiscorrosion resistancephosphate-free systemArticle10.1080/00202967.2025.257888910413341WOS:0016160715000012-s2.0-105022266176Q3Q2