Download This PaperPreparation and Properties of Polyurethane Cold Galvanizing Coatings With Phosphoric Acid Modified Zinc Powder
49 Pages Posted: 15 Apr 2024
Abstract
In this study, polyurethane cold galvanizing coatings were prepared using zinc powder that had been modified with varying amounts of phosphoric acid. The effect of different amounts of phosphate (wt%. (1%, 3%, and 5%)) was investigated on the morphology of modified zinc powder. Additionally, the impact of cold galvanizing coatings on the mechanical properties and corrosion resistance was thoroughly studied. The results demonstrate that an appropriate amount of phosphoric acid modification led to the formation of a suitable lamellar Zn3 (PO4)2·4H2O on the coating’s surface. This lamellar structure improved the bond between the coating and the steel substrate, as well as the coating′s density, thereby enhancing the material's mechanical properties. The results of electrochemical tests showed that the corrosion resistance of the coating initially increased with the increase in phosphoric acid content, but then decreased. The optimal combination of mechanical properties and corrosion resistance was achieved when the phosphoric acid content was 3%. The polarization test results show that after immersion for 168 h, the corrosion potential of the coating modified to 3% phosphoric acid is up to -0.80 V, and the corrosion current density is 1.334 ± 0.67×10-6 A/cm2 。At this level, the impact resistance reached 60 cm, the pencil hardness was 5H, the adhesion resistance was 0.8, and the flexibility reached 1 mm.
Keywords: cold galvanizing coatings, phosphoric acid modification, mechanical properties, corrosion resistance
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