Litcius/Paper detail

Experimental Study on Neutral Salt Spray Accelerated Corrosion of Metal Protective Coatings for Power-Transmission and Transformation Equipment

Junwei Chen, Jie Liu, Haobin Wang, Bo Li, Quan Hu, Tianjing Shao, Ruijing Yang, Bin Wang, Qiang Wan, Zhenggang Li, Yan Lei, Guodong Zhang, Bing Yang

2023Coatings17 citationsDOIOpen Access PDF

Abstract

At present, the common protection technology of power-transmission and transformation equipment is mainly coating protection and hot-dip zinc protection. However, due to the low adhesion of epoxy zinc-rich coating, and the poor compatibility with top paint, environmental pollution, complex processing, high energy consumption and other defects of the hot-dip zinc process, its development is limited. In view of the above deficiencies, new anti-corrosion coating materials and processes were investigated in this study. Zinc coatings and Al-Zn coatings were prepared on the C45 steel matrix by hot-spraying and cold-spraying processes. The macro appearance, micromorphology and phase composition analysis of the coatings were evaluated. The adhesion of the coating to the substrate after the salt-spray test was tested. The results showed that the hot dip zinc coating and hot spray zinc coating had obvious cracking after the salt-spray test. The surface structure of cold-sprayed Al-Zn coating was relatively dense after the salt-spray test. The critical load of the cold-sprayed Al-Zn coating after the salt-spray test was higher than that of the other two coatings. The corrosion resistance to salt spray of cold-sprayed Al-Zn coating was demonstrated to be better than the hot-dip zinc coating, and thus has great application prospects.

Topics & Concepts

CoatingSalt spray testMaterials scienceZincCorrosionMetallurgyGas dynamic cold sprayThermal sprayingGalvanizationComposite materialLayer (electronics)Corrosion Behavior and InhibitionHigh-Temperature Coating BehaviorsConcrete Corrosion and Durability