Electrogalvanized coil is a kind of anti-corrosion treatment, by electroplating a layer of zinc on the surface of the steel plate to increase the corrosion resistance of the steel plate. In the production process of electrogalvanized coil, the steel coil is first treated on the surface to remove grease and impurities, and then the zinc layer is uniformly attached to the steel plate by electrochemical reaction in the plating tank. This can effectively prevent the oxidation and corrosion of the steel plate in a humid environment and extend its service life.

Electrogalvanized coil has many advantages, the first is strong corrosion resistance. Because the zinc layer has excellent corrosion resistance, the electrogalvanized coil can be used in a humid environment for a long time without being affected by oxidation and corrosion. Secondly, the electrogalvanized coil has a good appearance texture, the surface is smooth and flat, and the color is bright, which can improve the beauty and texture of the product. In addition, galvanized coil has excellent plasticity and processing properties, can meet a variety of complex processing needs, widely used in construction, home appliances, automobiles and other industries.

However, electrogalvanizing coils also have some disadvantages. First of all, its wear resistance is poor, and long-term friction is easy to wear the zinc layer, thereby reducing the anti-corrosion effect. Secondly, the production process of electric galvanized coil is more complex, the cost is higher, and the price is relatively expensive. In addition, the environmental performance of electrogalvanized coil is also worthy of attention, and the wastewater and exhaust gas generated in the electroplating process cause certain pollution to the environment.

In summary, electric galvanized coil is a kind of anti-corrosion treatment with excellent anti-corrosion performance and appearance texture, which is widely used in various industries. When using galvanized coil products, it is necessary to pay attention to its wear resistance and environmental performance, and choose the appropriate treatment and product specifications to ensure product quality and environmental protection requirements.