Year1
- 颜色:
- 黑色
Contact: Manager Liu-:
The main components of the coating are nano-powder, ceramic beads, silicon carbide, boron nitride, fine Crystalline alumina, ultrafine zinc oxide, titanium oxide, etc. are made into cermet functional fillers to improve the wear resistance and anti-corrosion properties of the coating. Use inorganic fibers to enhance the impact resistance of the coating. With appropriate pigments, solvents, additives and wear-resistant enhancers. The coating works through the interaction and synergistic effect of each component, so that
< -< the flue gas anti-corrosion coating has comprehensive excellent properties such as low surface energy, high corrosion resistance, high hardness, and strong bonding force with the matrix. . Nowadays, the chimneys of power plants are all desulfurized, so they all need internal anti-corrosion. As an important device for wet desulfurization, the absorption tower is very serious in corrosion and wear of the tower wall due to the slurry inside. The flue gas anti-corrosion paint is used, and it is painted all over, with a thickness of . About 3, it can effectively protect the absorption tower, extend its service life and save maintenance costs. The coating uses interpenetrating network polymers based on inorganic polymers as film-forming substances, adding nanopowders, ceramic beads, silicon carbide, boron nitride, fine-grained alumina, ultra-fine zinc oxide, titanium oxide, etc. Appropriate pigments, solvents, additives and the addition of wear-resistant enhancers make the paint have strong adhesion and can be painted on the surface of any material. It can be used to deal with uncertain flue gas values, large temperature fluctuations, and solid particles contained in the tower. The wall is protected and its service life is extended. The maximum temperature resistance of the coating is ℃, the specific gravity is ./3, and the final hardness of the coating film is not less than.
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