Application of Brown Aluminum oxide Wear-Resistant Powder in Paint Production
1. Enhance the wear resistance of the coating
Due to its high hardness and wear resistance, brown aluminum oxide can significantly improve the wear resistance of the coating after being added to the paint as a filler. It is suitable for scenes such as ships, bridges, and industrial equipment that need to be exposed to high friction environments for a long time.
2. Increase the hardness of the coating
Its high hardness can increase the surface strength of the paint after curing, form a stronger protective layer, reduce scratches and scratch damage, and is suitable for fields such as mechanical equipment and automotive parts that require high hardness surfaces.
3. Improve corrosion resistance
Brown aluminum oxide has stable chemical properties and is resistant to acid and alkali corrosion. After addition, it can effectively improve the protective performance of paint in corrosive environments such as chemical and marine environments.
4. Optimize adhesion
By adjusting the particle size and shape of brown aluminum oxide particles, the bonding between the paint and the substrate can be enhanced, and the risk of coating shedding can be reduced. It is suitable for a variety of substrates such as metal and concrete.
5. Improve high temperature resistance
Brown aluminum oxide remains stable at high temperatures and is suitable for heat-resistant coatings for high-temperature equipment or furnaces to prevent the coating from failing due to temperature changes.
6. Improve appearance and texture
The uniform distribution of brown aluminum oxide particles can make the coating surface more delicate and smooth, with both decorative and functional properties, suitable for scenes with high aesthetic requirements such as architectural decoration and high-end industrial products.
Application scenario examples
Industrial anti-corrosion coatings: used for petrochemical equipment, pipelines, etc., taking into account both anti-corrosion and wear resistance.
Marine and offshore engineering coatings: resist seawater erosion and mechanical wear.
High-temperature equipment coatings: such as high-temperature protection of the inner wall of metallurgical furnaces and kilns. Architectural decorative paints: improve the durability and visual effects of building materials through surface beautification