Ceramic wear-resistant composite plates are made by using advanced hot vulcanization technology to vulcanize toughened wear-resistant ceramics and rubber together to form a square ceramic rubber composite, which is fixed on the protective surface of the equipment by welding (three-in-one series) or high-strength adhesive bonding (two-in-one) to form a strong and buffering anti-wear layer. It combines the advantages of the high hardness of ceramics and the high buffering and fatigue resistance of rubber, which can well solve the problem of equipment wear protection in large-block material transportation. In addition to good wear and corrosion resistance, adding rubber can also prevent production stoppage due to material aggregation and reduce noise.
Ceramic wear-resistant composite plates are mainly used in coal transportation and ash discharge systems of thermal power plants and material transportation, batching silos, hoppers, and other equipment in the metallurgical steel industry. It can solve the problem of low service life of the batching and conveying system due to large material drop and strong impact; at the same time, ceramic rubber composite linings can be twisted and cut, and are suitable for the installation of various special-shaped equipment.
Scope of application:
Ceramic wear-resistant composite plates combine the high wear resistance of ceramics and the impact resistance of rubber and are suitable for wear protection of material conveying system equipment, such as coal hoppers, coal pipes, ball mill inlets, outlet pipes, etc. It can also be used in coal conveying systems of thermal power plants and hoppers and silos of material conveying and batching systems of sintering plants in metallurgy and steel systems, and other parts with high drop and large impact. By changing the formula of rubber, wear-resistant ceramic lining plates with special properties can be obtained, which can be used for wear protection of equipment in different environments and working conditions.