1. High wear resistance: Adopting the alloy system commonly used in international wear-resistant composite steel plates, it has excellent wear resistance, which is much higher than that of heat-treated wear-resistant steel and cast wear-resistant cast iron. Its wear resistance is also much higher than that of spray welding or thermal spraying methods.
2. Impact resistance: Due to the use of low-carbon steel plates with good plasticity as the substrate of wear-resistant composite steel plates, they can absorb energy during the impact process. Therefore, wear-resistant composite steel plates have strong impact resistance and crack resistance, and can be applied to working conditions with strong vibration and impact.
3. Easy to process: Wear resistant composite steel plates can be made into standard size plates, with light weight and convenient and flexible processing. Due to the use of soft substrates, it can be formed by inward cold bending and can be cut using heat sources such as plasma arc and carbon arc. It can be welded into shape, making on-site welding work time-saving and convenient.
4. High cost-effectiveness: Taking into account maintenance costs, spare parts costs, and downtime losses, the performance and price of wear-resistant composite steel plate manufacturing machinery are 2-3 times higher than ordinary materials.
5. Superior high-temperature resistance: The alloy carbides of wear-resistant steel plates have strong stability at high temperatures, and wear-resistant steel plates can be used within 500 ℃. Other special temperature requirements can be customized for production, which can meet the conditions of use within 1200 ℃; Ceramic, polyurethane, polymer materials and other wear-resistant materials cannot meet such high temperature requirements through adhesive bonding. Composite wear-resistant plates have good wear resistance, impact resistance, and oxidation resistance under high erosion and abrasive wear conditions below 550 ℃, and are suitable for various wear conditions.
