1. High Wear Resistance: The high chromium content in the alloy wear-resistant layer results in an extremely high surface hardness. The carbide microhardness can reach over HV1700-2000, and the surface hardness can reach HRC58-62, ensuring excellent wear resistance.
2. High Impact Resistance: The wear-resistant steel plate's substrate is constructed of tough materials such as low-carbon steel or low-alloy steel, effectively absorbing impact energy and preventing damage caused by high drop impacts in material conveying systems.
3. Excellent Heat Resistance: The alloy wear-resistant layer maintains stable hardness and oxidation resistance even at high temperatures, allowing the wear-resistant steel plate to operate normally at temperatures of 600°C or even higher.
4. Excellent Corrosion Resistance: The high chromium content of the alloy wear-resistant layer also imparts excellent corrosion resistance to the wear-resistant steel plate, making it particularly suitable for use in humid or corrosive environments.