How can Manhart (Guangdong) CNC Machine Tool Co., Ltd. improve the surface hardness of components for mechanical electric rolling machines?

To improve the surface hardness of components in mechanical electric rolling machines, the following methods can be adopted
1. Choose suitable materials: When manufacturing components, choose materials with high hardness, good wear resistance, and strong corrosion resistance, such as titanium alloy, stainless steel, ceramics, etc. These materials have excellent mechanical properties and wear resistance, which can improve the surface hardness of components.
2. Heat treatment: Heat treatment is a method of changing the hardness of materials by controlling the metal structure and chemical composition. For components in mechanical electric rolling machines, heat treatment methods such as quenching and tempering can be used to improve surface hardness. Quenching can significantly increase the surface hardness of materials, while tempering can eliminate the internal stress generated by quenching, improve the toughness and wear resistance of materials.
3. Surface treatment: Surface treatment is a method of improving the surface hardness of mechanical parts by changing their surface morphology and composition. Common surface treatment methods include chemical chromium plating, nitriding, plasma spraying, etc. These methods can form a thin film with high hardness and good wear resistance on the surface of mechanical parts, thereby improving the surface hardness of the components.
4. Optimize mechanical structure design: In mechanical design, optimizing the mechanical structure can reduce friction and wear between components, thereby improving surface hardness. For example, parameters such as contact area and contact pressure of components can be reasonably designed to reduce wear and friction losses.
In summary, improving the surface hardness of mechanical electric rolling machine components requires comprehensive consideration of multiple aspects such as material selection, heat treatment, surface treatment, and mechanical structure design. By taking these measures, the surface hardness of components can be effectively improved, their service life can be extended, and maintenance costs can be reduced.