Magnetic needle vortex polishing technology:
Using a strong magnetic field to drive a small magnetic polishing needle to form a unique vortex shaped polishing mode, high-speed movement removes burrs and oxide layers on the surface of the workpiece, significantly improving surface smoothness. This technology, combined with CNC waterjet cutting, can achieve high efficiency and precision in metal processing. It also has high adaptability, can handle complex shaped workpieces, and is environmentally friendly and energy-saving, reducing the use of chemical polishing agents and environmental pollution.
omposite surface treatment technology:
Integrate various traditional surface treatment methods organically, such as electroplating and coating composite, oxidation and coating composite, etc. This composite treatment can integrate the advantages of different treatment methods, making the surface of the parts have good corrosion resistance, wear resistance, and decorative properties at the same time. For example, first electroplating the parts to improve their corrosion resistance, and then coating them to enhance their appearance and further improve their protective performance.
Laser surface treatment technology
Laser quenching: By rapidly heating and cooling with laser, martensitic structure is formed on the metal surface, improving surface hardness, wear resistance, and fatigue resistance, with a small heat affected zone and minimal deformation.
Laser cladding: A layer of material with special properties, such as ceramics, alloys, etc., is deposited on the surface of a metal to significantly improve its wear resistance, corrosion resistance, high temperature resistance, and other properties. It is widely used in aerospace, mechanical manufacturing, and other fields.
Laser texture processing: Using laser to process micro textures on the surface of parts can improve the friction coefficient, lubrication performance, and appearance texture of parts, and has application prospects in industries such as automotive and electronics.
Nano surface treatment technology
Nanocoating: Prepare nanoscale coatings on the surface of parts through physical or chemical methods, which have excellent properties such as hardness, wear resistance, corrosion resistance, and self-cleaning. For example, nano ceramic coatings can improve the cutting performance and service life of cutting tools.
Nanocomposite plating: Adding nanoparticles to the plating solution allows them to co deposit with metal ions on the surface of the part, forming a nanocomposite coating that can significantly improve the hardness, wear resistance, and corrosion resistance of the coating.
Precision manufacturing empowers win-win outcomes
