Compared with traditional cleaning methods, laser cleaning has some advantages that traditional cleaning methods cannot achieve. Laser cleaning is a non-contact cleaning that has little damage to the substrate, high flexibility, stability and automation. It has good cleaning quality, high precision and protects the environment. It is a "green" automated cleaning equipment.
Laser cleaning machines use high-energy laser beams to illuminate the surface of workpieces for cleaning. In high-end manufacturing, industrial products must be removed from dirt, grease, dust, rust and other contaminants on the surface of the product during electroplating, phosphating, spraying, welding and assembly. In order to meet the increasingly high surface cleaning needs of high-end manufacturing, laser cleaning technology came into being. Because it is mostly used to remove rust, it is also called a laser cleaning machine. Laser cleaning technology is considered the most reliable and effective surface treatment technology because of its non-acting force, no chemical reaction, no thermal effect, and its suitability for cleaning various materials.
The advantages of laser cleaning include:
1. Non-contact cleaning: Laser cleaning technology has no contact with the surface of the material, making it widely applicable to cleaning components of various shapes. It can solve the problem that mechanical cleaning is difficult to deal with complex surface processing.
2. Does not damage the substrate: After the laser cleaning technology cleans the surface contaminants, it does not damage the substrate or product, and can solve the problem that mechanical grinding can easily cause damage to the surface of the workpiece.
3. Efficient and environmentally friendly: Laser cleaning technology is efficient, energy-saving and environmentally friendly. Compared with chemical cleaning, the problems of damaged substrates, limited component size, long-term efficiency, and harmful chemical reagents to the human body and the environment can be effectively solved.
