The working principle of the CO2 laser marking machine is basically focusing a high-power laser beam on the surface of the material, so that the local area of the material surface is instantly heated, melted and forms a mark. In this process, the energy of the laser beam is absorbed by the material, resulting in a high temperature With the vibration of the laser beam, the material in its molten state heats up rapidly and forms a clear mark.
CO2 laser signaling devices are widely used in many applications, the following are some of the most important:
Industry: CO2 laser marking devices can be used to mark product labels, production dates, batch numbers, etc. on a variety of non-metallic materials, such as plastic, rubber, leather, etc. At the same time, they can also be used to mark and cut metal objects, such as stainless steel, aluminum alloy, and so on.
Steel Industry: CO2 laser markers can be used to generate markings and QR codes on steel components to improve production efficiency and quality control.
Medical Industry: CO2 laser marking devices can be used to generate logos and QR codes for medical devices, pharmaceutical packaging and medical devices to ensure product traceability and safety.
Food Industry: CO2 laser marking devices can be used to generate labels and QR codes on food packaging to improve production efficiency and quality control. It can also be used for sterilization and cutting during food processing.
Jewelry industry: CO2 laser marking machines can be used to form logos and patterns on valuables, such as jewelry, gold, gold and gold, and improve anti-counterfeiting and anti-piracy capabilities.
Non-metallic materials suitable for CO2 laser marking machines include paper, leather, wood, plastic, organic glass, cloth, acrylic, wood and bamboo, rubber, crystal, glass, ceramic, glass and artificial stone, etc. These materials are non-metallic. It has a high laser absorption rate and can form clear marks on the surface. At the same time, due to different chemical and physical properties, laser parameters and work processes must be adjusted in marking to achieve the best marking effect.
In general, CO2 laser marking devices have a wide range of applicable fields and uses. They can form quality marks and shapes in a variety of non-metallic materials, improving production efficiency, product quality and traceability. They are an important tool in modern manufacturing and various industries. One of the most important tools for the process industry.