Precision cutting is widely used in the machining of various high-precision spare parts, such as most components of cell phones, where the process requirements are in the micrometre range. Once defects occur, assembly errors or leakage can easily occur. At this point, Precision Laser Processing Equipment technology is required to ensure the accuracy of the product. At present, there are many precision cutting techniques used in industrial processing, mainly laser cutting, plasma cutting, waterjet cutting, wire cutting and so on.
The principle of Precision Laser Cutting Machine is to use a high-power density laser beam to irradiate materials, which instantly vaporizes and melts the material, thereby cutting the material and achieving processing objectives. Thanks to the stability of laser and intelligent control system, laser precision cutting can control errors within the range of+-0.1. At the same time, while maintaining accuracy, laser cutting also needs to maximize efficiency, making it one of the mainstream processing methods at present.
Scope of application of laser cutting: Laser cutting can process the vast majority of metal and non-metallic materials, such as steel, copper, aluminum, carbon steel, stainless steel, aluminum alloys, etc; Non metallic materials such as fabric, acrylic, wood, ceramics, glass, etc. can all be processed using lasers.
Laser precision cutting has very high efficiency in processing thin plate materials, but when processing thick plate materials, the efficiency begins to decrease. Laser cutting has certain limitations on the size of processed materials, and the efficiency will significantly decrease for metal materials exceeding 40mm, as well as for wood with excessive thickness.