Application of laser cutting for medical implant chips

Medical devices are related to human life safety and play an important role in human life. The application of high-precision laser micromachining has greatly improved the manufacturing quality of medical equipment, increased the sales of medical equipment, and accelerated the development of the medical manufacturing industry.

The production process of medical implant chips is very complex and requires high precision. At present, microfluidic chips are widely used because they integrate multiple basic operating units of samples in biological, chemical, and medical analysis processes into a micrometer-scale chip for automatic analysis. Due to its huge potential in biology, chemistry, medicine and other fields, it has developed into a new research field that intersects biology, chemistry, medicine, electronics, mechanics and other disciplines. In order to avoid carbonization and bulges at the edge of the flow channel, some micro channels in medical electronic chips affect the assembly and detection accuracy of microfluidic chips. Laser cutting is required.

Therefore, the laser micromachining system for medical equipment has formed a customized system solution for key functions, automation systems and supporting services with the characteristics of processing accuracy and stability. Laser cutting, as the most accurate cutting method at present, has the characteristics of high processing accuracy, fast speed, non-contact cutting, and flexible processing.

Men-luck ultrafast femtosecond laser cutting machine has the following advantages:
(1) Good cutting quality. Due to the small laser spot and high energy density, laser cutting can achieve higher cutting quality;
(2) Fast cutting speed. The repetition frequency is very high and the galvanometer speed is fast;
(3) The cutting surface is smooth and beautiful. It can even be used as the last processing step without mechanical processing, and the parts can be used directly;
(4) High cutting accuracy. After the material is laser cut, the heat affected zone is small, the cutting seam is small, and the performance of the nearby material is almost unaffected, and the workpiece is not easy to deform;
(5) Non-contact cutting. During laser cutting, the nozzle does not contact the workpiece, and there is no tool wear.
(7) Diversified processing materials. Suitable for processing various materials.