High-precision femtosecond laser precision processing equipment uses imported femtosecond laser heads to perform carbon-free precision tubular or flat cutting to avoid product burrs, black edges, micro-cracks and other phenomena. The cutting accuracy can reach micron level and is widely used in the manufacturing of medical implant interventional products, such as the processing of small and fine parts such as developing rings and electrode sheets.
Equipped with high-precision laser welding, resistance welding, argon arc welding, vacuum brazing and tin welding equipment, and equipped with precise visual positioning and monitoring systems, it has fast welding speed, small thermal deformation, small welding spot, and the smallest solder joint can be as small as 0.05mm. Support customization processing, unlimited raw materials
The stamping production line has excellent precision and efficient speed, and strict control of technical parameters is implemented throughout the entire production process to ensure minimal loss and the highest finished product qualification rate. Our daily output can reach 60,000 PCS, fully demonstrating the production capacity and stability of the production line
Independently developed guidewire multi-wire winding and shaping equipment to achieve multi-strand spiral winding with an accuracy of up to 0.02mm. Brain electrode signal guidewires have been mass-produced and implanted into the human body. The brain electrode signal guidewire is a signal transmission guidewire implanted in the brain nucleus. The product is small in size and has very strict technical and reliability requirements in terms of accuracy, performance, etc.
A mature wire coating production line can fully control the process parameters of the production line to ensure that products meet standards and reduce the scrap rate. Currently, ETFE is mainly used as a coating material. ETFE not only has excellent biocompatibility, but also has excellent performance in corrosion resistance, heat resistance, electrical insulation and radiation resistance. It also has a low friction coefficient and is difficult for oil and water to adhere. It is an ideal choice for medical plants. Preferred materials for interventional coatings
