It is mainly applied in the biomedical field, including processes such as CGM housing bonding adhesive, needle fixation adhesive, polymer coating on CGM sensor electrodes, dispensing of peptide and enzyme solutions, electronic component coating on CGM PCBs, balloon-to-tube bonding adhesive for laparoscopic trocars, needle fixation adhesive for indwelling needles, and surface coating fixation for coronary stents.
CGM
Biological Sensor
Medical Fixed Needle
Ballon
Biological Chip
Endoscope
Laryngeal Mask Airway(LMA)
CGM: Housing Bonding, Needle Fixation, PCB Coating
Biological Electrode: Polymer, Peptide and Enzyme Solvent Painting
Indwelling Needle: Needle Fixation Adhesive
Laparoscopic Trocar: Balloon-to-Tubing Bonding
Infusion Tubing: Adhesive for Bonding Tubing to Murphy Drip Chamber
Mainly used for precision machining of biomedical-related materials. The manufacturing of medical devices requires extremely high precision and cleanliness — such as in minimally invasive surgical instruments, implants, and diagnostic or therapeutic devices. Water-guided laser processing technology utilizes a water flow to cool and clean the machining surface, effectively preventing thermal damage and surface contamination that may occur with traditional laser processing. This ensures both the precision and biocompatibility of medical instruments. In addition, water-guided laser technology enables precision machining of complex geometries, meeting the growing demand for customized medical devices.
Typical Applications |
Typical Materials |
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Carbon-based Diamond
Copper-based Diamond
Boron Nitride
Alumina Ceramic
