Introduction
In the whole medical industry chain, the application of laser technology is mainly reflected in the processing of raw materials and the production process of pharmaceutical preparations. In addition to its core business of various types of intelligent industrial laser processing equipment, Han’s Laser is also actively involved in other fields, such as robotics, 3D printing, electric motors, automated production lines, etc. These diversified business fields enable it to provide medical production enterprises with more complete, efficient and energy-saving laser technology. The application of laser technology in the whole medical industry chain will be introduced.
Application Examples of Laser Technology
For dental applications, 3D printing technology offers an innovative solution
During the manufacturing process, mold steels with good polishing properties are selected to ensure a smooth surface while avoiding the introduction of harmful substances.
With 3D printing, the parts printed in the mold can be mounted directly onto the machined base, an innovation that combines the advantages of traditional processes with lower manufacturing costs and shorter cycle times.
The cooling time of injection molds is considerably shorter and increasing productivity because of 3D printing.
By optimizing the design and fine-tuning the manufacturing process, product quality was significantly improved and the defect rate was reduced.
dental applications
Flying laser marking solution for assembly line label laser marking
CO2 laser flying markers are designed for in-line high speed marking of rigid non-metallic packages such as glass and ceramics.
Flying Laser Marking
The high speed of assembly line label laser marking can meet the demand of higher capacity.
Label Laser Marking System
It is also suitable for different environments such as high temperatures or humidity and has high corrosion resistance.
The marking range is wide and can mark symbols, graphics, 2D codes, etc.
Ultra-fast multi-axis laser micromachining systems provide a complete micromachining solution
The system is capable of machining a wide range of microstructures in a variety of metallic, non-metallic and composite materials, making it widely applicable to the machining of precision parts, such as precision medical stents, aerospace turbine blade air film apertures, semiconductor probe cards, and dial micro-hole inlays.
It is easy to form efficient machining paths for punching holes of any shape and taper because the software configuration of the multi-dimensional machining point parameters.
The laser sheet/tube cutting series offers specialized laser tube cutting solutions
This range of laser cutting machines is suitable for cutting a wide range of thin-walled square, round, I-beam and angle tubes as well as symmetrical profile fittings with superior performance and cost-effectiveness.
Femtosecond Cutting for Medical Stents
These professional tube cutting machines are mainly used for cutting thin-walled square, round, rectangular, symmetrical, I-beam and angle tubes with diameters ranging from φ15 to 210 mm.
The main table is made of high quality plate bent and welded to ensure a solid internal structure, reflecting good rigidity and stability.
Conclusion
In addition to raw material production and drug preparation production applied to the entire medical industry chain, laser technology has many other application scenarios. The CO2 laser cutting, 3D printing, and other laser equipment recommended by Han’s Laser can provide more complete, efficient, environmentally friendly and energy-saving automated laser production line solutions for medical production enterprises.