In the world of laser processing, every component choice affects the machine's performance. Fiber optic lines are a key link in laser transmission and are very important to ensure efficiency and accuracy.
The smaller core is approximately 10 microns in diameter, allowing for tighter focus and higher intensity. Diameters of 50 microns and above enable high power transmission and are suitable for thick material processing.
When choosing fiber optic cable for a laser machine, there are many aspects to consider. Here is a professional guide to choosing fiber optic cable:
Lasers typically use single-mode or multi-mode fiber. Single-mode fiber is best suited for applications that need high precision and fine detail. They are able to maintain the coherence of laser beams over long distances, allowing for small focus points and high densities.. In contrast, multimode fiber can provide larger spot sizes. This makes it suitable for higher power output applications such as deep welding or thick material cutting.
Core diameter affects the laser's beam quality and focusing. The smaller core diameter is approximately 10 microns, allowing for tighter focus and higher intensity. Diameters of 50 microns and larger enable high-power transmission and are suitable for high-speed and thick material processing.
The length of the fiber optic cable causes signal attenuation, which is a loss of laser intensity. According to industry reports, typical attenuation rates for optical fiber range from 0.2 to 0.5 dB per kilometer. Fiber lasers generally exhibit lower signal losses. Yet for high-power applications, minimizing fiber length to reduce energy loss is critical.
Fiber optic cables need to be compatible with the laser source and processing head. To avoid misalignment and potential damage, they must match the connector type and size on your device.
High-quality fibers are designed to withstand harsh environmental conditions and mechanical stress. Opt for cables that are well-protected by durable jacket materials.
Buying from a reputable manufacturer ensures technical support and a solid warranty. Certifications and standards compliance for fiber properties should be checked before purchasing.
Consider the total cost of ownership, including initial price and input expenses. Opting for higher-quality fiber optic lines may be more cost-effective in the long run. Because operating costs are lower and there are fewer breakdowns.
By evaluating these factors, choose the fiber optic cable that is best for you and ensure the reliable operation of your machine.
Proper installation and maintenance are critical to extending the life of fiber optic cables:
Avoid excessive bending of optical cables during installation. To prevent kinking and breakage, the least bend radius should be no less than ten times the outer diameter of the cable.
Dust and debris can reduce optical clarity. For connectors and exposed ends of fiber optic cables, clean them with a lint-free cloth and isopropyl alcohol. The frequency of inspections should be at least once every six months.
Protect fiber optic cables from harsh environments. Extreme temperatures and chemicals can easily cause materials to degrade and affect performance.. Additionally, ensure that the wiring path is free of potential mechanical hazards.
Achieving better processing results is inseparable from the grasp of details. By understanding the above knowledge, I believe you already have the ability to choose.
If you have any questions about the selection and use of laser machine accessories, you can contact us at any time. Our team has many years of industry experience. Customizing solutions for customers is what we are best at.