Does Not Cause Any Pollution To The Final Component Laser Pointer
Fiber splicing and forming. Toroidal CO2 laser beams promote fiber processing. The laser pointer is used to heat the process. Optical fibers can be spliced and formed, and have wider versatility than traditional arc systems. For decades, fiber splicing has relied on traditional heating methods, such as filaments or electrodes. Although laser heating has been a known alternative since the 1970s, the commercial availability of affordable carbon dioxide (CO2) laser sources has only recently attracted widespread industry interest. CO2 laser processing has many obvious advantages. The laser source itself is very clean. This means that the laser pointer does not cause any pollution to the final component. For example, chemical electrode pollution.
Tags
Software
At the same time. The laser pointer can maintain a very stable state for a long time. This reduces maintenance requirements. However, its main advantage over other electronic surface heating technologies is that absorption heating is fundamentally different from it. Through the absorption method, the heating process can be directly pointed to the place that is critical to the processing process. Directional heating not only improves the quality of the available fiber optic components, but also enables unique fiber shapes and designs. Make absorption heating effective. Laser pointers are essential for fiber forming tools.
In this case, the laser cannot be monitored all the time. If you have any concerns, just use the laser pointer crow with a key switch safety mechanism to completely eliminate these concerns.
2020-02-27 05:56:16
Your Answer: