Tube Lasers Cutting Systems Japan

The wavelength of fiber lasers is 0.06 microns. This difference is 10 times smaller than the wavelength of CO2 lasers. A fiber laser beam produces a wavelength of 1.06 microns, which is 10 percent smaller than that of a CO2 light source. However, a CO2 light source is much more likely be absorbed by reflective materials. Fiber laser cutting machines have the ability to cut brass, copper, or other reflective materials. Note that CO2 laser light that reflects off the material could not only damage the machine's optical system, but also the entire beam pathway. This risk is eliminated when the beam path is made of fiber-optic cable.

Fiber lasers are nearly maintenance-free and demonstrate superior wall plug efficiency compared to traditional CO2 Laser cutting machines. They can also be used for precise cutting of reflective materials. They are faster than CO2 when cutting certain thicknesses of steel. The speed of cutting tube is relative. Real time savings can be achieved by speeding up processing times for the tube and creating finished parts.

StarCut Tube SL - A complete turnkey machine with an fs–laser, the StarCut Tube SL laser cutter is ideal for complex metal shapes like thrombectomy stent retrievers.

Lasertube systems are a great way to improve or create new applications. They also allow you enter new industrial areas and increase your profit margins.

Due to the power required to make a CO2 laser it is much less efficient than a fiber laser and has a lower wall plug efficiency. The large chillers needed to create CO2 lasers require more power overall. The fiber laser resonator has a wall plug efficiency of over 40 percent so you not only use less power but also take up less of your high-demand floor space.

No downtime or extended lead time: Because we combine a tube machine and a laser, each stage of your project can be completed in one location. We can offer full-service support for all your needs.