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Tube Lasers Cutting Systems Online

The TruLaser Tube 5000 fiber is capable of reaching record speeds. It makes full use of solid-state Lasers' strengths. This results in shorter processing times for the user and a wider range of parts.

StarCut Tube® SL laser cutting system provides the highest precision, reliability and performance for complex medical devices like stents, aortic valves replacements or hypotubes.

With Lasertube systems, you can create new applications or improve existing ones, entering new industrial sectors and increasing profit margins.

Secondary operations are eliminated: A tube Laser can cut a length of piece, add holes and cutout other designs in one operation. It also eliminates the need for additional actions like manual material removal. For more complex fabrications, you can maintain tight tolerances. Parts can easily be manufactured from one continuous raw material. Tube laser aluminum, stainless-steel and carbon can be made.

Systems

Systems

You don't need to spend a lot of money or be very technical in order to have your own laser tube cutting. Anybody can cut like no one has ever seen, from students to engineers.

Imagine having to place a through-hole centered on a tube. It has to be centered to the actual dimension, not just one face of the tube. If the tube is bowed, that’s going to make things more difficult. That’s the life of tube fabricating.

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You should remember that there are no perfect tubes. They have bows. They may protrude from the interior as well as the exterior of the tube. It is difficult to process this material in a consistent and rapid manner when there are such inconsistencies among products.

Fabricators may think first of high speed cutting when thinking about fiber laser technology. It might be true that speed is relative when it involves tube cutting. It's about how long it takes to cut a tube to meet the specifications, not its actual speed.

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Design Software

Save time and reduce number of components Metal structures and tubular frames can be made faster and more precisely. Completion of your part is possible in just one programming step, one machining step, or on one system.

PowerLine C CO2 laser-based systems are used for precision drilling and cutting, scribing marking, engraving, and scribing on many non-metals such as glass, organic materials, and other non-metals.

Tube Lasers Cutting Systems Washington State

Many believed that fiber lasers were only suitable for thin materials. Because of its longer wavelength, CO2 created enough kerf to allow for material removal. The fiber laser could not produce the same results or kerf with thicker materials. This problem has been solved by collimating technology, which can create a wider fiber laser-generated beam. This allows for materials separation and more room to remove thicker materials. The machine can switch between the beam widths, so it can process thinner materials with the narrower beam. This allows for faster processing of different-sized materials using the same fiber laser cutting machine.

Fiber lasers are 10 percent shorter than CO2 laser beams in wavelength. Because of its shorter wavelength, fiber lasers produce a beam that is easier to absorb by reflective materials. A CO2 laser's wavelength is less likely to reflect off these surfaces. This allows fiber laser cutting machines to cut brass, bronze, and other reflective material. A CO2 laser beam that reflects on the material can damage not only its cutting lens, but the entire beam path. This risk can be eliminated by using fiber-optic cables to guide the beam.

Tube Lasers Cutting Systems Online
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Tube Laser Cutting Systems Union Grove Nc

Coherent StarCut Tube 'hybrid' version provides the highest flexibility for cutting medical devices made of metals or plastics. This machine integrates two lasers within a compact housing.

Fiber lasers have wavelengths of 1.06 microns. This wavelength is 10 percent lower than the CO2 laser beam. Fiber lasers have a much shorter wavelength which makes them more able to absorb reflective material. CO2 lasers are more likely reflect off these surfaces. Fiber laser cutting machines can be used to cut brass and copper as well as other reflective materials. The machine's laser beam, as well as the beam path, can be damaged by a CO2 laser beam reflected off the material. This risk is eliminated if the beam path is used with a fiber optic cable.