You should also consider the shortcase-sized modules of the fiber laser. They provide redundancy. The resonator will not shut down completely if one of the modules has a problem. The fiber laser works in redundant mode so that the other modules can provide more power temporarily to sustain the down module's needs until they can be repaired. Field repairs are possible, however. Sometimes the fiber laser can produce less power while repairs are being made. An issue with a CO2 Resonator will cause the entire system to fail.
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.
A few machinery manufacturers now use cameras to verify tubes. The cameras reduce the quality inspection to less than a second, as well as the number of required rotations. This allows the machine both to remain productive and accurate.
North America's foremost magazine for the metal fabricating and metal forming industry, FABRICATOR. The magazine features news, technical articles, as well as case histories, that help fabricators do their jobs more efficiently. Since 1970, FABRICATOR is serving the industry.
Motion Dynamics is a top manufacturer of neurological subassemblies. These include steerable catheters and "pullwire" assemblies. Motion Dynamics makes use of StarCut Tube machines for precise cutting of key components.
There is a cutting technology that suits every need. Users have two options: CO2 laser cuttingsystems or fiber laser cutting systems, depending on the material to be cut and the level of productivity desired.
StarFiber Series combine compact fiber lasers with optional focusing heads for laser welding or cutting, including SmartWeld™ technology for fine and wide welds.
You can eliminate secondary operations. A tube laser is able to cut a piece and add holes, or any other cutout design in one step. The ability to control tolerances on more complicated fabrications is gained. To ensure parts fit together in a single way, you can use one continuous piece. We can tube laser-cut aluminum, stainless and carbon.
The most important criteria for the construction of fitness equipment are design, durability, usability, and compactness.
Parts are held by automatic tabbing (do in FabCreator) and a set jaws on both the idler and drive chuck.
With a rock-solid cutting platform (the SL uses a mineral cast base) these machines offer the ultimate in precision, with contour cutting accuracies better than +/- 5 µm. A choice of fiber laser or the latest Monaco USP laser enables fine cutting of any polymer or metal.
Laser fabrication solutions that meet your exact needs are available. They also offer process efficiency and quality for metal and non-metal fabrication.
Whether it is the manufacture of specific equipment for gyms, or smaller, multifunctional exercise machines for domestic spaces, tubes are the fundamental building blocks. This is why tube processing technologies, such as bending and laser cutting, are so widely used in this sector.
Tubes, profiles and systems are everywhere. They're used for everything from mechanical engineering to system construction to furniture making. With the new possibilities that lasers present, designers are increasingly taking advantage of laser-cut tubes or profiles. This has led to a substantial increase in demand. TruLaser Tube machines are a complete solution for laser tube cutting.
A fiber laser cutting machine generates a laser beam using active optical fibers and transmits it to the machine's cutting head via a transport fiber. This extremely hot laser is condensed into a narrow beam and is used to cut through various metal thicknesses.
from 3 months to 3 years
Glass CO2 laser tubes all degrade over time, with lifespans ranging from 3 months to 3 years. With use, the CO2 inside the tube degrades into carbon monoxide and oxygen. Overdriving the tube only accelerates this process and shortens its working life.