Large diameter tubes and profiles can be cut with CO2. Tubes up O 14"/24" (355mm /610mm)3D Cutting modeCO2 laser
For large diameter tubes or profiles, CO2 is the best choice. Tubes up O 14/24" (355 mm/ 610mm) 3D cutting modeCO2 laser
Variety is the reality of any job shop, and the same goes for those that operate a tube laser. It’s not unusual to see parts of various sizes come from one tube. The machine must be able to unload laser-cut parts that may be as small as 2 in. and as long as 15 ft., one right after the other. It also must be able to unload those parts without damaging them, which can be a challenge with softer metals such as aluminum.
Record speeds are achieved by the TruLaser Tube 5000 fiber. This fiber takes full advantage the solid-state laser's strengths. This means that the user can process quickly and have access to a large number of parts.
Monaco high-power Femtosecond Lasers offer exceptional edge quality in micromachining, and improves in scientific applications such three-photon Microscopy.
Parts are held in place with automatic tabbing, done in FabCreator and a set o jaws on each drive chuck or idler chuck.
Built for maximum productivity, even for XXL tubes. With its robust solid-state laser, this machine can be used in numerous ways for the processing of tubes and profiles with a wide range of types of material and wall thicknesses.
StarCut Tube laser tube cutter offers unsurpassed precision. It can cut contours up to +/-5um.
You may have noticed that we haven’t discussed cutting speed yet. It is possible to cut up to 500 inches per minute on a tube, but that’s not always realistic. In laser tube cutting, the real focus should be on how long it takes to load a tube, index it so it’s in the right position for cutting, pierce and cut it, and unload the part. It’s more about part-processing time with laser tube cutting machines, not cutting speed.
A laser cutter that cuts sheet metal can transform a sheet of paper in seconds. You can also do the same with a laser tube cutter machine but it is a completely different story about how it is done.
Motion Dynamics is a leading manufacturer of neurological sub-assemblies, including steerable catheters and “pull-wire” assemblies, making use of our StarCut Tube machines for precision cutting of key components.
The tube laser cutting solution has the greatest working range. Tubes upto O 9.45" (240mm), 3D cutting modeCO2 OR fiber laser
Some things are difficult to see until you have a closer look at the fiber laser operating. Fiber lasers have a larger power density than CO2 laser beams because their beam diameter is typically one-third that of CO2 beams. This allows fiber to cut more quickly and also allows it pierce better. This allows the fiber to cut intricate shapes with sharp edges and leaves a smaller beam size. Imagine that a fiber can cut the company logo from a tube with spacing of 0.035 in between its letters; a CO2 laser is incapable of doing this.
This machine can be used for processing XXL-sized tubes. This machine, which is a solid state laser, can be used in many ways to make tubes and profiles.
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.
CO2 laser cutters are the most commonly used types of laser cutters because they are low power, relatively inexpensive, efficient, and can cut through and raster a wide range of materials.
What is the operation of a CO2 Laser? Modern CO2 machines typically generate the laser beam in a sealed glass tube filled with gas, typically carbon dioxide. A high voltage flows through the tube, interacting with the gas particles and increasing their energy, resulting in the production of light.