The high cutting speed of CO2 lasers is what makes them stand out. Their main application area is the medium-to-high range of material thicknesses. The laser beam cuts with high precision and is free from burrs. This allows the parts to be processed further without needing to be reworked.
The laser generating technology that is used to produce sheet laser cutting machines can be upgraded to deliver as much as 12 kW. A laser tube cutter typically produces 5 kW of power, because more power would simultaneously cut through both ends of the tube.
The fiber solution to large-diameter profiles and tubes. Tubes up O14 (355.5 mm)3D Cutting ModeFiber laser
Many believed fiber lasers could only work with thin materials. Because CO2 has a longer wavelength, it created enough material kerf to permit material removal. Fiber lasers can't produce the same level of kerf and results with thicker materials. This has been corrected by collimating tech, which can produce a wide fiber laser-generated beam that allows for materials separation. It also makes it possible to allow for material removal in thicker materials. You can also switch the beam width so that the machine can process thin materials with the narrower beam. This allows you to process more materials in a shorter time.
It's a third of a full 20-foot (240") tube, making it convenient to create three pieces of stock. This allows you to still purchase full tube lengths without wasting any material
Fiber lasers are capable of cutting thin materials with high speeds. Fiber lasers are very efficient and low in power consumption, but require very little maintenance. Laser cutting technology is able to cut steel, stainless and aluminum as well as nonferrous metals such copper and brass.
The TruLaser Tube 5000 fiber can achieve record speeds. It fully exploits the strengths of solid state lasers. This allows for faster processing times and the possibility of assembling many parts.
Material loading and unloading automation is an important topic in sheet laser cutting. It offers many options and complexity. Tube laser cutting systems fitted with vertical storage systems (for tubes and section bar) that can handle bars automatically and allow for unmanned production adjustments have only been available for a short time.
Traditional tube features can take a lot of time. FabLight makes it simple to have exactly what you want, and how you design it in just minutes.
The TruLaser Tube 5000 fiber achieves record speeds. It takes full advantage of the strengths of solid-state lasers. For the user, this means short processing times and a wide range of possible parts.
Parts are held by automatic tabbing (do in FabCreator) and a set jaws on both the idler and drive chuck.
Gulf States Saw & Machinery Co., Inc.'s team of experts can work with you to develop innovative designs that can improve aesthetics, increase functionality and deliver new products to market faster.
The solution with the widest working range in tube laser cutting.Tubes up to Ø 9.45" (240 mm)3D cutting modeCO2 or fiber laser
Fiber lasers require little maintenance, are more efficient than traditional CO2 laser cutting machines and can cut reflective materials. They are also faster than CO2 machines for certain metal thicknesses. When it comes to cutting tubes, speed is not necessarily a good thing. You can save time by speeding up the tube processing and producing finished parts.
Pipe and tubing Cutting Procedures:
Rotate the pipe cutter around. Tighten the cutter slightly and rotate it around the pipe several times. Repeat until the pipe is severed by the blade. Steel pipe can be cut with a hacksaw, reciprocating saw, or steel-pipe tubing cutter.
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.