For large diameter tubes or profiles, CO2 is the best choice. Tubes up O 14/24" (355 mm/ 610mm) 3D cutting modeCO2 laser
Remember that there is no perfect tube. They can have bows. They can have weld seams that protrude on both the interior and exterior of the tube. This material can be difficult to process consistently and quickly when there are inconsistencies from one product to the next.
All types, all shapes: This machine can cut carbon, stainless and aluminum in any shape or form.
StarCut Tube L 600 is available with a fiber laser, a USP laser or both lasers. StarCut Tube SL is a compact model with the smallest footprint in the market.
Monaco high-power femtosecond lasers deliver superior edge quality in micromachining and improvements in scientific applications like three-photon microscopy.
The tube cutting laser machine StarCut Tube offers the ultimate precision, with contour cutting accuracies better than +/- 5µm.
Fiber lasers can cut thin materials at high speeds. They are also very energy-efficient and require little maintenance. This laser cutting technology has special properties that allow for applications in steel, stainless steel, aluminum, as well as non-ferrous metals like copper and brass.
The right cutting technology for every requirement. Depending on the materials that are to be processed and the desired cutting quality and level ofproductivity, users have the choice between CO2 laser cuttingsystems and fiber laser cutting systems.
Laser cutting technology with shape can allow for complete customization. The raw material can be used to create finished or semifinished parts.
The CO2 resonator requires much more energy and is larger. Electricity is used to combine gases to create the laser beam. Mirrors aid in the light's intensity and prepare it for exiting the resonator. The beam must travel along a path that includes several cooled mirrors to reach the lens after it has exited the resonator. This causes the beam to lose power and quality.
In sheet laser cutting, the subject of material loading/unloading automation is well-established. This can be achieved with many different solutions. Tube laser cutting systems that are equipped with vertical storage for tubes or section bars can handle bars automatically, allowing for unmanned production changes. They have been around for only a few years.
Tubes are the essential building blocks whether you're making equipment for gyms or for smaller, multifunctional exercise devices for your home. This is why so many technologies for tube processing, like bending and laser-cutting, are widely used within this sector.
Reduce time and the number of parts required. Tube frames and metal structures can be assembled faster and with more precision. In one programming step, you can complete your part on one machine and one system.
The best solution for tubes with any section. Tubes up-to O 6 (152.4 mm)2D CutCO2 or fiber laser
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.
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.