Laser Tube technology represents a momentous breakthrough in laser tube cutting, paving the way for possibilities that seemed out of reach just a few decades ago. This evolution not only enabled cutting, but also extended its capabilities to 3D machining on straight tubes, becoming a key element in even highly complex frame building processes.
The Technological Heart: How the Laser Tube Works
Laser Pipe Cutting, a sophisticated laser machine, generates a powerful beam of electromagnetic radiation, amplifying the temperature of the pipe until it melts and vaporizes. In addition to cutting, his skills include drilling, making slots, carving and marking. A true technological work of art that is redefining metal tube processing.
Geometric and Material Versatility: Laser Tube and 3D Machining
The versatility of Laser Tube Cutting is manifested in its ability to process tubes with large cross sections compared to traditional machinery. It fits different shapes, including round tubes, square/rectangular tubulars, oval and elliptical tubes, and special closed or open profiles. The metal alloys involved embrace steel, stainless steel, aluminum, brass and copper ensuring complete coverage of metalworking needs.
Oxygen vs. Nitrogen: Assist Gas for Precise Cutting
In laser cutting, the use of assist gases such as oxygen and nitrogen is crucial. The choice between the two gases depends on several factors, including the thickness of the pipe, the cleanliness of the cut, and the speed of the process. This balance emphasizes the importance of careful selection to ensure optimal results.
Production Cycle Optimization: Laser Tube Before Bending and Calendering
Implementing Laser Tube before tube bending and calendering is a smart strategy to eliminate processing steps and reduce additional costs. The ability to perform cutting, drilling, and scoring before tube deformation represents a significant optimization of the production process, increasing overall efficiency.