In the field of lighting, the popular American industrial style lighting nowadays is mostly made of metal, which has a unique texture. Combined with laser processing, it is made into lighting and is widely sought after by many young people.
Laser cutting machine are currently the mainstream equipment for processing metals, and laser cutting has also become a necessary process in metal lighting processing.
At present, many high-end customers have high requirements for lighting. Lighting designers need to find corresponding lighting designers to design lighting, and then write the designed drawings into a laser cutting machine through a program to process the metal outline and finally make metal lighting. This can better adapt to the constantly changing market demands of the lighting processing industry and help enterprises stand out in the fierce market competition.
The flexibility, rapidity, one-time molding, and no need for mold opening of laser cutting machine are suitable for processing high reflective metal materials such as stainless steel, aluminum veneer, brass, and copper. They can effectively assist manufacturers in achieving artistic creation, personalized customization, and small batch customization. Compared with traditional cutting processes, laser cutting machines can cut better quality workpieces and reduce processing steps.
Laser cutting machine advantages in metal lighting processing
1.Laser cutting machine technology belongs to non-contact machining, which uses a high-density laser beam to irradiate the surface of the workpiece to achieve fusion. The slag is blown away by high-pressure gas to complete the cutting action. The entire process is CNC machining, without contact or deformation.
2.It is completely free from the limitations of pattern complexity, with very fast processing speed, high accuracy, and beautiful cutting end faces. It can process originally cold metal materials into artistic patterns, combined with the effect of lighting, making the metal patterns more exquisite and high-end.
3.During the machining process, there is no "tool" wear and no "cutting force" affecting the workpiece.
4.High energy density is sufficient to melt any metal, especially suitable for processing materials with high hardness, brittleness, and high melting point that are difficult to process in other processes.
