CXO Laser
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Fiber laser cutting machines utilize a high-quality beam mode, resulting in an extremely small focused spot diameter and exceptionally high energy density. This characteristic allows the equipment to achieve micron-level positioning accuracy and repeatability during the cutting process. The resulting heat-affected zone is very narrow, causing minimal thermal deformation of the workpiece.
Fiber lasers boast a significantly higher electro-optical conversion efficiency, typically reaching over 30%, which is several times that of CO2 lasers. Over long-term operation, the equipment saves businesses considerable electricity and maintenance costs, making it a highly economical processing solution.
Whether it's common carbon steel, stainless steel, or highly reflective non-ferrous metals like aluminum, copper, and brass, they can achieve stable and efficient cutting. This capability breaks the limitations of traditional processing regarding highly reflective materials.
When processing thin to medium-thick plates, speed can reach tens of meters per minute. Combined with a high-rigidity machine bed and advanced servo drive systems, the equipment achieves extremely high axis acceleration for X/Y axes.
Fiber laser cutting machines adopt an all-fiber structure design, with the optical path completely enclosed. This characteristic grants the equipment strong resistance to vibration and dust. The design life of the core laser module typically exceeds 100,000 hours.
