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Datum Machine
Datum Machine
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. The cutting surface is smooth and burr-free, typically eliminating the need for secondary processing.
Compared to traditional lasers, fiber lasers boast a significantly higher electro-optical conversion efficiency, typically reaching over 30%. This means substantially less electricity consumption. Furthermore, it requires no laser process gases and has no complex reflective lenses, keeping consumables limited to auxiliary gases and standard wear parts.
Modern fiber laser cutting machines exhibit high adaptability to various materials. 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 breaks the limitations of traditional processing methods for industries such as electrical and decoration.
When processing thin to medium-thick plates, speed can reach tens of meters per minute, far exceeding traditional punching and plasma cutting. Combined with a high-rigidity machine bed and advanced servo drive systems, the equipment achieves extremely high axis acceleration, significantly enhancing production capacity.
With an all-fiber structure design, the optical path is completely enclosed, eliminating the need for external optical lenses. This grants strong resistance to vibration and dust. The design life of the core laser module typically exceeds 100,000 hours, ensuring long-term stable operation without frequent downtime.
