Today, fiber laser cutting heads are equipped with only a small number of optical components, plus a cutting nozzle. The cost of running a fiber laser typically ranges from $ 1-3 to $ 1 per hour, depending on the processing elements involved in these costs and how they are calculated. With the improvement of the comprehensive capabilities of the first generation fiber laser pointer, fiber lasers have become an attractive alternative solution to almost all current blanking processes.
Of course, there are some additional points that must be noted that high-power fiber lasers are working to maintain balance in the manufacturing process. Many may think of these as “positive” aspects, but they still need more planning. The speed of a 6kW fiber green laser pointer is significantly higher than that of 4kW and 2kW fiber lasers, and the processing speed is also faster than any CO2 laser series products. If plasma and water cutting units are integrated into the production line, this one machine will have double or even triple the production capacity of the previous process operation under the same or less footprint.
This overload capacity has forced manufacturers to reconsider downstream processing processes such as material handling and bending operations. A balanced production process management system can be easily changed by a high-performance machine, which often means that the next capital investment may need to focus on bending processes, such as automatic tool change bending machines and robotics. So what about materials handling? These are issues that have not been seriously considered before, but there is no doubt that high-power fiber lasers will increase the overall production capacity of the production line.
High-power fiber Laser Engraver has quickly found its place in the manufacturing industry through continuous development and evolution. Compared to low-power products, they are just as easy to operate. Compared to CO2 lasers of the same power range, any additional capital investment in fiber lasers can be offset by its significantly increased production capacity and lower operating costs. In addition, the ability of fiber lasers to process thick plates makes it an ideal alternative solution for processes such as plasma and water cutting.
The industry has gradually unveiled the hazy veil of fiber laser technology. Fiber lasers have suddenly become an efficient (blank) solution to the problem of shrinking the space between small batch orders and high production capacity, which can provide manufacturers with high power , Higher yields, lower costs, greater flexibility, and higher profits.