Industrial laser cutters are available in a variety of types. They include CO2 lasers and fiber lasers. Each type has its own set of benefits and disadvantages, so it is important to choose the right machine for your needs. Before purchasing an industrial laser cutting machine, make sure to understand the different types of energy used by each type. CO2 lasers are less powerful than fiber lasers, but they can still cut metals and other non-metallic materials.
The two most common industrial laser sources are CO2 and fiber. Depending on the power and frequency, CO2 lasers have a range of wavelengths ranging from 9500 to 12,000 nm. Since organic materials easily absorb CO2 lasers, they are ideal for cutting non-metal workpieces. The downside to CO2 lasers is that they do not cut steel or shiny metal surfaces well, but they can match or beat the speed of fiber lasers in all thicknesses.
There are several advantages of fiber lasers in industrial-grade laser cutters. They can cut up to 16 mm thick materials and can be used in high-volume production. The cutting speed and the quality of the surface are strongly affected by the power of the laser. The larger the power of the laser, the thicker the board can be and the faster the cutting speed can be. There is an optimal power range for plate thickness and the amount of surface roughness, which increases as the workpiece deviates from this range.
Flying optics machine:
The quality of the laser’s optics is a critical determinant of its performance. Although many people focus on the power consumption of a laser machine, that is not the only determinant of its performance. It is important to look at demonstrations of a machine’s performance to determine its suitability for your needs.
Industrial laser cutters can be classified according to their type of laser. CO2 lasers are widely used for nonmetal cutting, while YAG lasers are used for metal cutting. Both types emit light with a wavelength of 10.6 um. However, not all materials can be cut using the same type of laser since different materials absorb light of different wavelengths. Thermal stress fractures, on the other hand, are used for cutting brittle materials.