The laser module lasts for 100,000+ hours and can be used with a repetitive precision of +0.00039".
F-theta(?) is used by the laser module. A lens with high energy uniformity, narrow focal spot and low attenuation.
Since the working medium adopted by the laser generator is in the form of an optical fiber, its features are affected by the transition properties of the optical fiber. The pump light entering the fiber generally has multiple modes, while the signal photoelectric may have multiple modes. Different pump modes have different effects on different signal modes, making the analysis of laser generators and amplifiers more complicated. The doping distribution in the fiber also has a great impact on the laser generator. In order to make the medium have gain characteristics, working ions (that is, impurities) are doped into the fiber. In general, working ions are evenly distributed in the core. However, the distribution of pump light of different modes in the fiber is non-uniform. Therefore, in order to improve the pumping efficiency, the ion distribution and the pumping energy distribution should be as close as possible. When analyzing the laser generator, in addition to the general principle of the laser generator discussed above, it must also consider its own features, introduce different models and adopt special analysis methods to achieve good analysis results.
Laser machines with a fiber laser source use high precision field lenses to increase the energy density and collimate the laser beam at one point.
When it comes to cutting various Fiber laser machines are more efficient at cutting thin metals. A fiber laser machine can cut thin metals efficiently up to 25mm or 1 inch. After that, fiber lasers start cutting metal less efficiently. You would need high amounts of power, which by the way cost a lot more money, to cut ticker metals above 25mm or 1 inch.
You can use a Raycus 50W laser to engrave stainless steel at a 90deg angle and with a speed up to 3,540 ipm.
Auto-focus automatically adjusts laser head position on the Z-axis based on data received from the 3D cam.
Fiber laser machines have a higher efficiency rate at cutting thin materials than traditional cutting machines. A fiber laser machine has the ability to cut thin metals as small as 25mm. The fiber lasers will start cutting metal less effectively after that point. To cut ticker materials above 25mm (or 1 inch), you'd need high levels of power.
An affordable entry-level fiber laser cutter costs from $15,800 to $32,800 with lower laser powers of 1000W and 1500W for beginners with hobbyists, the top rated automatic fiber laser cutting system cost starts from $29,800 with medium laser powers of 2000W, 3000W, 4000W, and 6000W for precision cutting in in commercial use. The best high speed industrial fiber laser cutting machines are priced from $88,000 to $500,000+ with higher laser powers of 8000W, 10000W, 12000W, 15000W, 20000W, 30000W, 40000W for thick metal fabrication in professional use. The best budget fiber & CO2 combo laser cutting machine costs from $19,800 for multipurpose to cut metal, wood, MDF, plywood, acrylic, plastic, fabric, leather.
Fiber lasers are solid lasers. But, they are also different from diode Lasers. There is a big difference in their capabilities.
The closer the M2 value is to 1, the tighter the focus spot gets, the more laser energy is delivered at the laser spot. It helps process thicker materials with thin deep wells.
Since the refrigeration compressor is sensitive to the power supply voltage, the standard working voltage is 200 ~ 250V (100 ~ 130V for 110V models). If you really need a wider operating voltage range, you can customize it separately.
MCWlaser PRO is designed to be used on metal materials like steel, stainless steel, silver, copper, alloy, aluminum, Etc.
They offer a 30-day refund policy and a two-year parts warranty for all components and the FM-Desktop's fiber laser.
Because the glass is transparent and the wavelength range of the automatic fiber laser cutting machine does not fall within the absorption range of the glass, it only absorbs a small amount of laser energy within the visible spectrum and cannot be cut by fiber laser.
In fact, the diode module in a fiber laser typically outlasts other technologies by three times. Most lasers have a lifespan of about 30,000 hours, which equates to about 15 years of use. Fiber lasers have an expected life of 100,000 hours, which equates to 45 years of use.
Laser fiber cutting machine
Fiber optic laser cutters are intended to cut metal at high speeds and with pinpoint accuracy. These machines, which have been on the market for more than 20 years, also use a fiber laser power source.