The Fiber laser technology is distinct from that of the standard solid-state laser. Fiber Lasers are exceptionally powerful and made of two of the most innovative and sophisticated laser technologies –optical fiber and semiconductor diodes. In the process, the lasers stimulate diode as the source of light to drive and activate the fiber. The laser ray is generated in the optical fiber and then it is transmitted via the flexible resistant wire. The fibers and rare-earth ions are doped collectively facilitating high power generation of the extremely small core that efficiently creates powerful lasers with superior beam quality. Thus, the fiber lasers are pertinent to amplifying light. The concepts engaged behind these lasers are to some extent the same as those of laser diodes and the gas lasers. The compact style of the laser however helps to prevent alignment concerns as they can come in several forms adding advantages over other lasers. The fiber core has the minimum thickness- only some micrometers. The transmission of the laser ray through the cutting heads and the resonator is passed. There is no requirement for mirrors, thus, the costly replacement of the mirrors can also be avoided. Comparing to the widely used CO2 laser, Fiber lasers generate the wavelength of ten times less which makes the cutting of the materials efficiently.
The Nukon fiber lasers are famous and the industry leader because of their efficiency and quality. These Fiber Lasers are designed and manufactured following the latest technology and thus, reduce costs and maintenance time. Nukon fiber lasers are the preferred laser by industry leaders for their high adaptability. These fiber lasers provide several variations and can be used for heavy sheets of metal.
The Nukon Fiber Laser machines are manufactured and produced as versatile machines; they are produced in different working sizes that match the industry requirements. Some sizes from various series of machines are:
Nukon fiber lasers always facilitate greater efficiency in output. In the two-stage fiber laser process, they provide exactly the desired efficiency. The laser beam is transmitted to the cutting heads through the fiber optic cable without any loss. So, a superior cutting accuracy and quality is assured. While comparing to the CO2 lasers, it is evident that they have the upper hand as CO2 machines require both internal and external optic alignments, cleanings, and replacements. Nukon Fiber Lasers are designed in such a way that they meet the expectations of the fast-changing production platforms effectively.
The Nukon fiber laser machines have a module structure. For this feature, users can change the type of resonator after a certain period easily. It can be done by just adding new modules while in operation. (For example; from 1kW resonator to 2kW resonator or so).
The Nukon fiber lasers are specially designed to consume low power and thus, facilitate the users low energy costs. These machines are also user-friendly; operators can use all the interfaces easily at their convenient. Moreover, Nukon machines are environment efficient too.
Nukon fiber lasers are manufactured with productive and convenient configuration. These machines are equipped with automatic dual palette swap hydraulic shuttle system. The main body is rigid and robust. The wave fiber lasers are designed as single or multimode. The single mode provides a high-quality beam where as the multimode is able to generate higher raw power. The work area is illuminated with a standard view for facilitating easy operations and monitoring.
Nukonmachines can produce smaller piercing holes fast in the mild steel up to a thickness of 16mm by controlling the oxidation reaction and enhancing of the beam quality. On the other hand, an automatic flap is there to collect dust on the spot at the time of processing. Moreover, the CR controls of the machines reduce corner’s dross adhesion and ensure high-speed processing and quality maintenance.
The Nukon Fiber lasers are highly reliable with greater vibration stability, extended life span, and lower maintenance operations. In the process, the light is joined to the very flexible fiber that allows the fiber to move freely in laser cutting and folding of several metals and polymers. With high peak power and nano-pulses, the machines enable precision marking and engraving. Better beam quality of the machines provides faster-cutting speed with cleaner cut edges.