The market is driven by increasing focus on automating metal cutting process. This latest generation fiber laser facilitates integration into factory automation networks using Ethernet/IP protocol and embedded controller technology. Fiber lasers can be used for a wide variety of applications, from industrial traceability to branding, on materials such as steel, aluminum, plastic, & ceramic. Laser cutting works by directing the output of a laser through optics to cut high-precision patterns out of a variety metals, including steel, titanium, aluminum and copper as well as some plastics and glass. Because of the exceptional level of control, fiber lasers are used in some capacity in a wide array of industries, including aerospace, automotive, battery, electronic, printing, solar, etc. Preco’s PC based machine HMI is a CNC controller designed for laser processing with G-code programming.
For a very affordable price, you can have this laser cutter with either a 15W or 20W laser. Both power levels are good at engraving and cutting, but 15W is more cost-effective. It also comes with NEJE developed software that makes this machine easy to use. Overall, the NEJE laser cutter is a good cost-effective option if you need more power than the 3018 Pro. However, the Neje has a small work area, lacks Z-height adjustability, and lacks upgradability compared to the 3018 Pro.
The active fiber core has a minimum thickness – only a few micrometers. Transmission of the laser ray between the cutting head and the resonator is passed through the fiber. So, there is no need for mirrors, thus the regular costly replacement of the mirrors can also be avoided. Compared to the widely used CO2 laser, fiber laser generates ten times less wavelength and it makes possible to cut the materials efficiently.
Laser cutters are often operated two-dimensionally but, in some models, are also suitable for processing 3D items, such as pipes and profiles. Depending on the equipment included in the device, laser cutting also enables the production of three-dimensional openings. Today there are two popular types of laser cutting machines used in precision sheet metal fabrication, C02 and fiber. Fiber lasers boast extremely fast processing speeds and the ability to cut reflective materials which are not able to be processed using a C02 laser.
The amount of detail preserved with the SBM1200FL is because of the direct drive motor with software control. This software allows Fonon Technologies to import ANY image into the software as a prepared solution for engraving/cutting. This system will achieve a level of quality and detail that is unprecedented in the industry for laser cutting and engraving. It can cut/engrave stainless steel, mild steel, copper, brass, aluminum, leather, non transparent plastics, plaques, create stencils, and more. It has a replaceable nesting basket and can perform effective N2 or O2 gas-assisted cutting under pressures of up to 250 PSI.
Cut quality can be affected by raising or lowering the focal point from just above the surface of the plate, at the surface, or just below the surface. The Pulsar NT Series provides the latest developments in machine, CNC and laser resonator technologies. The Pulsar NT Series is designed for the high-volume, short-run production of sheet metal parts, featuring reliable high-speed processing, easy material loading, and automated unloading of multiple parts. The Pulsar series also features AMADA’s advanced cutting technique, CleanCut™. The 3kW, 6kW, and 9kW LCG AJ Series was developed with AMADA’s proven fiber laser technology. This technology helps achieve Process Range Expansion (P.R.E.) by having the ability to process brass, copper and titanium — materials that can be difficult to process with a CO2 laser.
The knowledge, gained over the years, combined with market feedback led to further development and optimization of our laser cutting machines. In addition to the L Series, Summa has an extensive range of laser cutting systems, adapted to your specific business requirements. Find laser cutting machines for highly specialized applications and industrial applications in the FB Series and laser engraving machines with the GraphiXscan. The high power density results in rapid heating, melting and partial or complete vaporizing of the material. When cutting mild steel, the heat of the laser beam is enough to start a typical “oxy-fuel” burning process, and the laser cutting gas will be pure oxygen, just like an oxy-fuel torch.
Laser cutters are very expensive piece of equipment – chances are you spent over $5,000 on yours (we spent $15k!) which means its important to keep the machine in good condition. There is nothing worse than having a multi-thousand dollar machine destroyed because of a few minutes’ negligence. Piranha offers a comprehensive range of thermal metal cutting solutions to meet your needs. Review our comparison chart to see which option best suits your operation. This assembled machine comes with everything except the laser tube, laser tube power supply and the chiller. GOLDEN LASER offers you professional laser solutions for your specific application industry – to help you increase productivity, simplify processing procedure and make more profits.
Fiber laser machines are also an interesting option when you consider their robotic makeup – the amalgamation computerization is laser edge cutting innovation that stands on its own. This innovation is one that is often viewed as the most viable option when there are complex projects to undertake. The highly technical aspect of laser cutting machines means that someone is not able to manage one flawlessly unless this trade is their specialty. So if you are in the industry and looking for useful machines such as these, then be sure to buy the ones that are the most practical and valuable for your company’s use.
Incorporating fiber laser cutting technology helps users process a variety of tubing and pipe with greater speeds compared to a CO2 system. AMADA introduces the world’s first fiber laser cutting system with Locus Beam Control . LBC Technology can freely manipulate the laser beam to create an infinite number of locus patterns and greatly enhance cutting performance. In conventional fiber laser cutting systems, energy density reduces as material thickness increases, resulting in a lack of effi ciency. In marked contrast, LBC Technology offers flexible beam pattern control matched to each application, while retaining high-efficiency cutting and high energy density. As a result, VENTIS achieves cutting speeds up to 3 times faster than a conventional 4kW fiber laser while producing superior edge quality.
Of these different types, the two most commonly used lasers are CO2 and fiber. Accumet of Westford, MA is a fully equipped, industrial laser cutting service center with the most skilled laser-machine technicians in the country. Whether your experience lies within industrial fiber laser technology or just starting to research the best laser cutter for your money, our staff is here to serve you . For a premium cutter that delivers speed, consistency, and longevity, look no farther than Dremel’s sophisticated machine.
CO2 laser machines function by essentially bouncing light emissions between mirrors until the beam is strong enough to penetrate a partially transparent mirror at the tip of the laser head. These lasers are capable of cutting wood, metal and other materials. In gas laser cutting, a gas like oxygen, carbon dioxide or nitrogen is used to cut material. For cutting mild and carbon steels, its common to use an Oxygen laser cutting machine. CO2 lasers are used for industrial cutting of many materials from titanium and stainless steel to mild steel, aluminum, plastic, wood, and paper. Several types of laser cutting machines are available, with each specific process producing parts with a high degree of precision, accuracy and high-quality edge finishes.
The drivers are simple to install, and you get talked through everything nice and quickly in the manual. They tell you just enough to get started so that you can learn by actually using the machine. It’s so refreshing to find that approach because too often you get buried under unnecessary details. By being able to see how your engraving is progressing with a quick glance, you can easily keep an eye on things. This is ideal if you’re working on an irregularly shaped sheet where you need a few checks to ensure the alignment is correct. It’s also a useful guide to the time that’s remaining if you don’t want to be sat in front of the computer the whole time.