Most parts advertised for sale are made by, or for, American Torch Tip Company and other parts, as indicated, are original parts manufactured by the above-named OEM and are simply being resold by American Torch Tip Company. References to the above-named machines, torches and numbers are for your convenience only. The system’s high-powered, 4000 watt laser creates exceptional edge quality. Disadvantages of CO2 lasers . Cutting speeds are generally much faster with fiber, and the process yields fine cuts with precision quality. Fiber optic laser cutters utilize amplified light that is channeled through a fiber optic cable. The beam is then moved through a flexible fiber optic cable to the laser cutting head. The Fiber Focus ™ Fiber Optic Cutting System provides exceptional value, with 100% Turn Key Customer Service and Support! It includes a material feed tower with an automatic material load/unload feature that enables fully-automated “lights out” operation. Like any welding setup, though, the decision tree for finding the right automated laser cutting process starts with an evaluation of both your current applications, needs and limitations, and your long-term vision. Material and thickness cutting speed, and cost to cut 100 ft. of material, cutting cost comparison .
A CO 2 system, on the other hand, relies on mirrors, installed a set distance apart, to transfer the light beam. These factors combine to minimize or eliminate scrap and inaccurately-cut parts, reducing material costs.Tempco’s fiber optic laser cutter is powerful enough to cut sheet metal up to 0.866” thick (maximum thickness varies by material). This advantage provides improved efficiency and simplification for the overall design of the fiber engine.Amada’s 9000-watt laser cutter is designed with a wide range of features that make it the premiere laser cutter in the industry.
Fiber optic laser cutting is among the most environmentally-friendly metal fabrication processes available.The LCG3015AJ utilizes Amada’s patented fiber laser technology, which allows for a wide range of materials types and thicknesses to be processed quickly and efficiently. View Tempco's work gallery for examples of our metal stamping and metal forming expertise.Tempco's fiber optic laser cutter is up to four times faster than conventional laser systems.We produce tooling and fixtures in-house in our state of the art tool and die shop. Variables including the type and thickness of the material, accuracy, production rate, purchase budget, and operating costs are all important factors to consider.CO2 laser cutting works by focusing a high-intensity infrared laser beam through a series of mirrors and out through a nozzle. American Torch Tip is not necessarily authorized by the above-named manufacturer(s) to provide replacement parts. This delivery system provides extremely accurate cutting of numerous types of materials in various thicknesses. But even though it’s an older cutting method, several features of the CO2 laser drive its continued popularity for industrial welding and cutting: it emitsCO2 cutting is best for fine features and acute angles, and typically uses two axes and a moveable table to create the cut. And, unlike CO2 laser technology, fiber optic lasers require no gases to generate the laser beam, thereby eliminating potentially harmful emissions. Fiber lasers are similar to CO 2 lasers in that they use a laser light to cut metal. This 9000-watt model can cut materials such as copper, brass and titanium, with the added capability of being able to process common material four times as quickly as competitors. The rapidly growing science of laser cutting is dominated by two main methods -- carbon dioxide (CO2) laser cutting and fiber laser cutting.
Welding Capabilities for Metal Fabrications & Stamped MetalMachining Capabilities for Stamping and FabricationHeavy / Industrial Equipment Stamping & FabricationsSecondary Operation Equipment for Fabrication & StampingWelding Capabilities for Metal Fabrications & Stamped MetalMachining Capabilities for Stamping and Fabrication CO 2 lasers use an electromagnetically stimulated gas—typically, a mixture of carbon dioxide, nitrogen and sometimes hydrogen, xenon or helium—as their active laser medium.