Fiber lasers have a wavelength of 1.06 microns, which is 10 percent smaller than that of a CO2 laser beam. With its much smaller wavelength, the fiber laser produces a beam that is much more easily absorbed by the reflective material; a CO2 laser is much more likely to reflect off the surface of these materials. Because of this, fiber laser cutting machines can cut brass, copper, and other reflective materials. It should be noted that a CO2 laser beam that reflects off the material can not only damage the machine’s cutting lens, but also the entire beam path. Using a fiber-optic cable for the beam path removes this risk.
When it comes to processing tubes, pipes, and structural steel, Gulf States Saw & Machinery Co., Inc. has a solution to fit a range of fabrication needs. Not only do Gulf States Saw & Machinery Co., Inc. tube lasers offer superior laser-cutting technology, many also integrate additional processing functions to deliver value-added benefits for fabricators.
Leaders in the manufacturing of advanced laser cutting solutions.
The right cutting technology for every requirement. Depending on the materials that are to be processed and the desired cutting quality and level ofproductivity, users have the choice between CO2 laser cuttingsystems and fiber laser cutting systems.
Micrometric Ltd uses its versatile Coherent StarCut tubes laser cutting machine in order to produce speedy and precise medical and aerospace products.
The images of product are used for illustration purposes only. They may not represent the exact product. Gulf States Saw & Machinery Co., Inc. reserves every right to make changes to product specifications and images without prior notice.
Highest flexibility for cutting different medical devices, in metals or plastics, from tubes or flat stock with the Coherent StarCut Tube “hybrid” version. This turnkey laser machine incorporates two lasers in a single compact housing.
The CO2 reactor is larger and consumes more energy. To produce the laser beam, electricity is added to a mixture gas mixture. Mirrors are used to increase the intensity of light, and prepare it for exiting a resonator. The beam must travel through the path of several cooled reflectors until it reaches lens once it has left the resonance. This travel can cause a loss of power or quality in the laser beam.
PowerLine C are CO2 laser-based systems for precision drilling, cutting, scribing, marking, and engraving of many non-metals, including glass, organic materials.
Many people believed that fiber lasers could only cut thin materials. The CO2, due to its longer wavelength created enough kerf when cutting thick materials. Fiber lasers couldn't produce the same result with thicker material. Recent developments have addressed this problem with collimating technologies that produce a larger fiber laser-generated beam which creates materials separation. Switchable beam width allows the machine to use the narrower beam for processing thin materials. This allows the machine to process multiple-sized materials more quickly on one fiber laser cutting machine.
Material loading and unloading automation is an important topic in sheet laser cutting. It offers many options and complexity. Tube laser cutting systems fitted with vertical storage systems (for tubes and section bar) that can handle bars automatically and allow for unmanned production adjustments have only been available for a short time.
Micrometric Ltd uses a versatile Coherent StarCuttube laser cutting machine for speed and precision in manufacturing aerospace and medical products.
Lasertube systems can be used to develop new applications and improve existing ones. This allows you to enter new industrial sectors, increasing profits, and allowing for new opportunities.
Fiber lasers are nearly maintenance-free and demonstrate superior wall plug efficiency compared to traditional CO2 Laser cutting machines. They can also be used for precise cutting of reflective materials. They are faster than CO2 when cutting certain thicknesses of steel. The speed of cutting tube is relative. Real time savings can be achieved by speeding up processing times for the tube and creating finished parts.
The laser beam is the most important component of the laser cutter; it determines wavelength and power, and thus the material that it can cut or engrave. Solid-state lasers, fiber lasers, and CO2 lasers are the three main types of lasers used in laser cutting.
Maximum material cutting thicknesses by 1000W fiber laser cutting machine: Carbon steel has a maximum thickness of 10mm; stainless steel has a maximum thickness of 5mm; aluminum plate has a maximum thickness of 3mm; and copper plate has a maximum thickness of 3mm.