Gx-f Series
AMADA introduces the world’s first fiber laser cutting system with Locus Beam Control (LBC). 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 alack 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 3times faster than a conventional 4kW fiber laser while producing superior edge quality.
Thanks to our wide range of options—including configurations that require 30% less floor space than typical laser automation setups—we have solutions for any application.
Fiber Laser Cutting Machine How It WorksMCWlaserPRO is available in half-assembled format. First, attach the vertical column connecting laser source and laser engraving modules.
It will have the recommended speed and power rates for aluminum, steel, black acrylic, lexan, leather, granite, and more.
FSL Muse Pandora can operate with open lenses for 254mm,330mm, and420mm lenses. This allows the laser to be focused only on the work material.
Fiber lasers can also cut through reflective materials, provided they have enough power. With enough power, they can cut through almost any metal. Their cutting power will limit their ability to cut through thicker metals.
Fiber laser is a type of high energy laser beam based on fiber amplifier that uses glass fiber doped with rare earth ions as the gain medium. The pump light irradiates the rare-earth-doped glass fiber pump source, which induces the rare-earth ions to absorb photons, and the excited radiation has the same frequency as the incident photons. Under the action of pump light, it is easy to form high power density in the fiber, which results population inversion of the laser working substance. When a positive feedback loop (constituting a resonant cavity) is properly added, the laser oscillation output can be formed. Fiber lasers have a wide range of applications, including material processing, communications, medical beauty, scientific research and military, instrumentation and sensors. It has been used for cutting, engraving, etching, marking, welding, surface treatment, cleaning, cladding, and some other applications.
Gulf States Saw & Machine Co., Fiber Laser series is your solution for etching and marking all types of bare metals and plastics. Whether you're looking to mark metal with barcodes, logos, and serial numbers, or you're personalizing metal items such as watches, jewelry, and medals, an Epilog Fiber Laser system has the features to help you accomplish your goals.
A special type of fiber laser known as MOPA fiber laser, provides greater control over pulse width and frequency parameters to produce color laser engravings on metals.
Triumph Laser provides a computer, rotary axis, foot switch, 200mm lens, laser goggles, and a wrench set with the 30W desktop fiber laser.
At the heart of a fiber laser is the laser source and they do not have any gaseous medium in it like in a CO2 laser.
MCWlaserPRO is made to be used with metal materials such as steel, stainless, silver, bronze, alloy, aluminum, etc.
The laser module lasts for 100,000+ hours and can be used with a repetitive precision of +0.00039".
Some PVC-based acrylics can release toxic fumes if they are heated. It is better that you check the chemical compositions before engraving.
The wavelength is the primary distinction that determines the types of materials that each laser can process. The wavelength of a fiber laser is typically 1,060 nm, whereas CO2 lasers have wavelengths in the 10,600 nm range. Fiber lasers have many advantages over CO2 lasers in general.
Power consumption is extremely low.
A 3000W fiber laser requires 10kW of power plus 5kW for a chiller, for a total of 15kW. $2,700 per year at a rate of 15kW per hour for 12 hours.
To guide light, fiber lasers use an optical fiber cable made of silica glass. Because the resulting laser beam is straighter and smaller than with other types of lasers, it is more precise. They also have a small footprint, are energy efficient, require little maintenance, and have low operating costs.