AMADA laser cutting systems utilize the latest advances in fiber laser and CO2 manufacturing technology that enable customers to maximize their productivity and profitability. The laser technology in AMADA fiber laser and CO2 cutting machines allows for high cutting speeds and the flexibility to process a wide range of materials like aluminum, steel, copper and brass resulting in Process Range Expansion (P.R.E.). AMADA's Fiber Laser Cutting Systems and CO2 Laser Cutting Systems range from 1kW to 12kW. Their advanced motion and innovative beam delivery systems are engineered to raise productivity, increase cut quality and reduce operating costs.
The enclosure features a motorized opening. It works in desktop configurations of FSL Muse Pandora.
Plasma working can be complicated. I'll explain the basics as quickly as possible. Plasma cutters heat up gases so that they can melt metal. After the metal melts, it's blown out with gas. The science behind this is complex, but I'll spare you the details. You can either do some research yourself or ask me.
It can engrave on metals at a maximum speed up to 11,760 ipm. It can mark images and fonts on metal surfaces, both smooth and rough.
The 20W version of FSL Muse Pandora can deep engrave silver at a speed of ~708 ipm utilizing 100% of the laser power.
When it comes to using the machines, laser cutters and plasma cutters are very similar. The software they use to cut metal is also remarkably similar. So if you have a plasma and want to switch to laser for it’s speed, it will be a very fast learning process.
MCWlaser Pro does not have an upgrade option, however you can customize the product while you are purchasing.
Fiber lasers use much less energy than CO2 lasers. They operate at shorter wavelengths (780 nm to 2200 nm) and have a much higher absorption.
The laser beam is then amplified using an optical fiber and fed to a cutting head.
Gulf States Saw & Machine Co. (FM1212-50S) can engrave acrylics, brick, granite and marble, tile as well as aluminum, gold, silver stainless steel, brass or titanium.
Laser cutting machines have the advantage of being able to accurately cut metal. They are 2X more precise than plasma cutters. Plasma lasers can cut metals up to 0.1mm or.004inches. Laser cutters are capable of cutting metals up to.05mm, or.002inches.
The laser source module measures 8.3"x14.9" and the engraving machine module measures 13.8"x22".
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.
Triumph Laser supplies a computer and a rotary axis, foot switches, 200mm lenses, laser goggles, and an assortment of wrenches with the desktop 30W fiber laser.
Marking and engraving are improved by high peak power and nanosecond pulses. The increased power and improved beam quality result in cleaner cut edges and faster cutting speeds. Fiber lasers are also used in material processing, telecommunications, spectroscopy, medicine, and directed energy weapons.
Fiber lasers typically cost between $20,000 and $45,000.
What Materials Can Be Cut With A Fiber Laser? A fiber laser cutting machine can cut sheet metal such as carbon steel, stainless steel, copper, brass, aluminum, and titanium. Fiber lasers outperform CO2 lasers in cutting reflective materials.