Our machines are capable to cut steel, brass or aluminum with no back reflections. These fiber laser machine will significantly reduce your maintenance requirements as well as your operating cost.
FM-Desktop also offers an option to increase the marking area. It can be extended to 7.87"x7.87", or 11.81x11.87".
Laser uses light to cut steel. For metal piercing and cutting, light must be concentrated to one point. A magnifying glass can be used to focus the sun's rays onto one point, and then it can be burned. This is how cutting using light works.
Triumph's desktop fiber laser 30W can provide two lenses. The one gives you a 4.3"x4.3" engraving area, while the other allows for a 7.8”x7.8” engraving area.
FSL Muse Pandora is able to raster or vector engrave aluminum, steel and nickel as well as silver, titanium, copper, and stone.
For expanding the engraving area, taller focal length lenses are used that require highly concentrated power.
Fiber lasers can be used to engrave many applications. The wavelength range of fiber lasers is 780nm – 2200nm.
FSL Muse Pandora is upgradeable with a special focus lens, a rotary-axis, extended Z-travel, fume extractors, and fume extractors.
For more advanced design, you can use Photoshop, CorelDRAW or AutoCAD. You can also import files in DXF, DXF, PLT and BMP file formats.
Plasma can also cut ceramics and glass. Because plasma is electrically conductive, it cannot cut things like wood or plastic.
They offer a dedicated community site for their customers. A small number of communities are also active in Facebook groups.
FM-Desktop, a mobile engraver machine, has a footprint of 33.5" x 24-.5". This machine can mark on 4.33"x4.33", which makes it ideal for small projects like laser engraving knives.
It's free to use and can be used with Microsoft Windows XP, Windows 2000, WIN7, WIN8, WIN10 OS.
They offer a 30-day refund policy and a two-year parts warranty for all components and the FM-Desktop's 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.