Other engraving area options available are 6.9" x 6.9", 5.9" x 5.9", 4.3" x 4.3", and 2.6" x 2.6". You can choose them depending on your operational requirement.
Fiber Lasers, manufactured by Gulf States Saw & Machine Co. provide consistent, accurate metal cutting. They can also be used to significantly improve production and quality.
RetinaEngrave 3.0 can import files such as PDF, SVG and JPG from any CAD program of your choice.
Plasma can cut any metal that is conductive. This includes reflective metals like aluminum, copper, or brass, which laser machines can't cut.
It is important to remember that a fiber laser has limitations in terms of both the size of your work-bed and the material you can cut.
MCWlaser PRO comes with an adjustable Z-axis. This can be moved manually using a wheel. Unfortunately, the XY or Y axes cannot adjusted.
Triumph Laser provides EZCAD2.0 laser control software with their 30W desktop laser engraver machine. On EZCAD2.0, you can make basic shapes and texts.
The fiber laser is capable of achieving a repetition precision of +-0.0001" while producing a beam quality of less that 1.1 M2.
The laser beam is then projected onto the work materials using focus lenses.
Muse Pandora can also be mounted underneath a adjustable work desk (as shown below) to enable effective engraving for such lenses.
Triumph's 30W desktop fiber laser can engrave on aluminum, gold, silver, steel, stainless steel, copper, and some plastic-like polymer for metal tools and machine parts.
FM-Desktop allows for optional marking areas extensions. You can make it as large as 7.87" x 7.87", or 11.81"x 11.87".
You can access the software interface by entering your IP address in the address bar of the browser.
FSL Muse Pandora is able to raster or vector engrave aluminum, steel and nickel as well as silver, titanium, copper, and stone.
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.
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.
Fiber lasers typically cost between $20,000 and $45,000.