Amada
Laser uses light to make metal. Laser works by concentrating light into one point. Imagine a magnifying lamp that can focus sunlight onto a single point, then burn it. This is how cutting through light works.
It will meet the speed and power requirements for aluminum, steel and black acrylic as well leather and granite.
Unlike CO2 lasers, fiber lasers consume much less energy and operate at a shorter wavelength ranging between 780 nm and 2200 nm, giving a much higher absorption rate.
Our machines are extremely efficient at cutting steel, brass, stainless steel, and aluminum with no risk of background signal interference. These fiber laser machines can significantly reduce your maintenance requirements and operating costs.
Some PVC-based acrylic emit toxic fumes during lasering. It is a good idea to research the chemical compositions and materials you will be engraving.
FM-Desktop offers an optional extension to the marking area. This allows you to extend it upto 7.87"x7.87" or 11.81".
Fiber lasers can be solid-state lasers but are still different to diode lasers.
“This investment enables us to fabricate parts like we have never been able to before. We can now offer companies prototyping through high-volume production.”
All kinds of materials can be cut with laser machines. It is dependent on which type of laser machine your have that will allow you to cut different materials. Laser machines that use CO2 can't cut through reflective metallic materials such as brass, copper and aluminum. However, they are capable of cutting through nonmetallic materials like plastic and wood.
FSL Muse Pandora can now be upgraded by adding a rotary and expanded Z-travel, fume extractions, and special focus lenses.
With the latest in artificial intelligence (AI) and gas reduction technology, the new GX-F ADVANCED Series of two-dimensional fiber lasers delivers more power while using less nitrogen.
A 30W fiber laser can be used to engrave stainless-steel at a 90 degree angle and with a speedy speed of 3,543 IPM. It uses 100% of the laser's power.
Muse Pandora can be mounted on an adjustable work table, as shown in the below illustration, to allow for precise engraving of such lenses.
One thing to note is that while using a fiber laser, you will be somewhat limited in the work-bed size and the range of materials you can cut.
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.
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.