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".
High speed IPG fiber laser cutter is type of high power laser metal cutting machine with 12000W power supply for commercial use of thick metal fabrication including stainless steel, carbon steel, mild steel, tool steel, brass, copper, aluminum, alloy, and rare metals in industrial manufacturing.
Do you have an idea to DIY or buy an affordable fiber laser cutting machine for custom metal fabrication with laser powers of 1000W, 1500W, 2000W, 3000W, 4000W, 6000W, 8000W, 10000W, 12000W, 15000W, 20000W, 30000W, or 40000W? Review 2022 best fiber laser cutter buyer's guide for machinists, operators and beginners, we'll offer you 2022 cheapest fiber laser cutting systems for stainless steel, mild steel, carbon steel, galvanized steel, tool steel, titanium, aluminum, iron, copper, brass, and alloy with expert customer service to fit your custom metal cutting plans, ideas or projects in hobby use, home shop, small business, commercial use, and industrial manufacturing.
With the addition of a galvo head, they can also work at a very high speed. Galvo heads are typically used in portable laser engravers.
Fiber laser machines are better at cutting thin metals than other types of cutting machines. A fiber laser machine is capable of cutting thin metals up to 25mm (or 1 inch). Fiber lasers then start to cut metal less efficiently. To cut ticker metals larger than 25mm or 1 in., you would require a high power laser, which will cost you a lot more.
A 30W fiber Laser can engrave on stainless Steel at a 90deg angle, with a speedy speed 3,543 ipm.
A fiber laser shines when it comes to engraving. This laser can mark, etch, or engrave on metals with amazing speed.
Auto-focus adjusts the position of the laser head along the Z-axis according to the 3D camera data.
The 20W version of FSL Muse Pandora can deep engrave silver at a speed of ~708 ipm utilizing 100% of the laser power.
Plasma's workings can seem complicated. This is why I will try to explain plasma as clearly and quickly as possible. Plasma cutters heat up gas until it is hot enough to melt metal. When the metal is sufficiently heated to melt it, it is then blown off with gas to make the cut. It's complicated science but it's not what I will be focusing on. (Or you can do your own research if necessary).
FSL Muse Pandora allows you to raster engrave on aluminum and steel as well as nickel, copper or silver.
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.
MCWlaserPRO laser engraver offers three different versions. There are 20W (30W), and 50W options. These lasers operate at 1064nm wavelength.
Plasma can cut almost any material that is conductive. Laser machines are unable to cut reflective metals like brass, copper, and aluminum.
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.
Fiber lasers typically cost between $20,000 and $45,000.
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.