There are other accessories like a fume extractor and lenses, which you can get to upgrade the machine.
Fiber lasers have eliminated the need for mirrors or beam paths to align with them.
Not only will you achieve speeds that are multiple times faster, but technology for processing of thick mild steel has grown. Fiber laser isn’t just for thin material.
The beam quality of the 20W and 30W lasers is less than 1.5M2, while that of the 50W laser is less than 1.8M2.
The fiber laser has a repeatable precision of +0.0001" and a beam quality less than 1.1M2.
A special type of fiber laser known as MOPA fiber laser, provides greater control over pulse width and frequency parameters to produce color laser engravings on metals.
FSL Mule Pandora must operate in an open configuration for lenses 254mm, 330mm, and 420mm. Only then can laser beams be focused onto the work material.
Triumph Laser comes with a computer as well as a foot switch, rotary and laser axes, 200mm lenses, laser goggles and a tool set for using the 30W desktop laser.
The support column (Z-axis) holds the laser arm. The laser focus can be adjusted by moving the Z-axis using the height adjustment knob.
The laser beam is then amplified by a flexible optical fiber, which is fed to the cutting machine.
Laser cutting machines are able to cut metal with great precision. This is the main reason they are so popular. Plasma cutters can be cut with 2X greater accuracy than laser cutting machines. Plasma lasers can be used to cut metals with a precision of 0.1mm, or.004 inches. Laser cutters can cut metals at a precision of.05mm to.002 inches.
These fiber laser engravers were selected after I compared their size, material capability and laser power with upgrades, service, repair, service, assembly work area, safety, linear motion, as well as software.
Fiber Lasers of Gulf States Saw & Machine Co. can provide precise and consistent metal cutting.
Triumph's 30W desktop fibre laser will give you two lenses. Both lenses have a size of 4.3" x4.3", while the other has a 7.8” x 7.8” engraving area.
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.