![]() ![]() If you want to carve some thicker materials or a variety of materials, Monport K40 Lightburn must be able to meet the needs of carving enthusiasts for higher upgrading. ![]() Compared with diode, CO2 laser can have enough energy to penetrate thicker materials. Generally speaking, most diode engraving machines can only be used to engrave the surface of materials, and cannot achieve deep cutting due to its power limitation. The output power of ordinary K40 CO2 laser engraving machines is about 120W. Some sellers of diode engraving machines claim that their machines are 40W or 20W, but this actually refers to the output power, not the laser working power. The laser power of Monport K40 Lightburn is 40W, while the average power of ordinary diode machines is 4.5W-5W. While Monport K40 Lighjtburn is $530, Monport K40 laser cutter is even cheaper than some other expensive diode engraving machines. Some diode engraving machines on the market can even buy 800 dollars. But Monport can buy a 40w CO2 laser engraving machine at the price of a diode engraving machine. Generally, CO2 laser engraving machine is more expensive than diode laser because of the high cost of CO2 laser engraving machine and the higher precision requirement of CO2 laser in engineering. Compared with other high-power carbon dioxide engraving machines, Monport K40 Lightburn is more convenient for transportation. ![]() The compact portable design makes it easy to transport and lower cost. Difference Between Monport K40 Lightburn and Laser Diodeĭiode laser cutting machines and engraving machines are usually designed as small and light equipment. If you are a diode engraver who is used to Lightburn and want to enter the field of carbon dioxide engravers, but think that buying a laser engraverwith a power of more than 60W may not take into account the current engraving needs, Monport K40 Lightburn engravercan completely help you overcome this stage. The current is supplied through the diode, causing electrons to flow through the p-n junction. ![]() Laser diodes usually use semiconductors made of aluminum or gallium arsenide alloys. In the CO2 laser machine, cutting and engraving are completed by using electrically stimulated CO2 and other gases such as nitrogen and helium. There are some differences between the working principles of the two. ![]()
0 Comments
Leave a Reply. |