Laser cutting and engraving machines are named after the source of their laser (where the light is first generated), the two most common types are CO2 and Fibre Lasers. Let’s start with the most widely used, CO2.
Modern CO2 machines usually produce the laser beam in a sealed glass tube which is filled with gas, usually carbon dioxide. A high voltage flows through the tube and reacts with the gas particles, increasing their energy, in turn producing light. A product of such strong light is heat, heat so strong it can vapourise materials that have melting points of hundreds of °C.
http://www.whamark.com/laser-marking-machine/co-laser
Modern CO2 machines usually produce the laser beam in a sealed glass tube which is filled with gas, usually carbon dioxide. A high voltage flows through the tube and reacts with the gas particles, increasing their energy, in turn producing light. A product of such strong light is heat, heat so strong it can vapourise materials that have melting points of hundreds of °C.
http://www.whamark.com/laser-marking-machine/co-laser
Laser cutting and engraving machines are named after the source of their laser (where the light is first generated), the two most common types are CO2 and Fibre Lasers. Let’s start with the most widely used, CO2.
Modern CO2 machines usually produce the laser beam in a sealed glass tube which is filled with gas, usually carbon dioxide. A high voltage flows through the tube and reacts with the gas particles, increasing their energy, in turn producing light. A product of such strong light is heat, heat so strong it can vapourise materials that have melting points of hundreds of °C.
http://www.whamark.com/laser-marking-machine/co-laser
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