How Does a CO2 Laser Marking Machine Work? What's Its Cooling System?

Do you know how a CO2 laser marking machine works?

A CO2 laser marking machine operates by utilizing a gas laser with an infrared wavelength of 10.64μm. CO2 gas is injected into a high-pressure discharge tube, causing a glow discharge, which releases laser energy from the gas molecules. After amplifying this laser energy, it forms a laser beam used for material processing. This laser beam vaporizes the surface of non-metallic and organic materials, creating permanent marks. It employs a small point to mark the surface, minimizing the risk of radial fragmentation and cracks, and promoting a more consistent material appearance.

Stable Temperature = Stable Marking Quality

To address temperature control issues with the CO2 laser marking machine, a laser chiller is often the ideal solution. TEYU S&A CW Series standard industrial chillers come with two temperature control modes: constant temperature and intelligent temperature adjustment. Temperature control precision options include ±0.3°C, ±0.5°C, and 1°C, ensuring that CO2 laser marking machines operate within a stable temperature range for clear and consistent marking results. Additionally, various alarm protection functions are equipped to safeguard the laser marker's safety, prolong the life of the CO2 laser, and reduce maintenance costs.

If you are aiming for high-precision and high-efficiency laser marking results, using a laser chiller to control the laser equipment's temperature is a very wise choice. Welcome to choose TEYU S&A Chiller, where our professional team is dedicated to providing you with superior service and user experience.

Source: https://www.teyuchiller.com/how-does-a-co2-laser-marker-work-and-what-is-its-cooling-system