Glass laser tubes require water cooling equipment or chillers.
The glass laser tube does not support 256 grayscale color intensity and photo engraving mode that automatically changes the output power based on the grayscale level.
Glass laser tubes do not support the manufacturing conditions for seals and seals.
Glass laser tubes are not suitable for applications that require high-quality engraving and marking.
The power output parameters of the glass laser tube are unstable. The unstable operation of the tube may lead to its transition from single mode to multimode, as well as laser defocusing into multiple laser beams. As a result, the output power of the laser tube you obtain is blurry, reduced, and variable.
The glass laser tube cannot be repaired. Compared to the fixed re inflation of American laser tubes, glass laser tubes must be scrapped after damage.
Glass laser tubes may fail within 5-6 months even if not in use, as glass cannot maintain gas for a long time. It is unclear whether the lifespan of a new laser tube has not yet expired.
Glass laser tubes are unsafe for laser machine users as high voltage of up to 30 kV is applied to their contacts.
Glass laser tubes cannot resist the mechanical, thermal, and heavy influence factors of the production environment.
The glass laser tube does not have a metal casing for protection and looks like a piece of glass, which is prone to breakage during transportation, repair, and maintenance of the machine.
Due to extreme room temperature conditions, condensed water may appear inside the glass laser tube, which may lead to its rapid failure.