Generally speaking, there are two main factors affecting
Laser Welding Machine marking speed: the machine itself and the workpiece.
Major mechanical factors include laser generator frequency, laser beam pattern and beam angle, laser power, and appropriate optoelectronic device coordination.
When purchasing an
YAG Laser Mold Repair Welder, consumers should consider these factors and are advised to select a model based on the recommendations of professional project engineers.
Applications include hot stamping of logos and signs, machine-cut tempered glass fiber laser cutting, hot stamping of hibiscus boards, and hot stamping of crystal trophies.
Other key factors include laser marking density, marking width, marking depth, and laser beam size.
For the same width, beam depth, and marking depth, higher marking density results in slower marking speed, as density directly increases marking area. Large-format laser marking speeds are slower than narrow-format laser marking speeds due to the increased offset of the galvanometer in large-format laser marking scanners.
Depth-of-laser marking issues: According to regulations, if you need to increase the depth of the marking, you must adjust the parameters of the fiber optic
Laser Marking Machine.
Increasing the power, current flow, and other parameters of the fiber optic laser
Marking Machine will affect the laser marking speed. Regarding the laser generator spot size, a larger spot size results in a faster laser marking speed.
