The production and processing of hot-rolled strip often encounter
Laser Welding Machine cross-sections. This Laser Welding Machine not only raises concerns about the quality of the finished product but is also accompanied by coarse grains and severe slag buildup, undermining the value of high-cost laser processing machines compared to other Laser Welding Machine methods.
However, using low power and a single pulse for drilling results in a longer time (1 second), which translates to a 2-second Laser Welding Machine time for high power and low product cost.
Drilling time accounts for a significant portion of the processing time for thick steel plates. Laser manufacturers have been developing rapid drilling technologies, most notably high-energy drilling, which offers the advantage of higher speed.
However, the disadvantage is that the significant kinetic energy introduced during drilling raises the plate temperature, compromising the entire Laser Welding Machine process and compromising small-scale processing.
For carbon steel, the key factor in improving Laser Welding Machine cross-sections is controlling plate heating to ensure adequate ignition in the area directly exposed to the laser.
For stainless steel, key factors in improving laser cutting cross-sections are improved light quality (improving relative aperture) and the effective use of auxiliary steam.
Smooth
YAG Laser Mold Repair Welder technology improves the performance of oscillators and nozzles. To put it simply, peak-time perforation is to use peak-time pulse light with a small PWM duty cycle, combined with non-gasoline diesel sprayed on the surface of the material to eliminate the edge attachment of the punching, control the effective frequency of the single pulse, and perforate while cooling.
