Industrial application: Innovate the processing of high-reverse materials, with outstanding advantages in new energy batteries and 3C Although the blue laser pointer is a rookie in the field of laser development, it has obvious advantages in the field of high-reflection material processing. At present, it has gradually emerged in the fields of new energy battery welding, 3C and alloys.
For example, in the welding of lithium electronic batteries, blue lasers are perfectly adapted to application scenarios. Lithium-ion batteries achieve high energy density by layering multiple thin copper sheets and aluminum sheets adjacently. The connection of the multilayer electrode sheets and the welding of the battery tabs can be welded by blue lasers, which are better than conventional Ultrasonic welding and infrared laser welding are faster and have better consistency; there are no spattering contaminants during the welding process, which also effectively avoids battery short-circuits and impacts on performance and safety.
Blue lasers are also suitable for mass manufacturing of electronic products, such as the manufacture of mobile phones, tablets and computers-any application where copper is the main component. The blue laser has proven its advantages in welding copper, stainless steel and aluminum. In fact, blue lasers are also suitable for low/defect-free fast connections between thin metals.
In addition, in the fields of display, storage, detection, and medical treatment, blue green laser pointer have gradually attracted market attention. Of course, the blue laser still has its shortcomings, that is, the current low power density, which is also the actual status of the international and domestic blue laser levels. I believe that with the deepening of research, this problem will gradually improve.
With the release of the “14th Five-Year Plan”, the domestic laser industry will gain more room for development, and it is imperative to get rid of homogeneous competition. As an emerging technology route, blue lasers are still in the early stages of development, but they have already emerged in the field of high-reflection material processing. As the laser industry transitions from a high-speed development stage to a high-quality development stage, barriers to differentiation are gradually emerging, and blue lasers will also show more possibilities in the high-precision industry.