Latest Blog
532NM Green Nanosecond Lasers Engraving Tempered Glass with Low thermal effects
Feb 23 , 2023532NM Green Nanosecond Lasers Engraving Tempered Glass with Low thermal effects
The sound insulation glass door is generally made of explosion -proof and tempered glass, and the characteristics of explosion -proof steel glass are very easy to break in the process of using traditional marks. Many manufacturers find a lot of ways to ensure the consumption rate, but RFH GREEN NANOSECOND Lasers labeling It can control the broken rate well.
Mr. Chen from Guangzhou recently opened a new explosion -proof tempered glass production line. Due to the uncertainty of the premise of tempered glass, Mr. Chen came to RFH to have a deeper understanding of the specific operation and performance of Green Nanosecond Lasers. RFH Green NANOSECOND LASERS will emit small light spots during the production process. This light spots have the characteristics of short pulse, high -quality beam, peak power and other characteristics. The application characteristics of the glass processing field are very superior. They have high precision and explosion -proof requirements. Production is very good at.
Why do you say this way? Because the precision accumulation of light spots is extremely small and the processing thermal affects the area small, the heat effect will not produce during the processing process, nor will it cause the tempered glass to burst, so it will have a sufficient guarantee in terms of consumables and safety.
The design of the RFH Green Nanosecond Lasers brings together a variety of technologies around the world. After more than ten years of research and development, the mechanism has been made in terms of accuracy. Playing technology.
RFH's Green Nanosecond Lasers' labeling and tempered glass will not burst. Mr. Chen is very satisfied. Therefore, Mr. Chen ordered two Green Nanosecond Lasers into the production of new production lines. RFH has reached cooperation with these growth companies for many years, and has also improved together.