The Application Of Laser Cutting Technology On Solar Panels
At present, laser cutting technology is mainly used for cutting wafers and dicing cutting. Because of its non-contact processing and stress-free laser precision cutting technology, it can ensure that the raw materials are not damaged to a greater extent and will not damage the internal wafer structure. The cutting quality of the product is much better than other cutting methods. At the same time, the slit width is small, the precision is high, and the laser power is adjustable.
In the past two years, with the rapid development of the new energy industry, solar energy has been gradually applied to all walks of life as an indispensable part of new energy. The popularity of solar panels has greatly promoted the development of the photovoltaic industry. Solar panel applications can be seen everywhere, such as solar electric lights, solar water heaters, solar air conditioners and so on. Used in all walks of life.
Common solar panel classification?
- Crystalline silicon solar cells: polycrystalline silicon solar cells, monocrystalline silicon solar cells.
- Amorphous silicon panels: thin-film solar cells, organic solar cells.
- Chemical dye panels: dye-sensitized solar cells, etc.
What are the applications and advantages of laser cutting technology on solar panels?
At present, laser cutting technology is mainly used for cutting wafers and dicing cutting. Due to its non-contact processing and stress-free cutting, the high-precision laser cutting machine can ensure that the raw materials are not damaged to a greater extent and will not damage the internal wafer structure. The cutting quality of the product is much better than other cutting methods. At the same time, the characteristics of small slit width, high precision, adjustable laser power, etc. also enable the application of laser precision cutting technology to control the cutting thickness, thereby making it possible to achieve thinning of solar cells.
