Laser cutting
Laser cutting is a thermal cutting process for processing sheet metal. The laser beam is created by the laser source (resonator), conducted by a transport fiber or mirrors in the machine cutting head where a lens focuses it at very high power on a very small diameter. This focused laser beam meets the sheet metal and melts it.
Bystronic uses two types of laser sources: Fiber laser and CO₂ laser.
بیسترونیک دو نوع دستگاه برش لیزر توید میکند: دستگاه برش فیبر لیزر و برش لیزر با گاز CO2
Laser cutting
Laser cutting is a thermal cutting process for processing sheet metal. The laser beam is created by the laser source (resonator), conducted by a transport fiber or mirrors in the machine cutting head where a lens focuses it at very high power on a very small diameter. This focused laser beam meets the sheet metal and melts it.
Bystronic uses two types of laser sources: Fiber laser and CO₂ laser.
بیسترونیک دو نوع دستگاه برش لیزر توید میکند: دستگاه برش فیبر لیزر و برش لیزر با گاز CO2
Fiber laser
Fiber lasers are the newest development in laser cutting. The laser beam is created by an active fiber and transmitted over a transport fiber to the machine cutting head. Fiber lasers are significantly smaller than CO₂ lasers and generate twice as much power from the same amount of current. A fiber cutting system is primarily suited for processing thin to medium-thick sheet metal. It also cuts non-ferrous metals (copper and brass).
CO2 laser
A CO₂ laser uses a gas mixture to create the laser beam. The necessary high voltage in the resonator is created with the help of wear-free semiconductor excitation modules. Bystronic relies on such modules since they are smaller, more efficient and reliable than traditional solutions. The CO₂ technology is suited for all-rounders who process various materials and thick sheet metal.
CO2 laser
A CO₂ laser uses a gas mixture to create the laser beam. The necessary high voltage in the resonator is created with the help of wear-free semiconductor excitation modules. Bystronic relies on such modules since they are smaller, more efficient and reliable than traditional solutions. The CO₂ technology is suited for all-rounders who process various materials and thick sheet metal.