Laser Cutting

Fiber Laser cutting is among the largest application for lasers in material processing. Fiber Laser cutting offers an advanced alternative to conventional cutting processes.

Fiber Laser technology allows for smaller beam diameter therefore decreasing kerf width, decreasing heat propagation (HAZ) and increasing throughput. Fiber Lasers are developed to enhance metal material processing including Mild steel, Stainless Steel, Aluminum, brass, copper and other alloys.

Fiber Laser applications can range from thin sheet metal to 1 inch thick plate. This range helps fulfill all cutting applications in today’s industrial material processing industry.

Fiber Laser Facts

  • Superior reliability and beam quality
  • Greater output powers
  • High electrical efficiency
  • Lower maintenance
  • Smaller footprint and size

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Fiber Lasers for Cutting Brass
Fiber lasers are ideal for highly reflective metals such as brass. The most common fabrication methods are water jet cutting and stamping. Fiber lasers provide precision, accuracy and consistency, and are a direct replacement for these conventional technologies.

Fiber Lasers for Cutting Aluminum
Aluminum is widely used in metal fabrication but not exclusively cut by lasers. Aluminum is extremely reflective to conventional CO2 laser technology. Fiber lasers are the answer.

Fiber Lasers for Cutting Stainless Steel
Stainless steel is fabricated across almost every industry. Conventional methods include CO2 laser cutting, plasma, water jet, sheering, punching and stamping. Cutting with a Fiber laser can eliminate almost every other method.

Fiber Lasers for Cutting Mild Steel
Mild steel is one of the most used metals in fabrication and commonly cut by lasers. Fiber laser technology allows fabricators to cut with almost half the power.

Fiber Lasers for Cutting Copper
Until now copper has rarely been cut by a laser. This is due to copper being highly reflective to the wavelength of CO2 lasers. Fiber lasers are the answer.



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