Laser Cutting
Laser cutting uses a high-intensity beam, often guided by CNC, to precisely cut materials like stainless steel, carbon steel, and aluminum. It provides narrow kerfs, minimal thermal distortion, and tight tolerances—ideal for intricate or detailed designs. Fiber lasers offer fast, energy-efficient cutting, while CO₂ lasers are better suited for thicker materials or non-metallic substrates. Laser systems often include automatic nesting software and integrated fume extraction for safety and material optimization.
Laser cutting uses a high-intensity beam, often guided by CNC, to precisely cut materials like stainless steel, carbon steel, and aluminum. It provides narrow kerfs, minimal thermal distortion, and tight tolerances—ideal for intricate or detailed designs. Fiber lasers offer fast, energy-efficient cutting, while CO₂ lasers are better suited for thicker materials or non-metallic substrates. Laser systems often include automatic nesting software and integrated fume extraction for safety and material optimization.
Laser cutting uses a high-intensity beam, often guided by CNC, to precisely cut materials like stainless steel, carbon steel, and aluminum. It provides narrow kerfs, minimal thermal distortion, and tight tolerances—ideal for intricate or detailed designs. Fiber lasers offer fast, energy-efficient cutting, while CO₂ lasers are better suited for thicker materials or non-metallic substrates. Laser systems often include automatic nesting software and integrated fume extraction for safety and material optimization.