The Nukon PlusCut cutting technique is specifically designed for thick carbon steel materials and utilizes advanced laser power and optimized focusing systems. This approach enables faster, cleaner, and higher-quality cuts, especially in thick cuts that are typically challenging with standard cutting methods.
Speed and Cost Advantages Compared to Other Cutting Techniques: This new method has the capability to cut thicker carbon steels compared to traditional oxygen cutting, and also offers the ability to cut at speeds up to 20% faster on thicker steels, reducing production time.
Energy Efficiency: The use of high-powered lasers increases energy efficiency and reduces overall processing costs.
Cutting Quality: The positive focal point and small nozzle result in less burr formation and smoother surfaces. By adjusting the oxygen pressure, cleaner cuts are achieved, allowing parts to be used without additional processing. Smaller holes and sharper contours are produced.
These advantages enable efficient, high-quality, and cost-effective performance in thick steel cutting with a positive focal point.
Optimize your costs by reducing material waste. Nukon PlusCut delivers precise and accurate cuts for high-quality parts.
Nukon PlusCut enables efficient, high-quality, and cost-effective performance in thick steel cutting with its positive focal point.
Process thicker carbon steels with high speed and advanced cutting quality.
Application Area: PlusCut technology is specifically developed for cutting thick carbon steel materials.
Cutting Performance: Provides faster and higher-quality cuts compared to standard laser cutting methods.
Focusing System: Achieves smooth and clean edges even on thick materials with advanced focusing systems.
Energy Efficiency: Energy efficiency is enhanced with high laser power and optimized cutting parameters.
Material Compatibility: Capable of working with thicker materials in the mild steel category, delivering high speed and quality.
Cutting Speed: Provides faster cutting compared to traditional methods while minimizing dross formation.
High Power Level: Especially improves efficiency with thicker materials. For example, a 20kW laser power can effectively cut carbon steel materials up to 50mm thick. As the power level increases, the thickness of materials that can be cut also increases.
