Revolutionize Your Manufacturing Process with the Latest Laser CNC Technology
In today’s fast-paced manufacturing landscape, staying ahead of the curve is crucial. That’s why innovative technologies like Laser CNC machining are transforming the way industries produce high-quality parts with increased precision, speed, and efficiency. In this post, we’ll delve into the world of Laser CNC machining, exploring its benefits, main performance characteristics, and technical indicators to help you unlock the full potential of this cutting-edge technology.
Laser CNC Machining: An Overview
CNC GFTC-4000 is a state-of-the-art Laser CNC machining machine that boasts the latest laser technology to process a wide range of parts, including surface calibration, fusion, coating, and alloying. This machine uses high-technology to convert light energy into heat, rapidly heating the surface of the material, and rapidly cooling it, resulting in significant changes to the part’s structure and mechanical properties without altering the material matrix. This pioneering technology has been applied to various production processes in recent years, replacing traditional surface treatment methods.
Main Performance and Characteristics
The CNC GFTC-4000 machine is designed to provide exceptional performance, boasting the following key characteristics:
- Low Energy Consumption: With a total energy consumption between 40-60 kW, this machine offers a significant reduction in energy costs compared to traditional high-frequency equipment.
- High-Speed Heating and Cooling: The machine’s advanced laser technology enables rapid heating and cooling, resulting in a fine hardened layer with a depth of 0.3-0.7 mm, or up to 1-2 mm for high-power lasers.
- Complex Part Processing: The machine is capable of processing parts with complex shapes and irregularities, such as grooves, curved surfaces, and tools, making it an ideal solution for hardening local areas like pipe holes, deep grooves, micro-zones, and angles.
- No Cooling Requirements: Laser hardening is based on the conduction of heat from the surface to the inside, eliminating the need for cooling means, including induction rings used in medium and high-frequency calibration methods.
Technical Indicators and Parameters
To further understand the capabilities of the CNC GFTC-4000, here are the key technical indicators and parameters:
- Technical Indicators:
- Crushed C02 laser generator: 5kW nominal output power, adjustable range of 0.5-5 kW, output power stability ≤ ± 3%, electro-optical conversion efficiency ≥15%, and work gas C02.
- Basic Parameters of the CNC Axis:
- Maximum longitudinal movement (Z-axis) 4000 mm, maximum transverse movement (X-axis) 2500 mm, maximum vertical movement (Y-axis) 1000 mm, precision positioning of the axis movement 0.05 mm, and repeated positioning accuracy 0.03 mm.
- Speed range: Longitudinal (Z-axis) 1-6000 mm/min, transverse (X-axis) 1-6000 mm/min, and vertical (Y-axis) 1-6000 mm/min.
- Bedside box parameters: Pin speed range 1-20 r/min, speed steps without step, 800 mm pin center height, and maximum weight in the upper room 3000 kg.
Unlocking the Full Potential of Laser CNC Machining
By incorporating the CNC GFTC-4000 into your manufacturing process, you can experience the benefits of increased precision, speed, and efficiency. This innovative technology is revolutionizing the way industries produce high-quality parts, offering a competitive edge in the global market. Stay ahead of the curve by embracing the future of manufacturing with the latest Laser CNC technology.


















