1. Significantly Improved Thick Plate Processing Efficiency, Breaking Through Single-Process Bottlenecks

Its core advantage lies in synergistic efficiency for thick plates. For 10-200mm thick carbon steel, the "laser piercing + flame cutting" mode is adopted. Using chemical energy from metal oxidation, the cutting speed is over 40% higher than single laser cutting of the same power and 30%-50% higher than single flame cutting; 50mm thick carbon steel can be formed in one pass with only 5-15 seconds of piercing, greatly shortening the processing cycle.

2. Outstanding Adaptability for Thick Plate Processing, Balancing Efficiency and Basic Precision

Specifically designed for thick plates, it is suitable for 10-200mm thick carbon steel and low-alloy steel. Laser precise positioning controls the cutting direction, improving the perpendicularity and flatness of the cutting edge by over 60% compared with single flame cutting, without complex secondary trimming. It adapts to complex scenarios such as thick plate splicing and drilling, completing multiple processes with one machine.

Industrial Application Advantages: Focus on Thick Plate Processing, Empowering the Upgrade of Key Industries

Based on its exclusive thick plate processing advantages, this process is mainly applied to industries requiring high thick plate efficiency and quality, solving processing pain points and promoting quality and efficiency improvement.

1. Shipbuilding Industry: Efficiently Completing Thick Plate Structural Part Processing

Shipbuilding requires a lot of 10-200mm thick plate processing. With a large format (up to 40m × 6m), it can cut large thick plates in one pass. Efficiency is over 30% higher than single flame cutting, the cycle is shortened by 1/3, and it improves cutting precision, reduces welding difficulty and ensures structural strength.

2. Heavy Machinery Industry: Solving the Difficulties of Thick Plate Processing Efficiency and Precision

Heavy machinery (wind power, pressure vessels, etc.) relies on thick plate components. This process enables one-time forming of wind power tower thick plates; cutting efficiency of 50mm thick carbon steel is 3 times that of traditional processes, with precision meeting pressure-bearing requirements, balancing efficiency and quality and reducing subsequent costs.

3. Other Industries Related to Thick Plate Processing: Adapting to Diverse Thick Plate Application Scenarios

It is also used in steel structure and bridge construction, efficiently cutting thick plate components, improving precision and efficiency, and adapting to thick plate non-standard part processing to meet personalized needs.

Summary: Laser-FlameHybird Cutting — The Preferred Solution for Thick Plate Processing

Relying on the synergy of laser and flame, laser-flame composite cutting breaks single-process thick plate bottlenecks. With high efficiency, strong adaptability and controllable cost, it mainly serves shipbuilding and heavy machinery industries, helping enterprises reduce costs and increase efficiency as the core solution for modern thick plate processing.