
Product Name: Compact Sheet and Tube Laser Cutting Machine
Model: PR-ST3015,PR-ST4020,PR-ST6025
Laser Power: 1.5kw~60kw
Working Range: 8500x3700x2200,8500x4600x2200,8700x5300x2250
Application: Kitchenware Manufacturing,Agriculture Machinery,Furniture,Manufacturing,Architecture Industry,Automotive Manufacturing,Aerospace Industry,Shipbuilding Industry,Railway Facilities,Petroleum Industry,Sports Equipment
Product Specification
Model No. | PR-ST3015 | PR-ST4020 | PR-ST6025 | ||
Cutting area (mm) | 3000x1500 | 4000x2000 | 6000x2500 | ||
Tube length (mm) | 3000 | 4000 | 6000 | ||
Tube diameter (mm) | Φ口8 -120 | Φ口10 -180 | Φ口15 -250 | ||
Max. Load-bearing of work platform | 0.9T | 1.6T | 1.8T | ||
Dimension (mm) | 8500x3700x2200 | 8500x4600x2200 | 8700x5300x2250 | ||
Max. Acceleration | 1.5G | ||||
Laser Power | 1.5kw~60kw | ||||
Processable sheets and tubes | Carbon steel, stainless steel, aluminum alloy, brass and copper etc, various metal plates and tubes can all be processed |
Compact Sheet and Tube Laser Cutting Machine Features and Advantages
Compact Sheet and Tube Laser Cutting Machine Samples








Compact Sheet and Tube Laser Cutting Machine Applications









Compact Sheet and Tube Laser Cutting Machine Testimonials
Compact Sheet and Tube Laser Cutting Machine FAQs
A: The working principle of a fiber laser cutting machine is based on the use of a high-powered laser beam to melt, burn, or vaporize the material being cut. Here’s a breakdown of the process:
1.Laser Generation: The machine generates a laser beam using a fiber optic laser source. The laser source typically uses a fiber laser (such as YAG or ytterbium-doped fiber) that is pumped with light from diodes. The laser beam is then transmitted through the fiber optic cable.
2.Beam Focusing: The laser beam is directed and focused onto the material using a set of mirrors and a focusing lens. The focused beam has very high energy density and is able to concentrate on a small spot on the material’s surface.
3.Material Interaction: When the laser beam hits the material, it rapidly heats up the surface, causing the material to melt, burn, or vaporize. The cutting area is typically assisted by auxiliary gases (like nitrogen, oxygen, or compressed air), which help blow away the molten material and improve the cut quality.
4.Cutting Process: As the laser beam moves across the material, the heat melts or vaporizes the material in the path of the beam. The cutting head is typically controlled by a CNC system, which precisely guides the laser beam to cut along the desired path.
5.Cooling: During the cutting process, the material around the laser-cut area cools and solidifies quickly, allowing for clean, precise cuts with minimal distortion.
Fiber laser cutting machines are favored for their high cutting precision, speed, and efficiency, particularly when cutting metals such as stainless steel, aluminum, and carbon steel. The fiber laser’s ability to focus energy tightly on the cutting area results in high-quality, narrow kerf widths, and minimal heat-affected zones (HAZ).