Overview: Laser cutting machines use a focused, high-powered laser beam to melt, burn, or vaporize materials with extreme precision. Known for their ability to deliver fine detail, high speed, and exceptional edge quality, laser cutters are widely used across industries such as metal fabrication, electronics, automotive, signage, aerospace, textiles, and woodworking.
Key Features:
Non-Contact, High-Precision Cutting: Uses a concentrated laser beam controlled by CNC systems for intricate and highly accurate cuts.
Smooth, Burr-Free Edges: Delivers clean cuts without the need for post-processing, even on complex shapes.
High-Speed Operation: Ideal for rapid prototyping, short runs, and mass production with minimal setup time.
Supports a Wide Range of Materials: Depending on the laser type (CO₂, fiber, or UV), compatible with metals, plastics, acrylic, wood, textiles, glass, and ceramics.
Minimal Material Waste: Narrow kerf width and precision nesting reduce material loss and improve efficiency.
Types of Laser Cutting Machines:
Fiber Laser Cutting Machines
Best for metals (carbon steel, stainless steel, aluminum, brass)
Fast cutting, low maintenance, energy-efficient
CO₂ Laser Cutting Machines
Ideal for non-metals (wood, acrylic, plastic, fabric, leather)
Versatile and cost-effective for light industrial use
UV & Green Laser Machines
Specialized for delicate or heat-sensitive materials like electronics, glass, and ceramics
Technical Specifications (Example Model):
Laser Power: 500W – 20,000W (depending on model and material)
Cutting Area: 1300 x 2500 mm, customizable sizes available
Positioning Accuracy: ±0.03 mm
Max Cutting Speed: Up to 60,000 mm/min
Control System: CNC interface with CAD/CAM compatibility
Cooling System: Water or air cooling depending on laser type
Applications:
Sheet metal cutting and fabrication
Acrylic and signage cutting
Custom engraving and etching
Automotive and aerospace parts
Jewelry and electronics manufacturing
Packaging prototypes and decorative arts
Advantages:
High precision for detailed cuts and fine designs
Minimal thermal distortion due to focused energy
Automation-ready with CNC or robotic integration
Reduced tooling costs (no need for physical dies)
Suitable for both prototyping and high-volume production
Optional Features & Add-Ons:
Auto-focus laser heads for varying material thickness
Rotary attachments for tube and pipe cutting
Dual-head configurations for increased productivity
CCD camera for contour and printed mark recognition
Laser Cutting Machines
Laser Cutting Machines – Product Introduction
Overview:
Laser cutting machines use a focused, high-powered laser beam to melt, burn, or vaporize materials with extreme precision. Known for their ability to deliver fine detail, high speed, and exceptional edge quality, laser cutters are widely used across industries such as metal fabrication, electronics, automotive, signage, aerospace, textiles, and woodworking.
Key Features:
Uses a concentrated laser beam controlled by CNC systems for intricate and highly accurate cuts.
Delivers clean cuts without the need for post-processing, even on complex shapes.
Ideal for rapid prototyping, short runs, and mass production with minimal setup time.
Depending on the laser type (CO₂, fiber, or UV), compatible with metals, plastics, acrylic, wood, textiles, glass, and ceramics.
Narrow kerf width and precision nesting reduce material loss and improve efficiency.
Types of Laser Cutting Machines:
Technical Specifications (Example Model):
Applications:
Advantages:
Optional Features & Add-Ons: