Experience ultra-fast, high-precision laser scanning and cutting technology that revolutionizes thin-material processing. Our galvanometer-based scanning systems deliver unmatched speed and accuracy for modern manufacturing.
Than traditional cutting
Scanning cutting is an advanced laser processing technique that uses
high-speed galvanometer mirrors to precisely steer a focused laser beam across the workpiece surface. Unlike traditional mechanical cutting methods that move the entire cutting head, scanning cutting redirects only the laser beam — achieving dramatically higher speeds with micron-level positional accuracy.
Ultra-fast mirror positioning at up to 10,000 mm/s scan speed
Precision control reduces heataffected zones by up to 85%
Our four-stage scanning cutting workflow ensures precision, consistency, and maximum throughput for every application.
Upload your CAD files or cutting patterns directly into our proprietary control software with automatic path optimization.
Smart parameter selection based on material type, thickness, and desired edge quality — with pre-configured profiles for common applications.
High-speed galvanometer mirrors steer the laser beam across the workpiece at speeds up to 10,000 mm/s with ±5μm positioning repeatability.
Inline vision inspection verifies cut quality and dimensional accuracy in real-time, ensuring every part meets your specifications.
Our scanning cutting systems deliver measurable advantages over conventional laser cutting and mechanical processing methods.
Galvanometer-driven beam steering achieves scanning speeds of up to 10,000 mm/s — 5 to 10 times faster than conventional gantry-based laser systems for thin material processing.
10,000 mm/s max scan speed
Achieve positioning repeatability of ±5 μm and cutting kerf widths as narrow as 20 μm. Ideal for applications demanding the highest dimensional tolerances.
±5μm positioning accuracy
Rapid beam movement and precise pulse control minimize thermal energy transfer, reducing heat-affected zones by up to 85% compared to traditional methods.
85% less thermal distortion
Higher throughput per unit time dramatically lowers per-part processing costs. No physical tool wear means reduced maintenance and consumable expenses over the machine lifetime.
40% lower cost per part
Process a wide range of materials including copper foils, aluminum, stainless steel, polymer films, ceramics, and composite laminates — all on a single platform.
50+ compatible materials
Integrated vision systems, real-time quality monitoring, and automated material handling enable fully autonomous production with minimal operator intervention.
24/7 unattended operation
Industry expertise since 2014
Protecting our innovations
Modern production space
Global customer base
Our scanning cutting technology serves diverse sectors where speed, precision, and material integrity are critical to success.
See how our galvo-based scanning cutting technology compares to conventional mechanical and standard laser cutting approaches.
| Feature | Scanning Cutting | Standard Laser | Mechanical Cutting |
|---|---|---|---|
| Processing Speed | Up to 10,000 mm/s | Up to 2,000 mm/s | Up to 500 mm/s |
| Positioning Accuracy | ±5 μm | ±20 μm | ±50 μm |
| Heat-Affected Zone | Minimal (<10 μm) | Moderate (50–200 μm) | None |
| Tool Wear | Zero wear | Zero wear | Regular replacement |
| Complex Geometries | Excellent | Good | Limited |
| Thin Material (<0.5mm) | Optimal | Moderate | Poor |
| Automation Ready | Full integration | Partial | Manual setup |
Explore our range of scanning cutting systems designed for different applications and production scales.
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