G Metal+One® Industrial Metal DED 3D Printing System is a compact and high-precision laser metal additive manufacturing platform specially developed for universities, research institutes, material laboratories and industrial R&D centers. Based on advanced Direct Energy Deposition (DED) and Laser Metal Deposition (LMD) technology, the system is optimized for metal material development, composition screening, gradient material research and small-scale industrial additive manufacturing applications.

Compared with conventional industrial laser cladding systems, G Metal+One® features a compact structure, lower powder consumption and higher research flexibility while maintaining stable industrial-grade processing capability. The intelligent multi-channel powder feeding system supports real-time mixing of multiple metal powders with precisely controllable ratios, enabling rapid alloy development and advanced material experimentation.

The integrated high-throughput material testing software supports one-time batch printing of multiple material samples with different composition ratios, significantly improving R&D efficiency and reducing experimental costs.

In addition, G Metal+One® offers high powder utilization efficiency, flexible material composition control and broad material compatibility. The system supports steel alloys, aluminum alloys, titanium alloys, nickel-based superalloys, cobalt-based alloys, high-entropy alloys and ceramic powder research applications, making it an ideal solution for advanced metal additive manufacturing and scientific material research.

Equipment Features

• High-Precision Motion Control:
  Equipped with a high-accuracy motion system with positioning accuracy up to 0.02 mm for stable and precise metal deposition.
• Efficient Rapid Prototyping:
  Advanced path planning software supports direct metal printing without molds, significantly shortening product development and research cycles.
• Inert Gas Atmosphere Protection:
  Fully enclosed inert gas processing chamber with oxygen and moisture content as low as 50 ppm, effectively reducing oxidation during printing.
• Real-Time Visual Monitoring:
  Supports coaxial visual positioning and real-time process monitoring to improve printing stability and quality consistency.
• Intelligent & User-Friendly Software:
  Open and easy-to-operate software architecture with intuitive HMI design reduces training difficulty and improves operational efficiency.
• Multi-Process Compatibility:
  Supports metal DED 3D printing, laser cladding, surface repair and functional coating applications for versatile industrial and research usage.
• Flexible Material Development Platform:
  Ideal for alloy development, gradient material research, composition screening and material property optimization applications.
• Compact Industrial Design:
  Space-saving structure suitable for laboratories, universities, research institutes and industrial innovation centers.
• Low Powder Consumption:
  Optimized powder delivery system reduces material waste and lowers experimental and operational costs.
• Industrial-Grade Stability:
  Designed for long-term stable operation with reliable laser processing performance and consistent deposition quality.