Metal 3D Printing Grinding and Polishing Treatment | 3D Printing Polishing Tool | 3D Printing Polishing Treatment | Smooth Surface Treatment After 3D Printing
Focus on Additive Manufacturing Post-Processing, Unleashing the Precision of Metal 3D Printed Parts
In response to the revolutionary breakthroughs in metal 3D printing technology, Guangdong Samgig Polishing Industrial Technology Co., Ltd. has innovatively launched a dedicated polishing solution for metal 3D printing. Specifically designed to provide nano-level surface treatment for 3D printed titanium alloy, aluminum alloy, and stainless steel parts in fields such as aerospace, medical implants, and automotive molds, this solution breaks through the limitations of traditional polishing processes on complex geometric structures. It achieves an ultra-precise surface with Ra0.05μm while retaining 100% structural integrity, enabling additive manufacturing parts to possess both design freedom and an ultimate surface finish.
Precise Processing of Micro-Channels: By combining magnetic polishing and abrasive flow technology, it perfectly solves the polishing challenges of areas in 3D printed parts that are inaccessible to traditional tools—such as internal honeycomb structures, micro-channels, and deep holes—achieving a 100% dead-angle removal rate.
Intelligent Parameter Matching: A built-in dedicated material database for metal 3D printing automatically matches the optimal polishing parameters, avoiding deformation of thin-walled structures caused by excessive cutting.
Eco-Friendly Polishing Process: Adopts water-based eco-friendly abrasives and a cyclic filtration system, with zero heavy metal pollution, complying with the cleaning standards of the medical industry.
High-Efficiency Operation: Polishing efficiency is 500% higher than traditional manual polishing, while energy consumption is reduced by 40%, significantly lowering the carbon footprint.
Nano-Level Surface Treatment: Utilizes a stepped polishing process to complete the entire workflow from rough polishing to mirror finishing in one stop, achieving a surface roughness of Ra0.05μm.
Zero Damage to Integrity: Exclusive stress control technology ensures that the internal lattice structure of 3D printed parts remains undamaged, with 100% retention of mechanical properties.
| Field | Traditional Challenge | Samgig’s Solution & Result |
|---|
| Aerospace | High surface roughness of 3D printed turbine blades | Multi-process composite polishing → Aerodynamic performance increased by 25% |
| Medical Implants | Incomplete polishing of porous structures | Magnetic penetration polishing → Biocompatibility exceeds ISO 10993 standards |
| Automotive Molds | Inability to polish conformal cooling channels | Precise abrasive flow processing → Cooling efficiency increased by 30% |
Data source: Production line verification by leading customers
Professional Technical Barriers: Possesses 17 patents in metal 3D printing polishing, overcoming global challenges in polishing porous structures and thin-walled parts.
Full-Industry-Chain Services: Provides a complete set of solutions covering polishing equipment, dedicated abrasives, and process parameters.
Global Certification Assurance: Certified (Note: Specific certification names can be supplemented if provided); core components of the equipment adopt imported brands, with a service life of over 100,000 hours.
