Advanced Liquid Cooling Systems
Tolerance ±0.1mm - ±0.2mm · min feature Min Wall: 0.4mm; Min Hole: 0.6mm
| Physical Properties | |
| Density | 8 |
|---|---|
| Tensile Strength | 515.0 |
| Max Service Temp | 870.0 |
| Hardness | 85 HRB |
| Standard Tolerance | ±0.1mm - ±0.2mm |
| Manufacturing Limits | |
| Equipment Specs | Build Volume: 400mm x 250mm x 400mm; Laser System: Dual or Triple 500W Fiber Lasers; Layer Thickness: 20-100 μm; Max Scan Speed: 7.0 m/s; Atmosphere: Argon/Nitrogen inert gas protection with O2 content <100 ppm; Build Plate Heating: Up to 200°C; Qualified Materials: Titanium Alloys (Ti6Al4V), Aluminum Alloys (AlSi10Mg), Nickel Superalloys (IN718), Stainless Steels (316L), CoCr alloys. |
| Min Feature Size | Min Wall: 0.4mm; Min Hole: 0.6mm |
| Precision Grade | As-printed dimensional accuracy typically falls within ±0.1mm for features under 100mm, or ±0.2% for larger dimensions. Critical features require post-machining to achieve tolerances of IT7 or better. |
| Commercial | |
| Factory Advantage | Tackling void-related failures in brazed liquid cooling assemblies is a constant battle. Our approach bypasses this entirely by leveraging Selective Laser Melting with 316L stainless steel. While the alloy's sensitivity can lead to porosity and stress, the BLT S400's capabilities are critical. Its superior atmospheric control and thermal management system create an exceptionally stable melt pool, mitigating defect formation. This allows our team at MechanoFab to print complex cold plates as single, monolithic parts, completely eliminating the brazing process and its associated risks of microscopic voids. The result is a net-shape, leak-proof component with superior corrosion resistance, produced with the repeatability and speed afforded by the S400's multi-laser configuration, fully compliant with ASHRAE and UL standards. |
| Target Volume | Optimized for 1-50 units |