Nylon PA12 3D Printing Service
Nylon PA12 3D printing primarily uses powder bed fusion (e.g., SLS). Thin PA12 powder layers are spread on a build platform; a laser sinters particles per the 3D model, fusing layers gradually. The powder bed supports overhangs, avoiding extra structures. Post-printing, excess powder is removed and recycled. Parts may undergo dyeing or smoothing, yielding durable, flexible components for industrial, automotive, and medical applications.
Common 3D printable products:
- Industrial Wear-Resistant Components:Precision gears
- Automotive and Aerospace Parts:Fuel system components
- Medical Orthotics and Rehabilitation Devices
What do you want printed?
You can also send us 3D object files at our Email:jerry@coreprint3d.com
Nylon PA12 Material Properties
| Material | Process | Color | Tensile Strength | Tensile Modulus | Elongation |
| PA 12 White (PA 650) | SLS | White | 50.0 MPa | 2,000 MPa | 11% |
| PA 12 Black | MJF | Black | 49 MPa | 1,900 MPa | 8.5% |
| PA 11 Black (PA 850) | SLS | Black | 52 MPa | 1,800 MPa | 30% |
| PA 12 Mineral-Filled (Duraform HST) | SLS | Light Gray | 38 MPa | 3,100 MPa | 3% |
| PA 12 40% Glass-Filled (PA 614-GS) | SLS | White | 50 MPa | 3,600 MPa | 5% |
| PA 12 40% Glass-Filled Black | MJF | Black | 30 MPa | 3,500 MPa | 8.5% |
How Does Nylon 3D Printing Work?
Nylon 3D printing typically uses powder bed fusion technologies like Selective Laser Sintering (SLS) or Multi-Jet Fusion (MJF). The process starts with spreading a thin layer of nylon powder (e.g., PA11, PA12) on a build platform. In SLS, a laser sinters the powder particles together at high temperature (just below melting point) according to the digital model, while MJF uses inkjet nozzles to apply fusing agents before heating. Each layer bonds with the previous one, gradually building the part via layer-by-layer accumulation. Supports are usually unnecessary due to the powder bed’s structural support. After printing, excess powder is recycled, and parts undergo cooling, depowdering, and post-processing (e.g., dyeing, vapor smoothing) for improved surface finish. This method enables complex, durable, and flexible nylon components for automotive, medical, and industrial applications.
Get An Accurate Quote Quickly
If you have 3D printing needs, you can leave your email address, and we will reply to you within 30 minutes.
Email:
jerry@coreprint3d.com
Phone:
+86:180 2696 3929
Jieshun Technology Center, Longhua District, Shenzhen
Dongguan Songshan Lake International Innovation and Entrepreneurship Community
