Bambu Lab PA6 GF 1.75mm 3D Printer Filament - 1kg Spool | High-Strength Glass Fiber Reinforced Nylon | Ideal for Functional Parts, Automotive & Industrial Applications
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Description
Glass Fiber Reinforced PA6 (Nylon 6)
Product Features
- Built to Last
- Dimensional Stability
- Exceptional Thermal Properties
- Chemical Resistance
- Smooth Surface and More Colors
- Diameter: 1.75mm +/- 0.03mm
Cautions for Use
- 0.2 mm Nozzle Not Compatible
- Stainless Steel Nozzle Not Recommended
- AMS & AMS lite Compatible
- Dry before Use
Bambu PA6-GF - Glass Fiber Reinforced Nylon
Bambu PA6-GF, also known as Nylon 6 with Glass Fiber, stands at the forefront of high-performance engineering plastics. Engineered to deliver exceptional strength, durability, dimensional stability. The PA6-GF is also more cost effective when compared to other top tier engineering filaments.
Built to Last
Bambu PA6-GF is exceptionally strong and durable due to reinforced glass fibers, making it the perfect choice for prints that need to withstand heavy use and resist bending or breaking.
Dimensional Stability
PA6-GF boasts unparalleled dimensional stability thanks to its glass fiber reinforcement, minimizing warping in comparison to standard PA filaments. Print with precise dimensions, even in the most intricate geometries.
Exceptional Thermal Properties
PA6-GF boasts a high heat deflection temperature and superior dimensional stability, enabling it to retain its mechanical properties even under elevated temperatures. This makes it ideal for demanding industrial and automotive applications.
Chemical Resistance
PA6-GF offers excellent resistance to chemicals, oils, and many kinds of solvents, ensuring long-term performance in challenging environments.
Accessory Compatibility
| Recommended | Not Recommended | |
| Build Plate | Engineering Plate, High Temperature Plate or Textured PEI Plate | Cool Plate |
| Hotend | Hardened Steel 0.4mm / 0.6mm (recommended) / 0.8 mm | Hotend with Stainless Steel Nozzle (all size) Hotend with Hardened Steel Nozzle (0.2 mm) |
| Glue | Bambu Glue Stick | Bambu Liquid Glue |
| AMS & AMS lite | AMS & AMS lite | / |
Recommended Printing Settings
| Drying Settings before Printing | 80 °C, 8 - 12 h |
| Printing and Keeping Container's Humidity | < 20% RH (Sealed, with Desiccant) |
| Nozzle Temperature | 260 - 290 °C |
| Bed Temperature (with Glue) | 80 - 100 °C |
| Printing Speed | < 130 mm/s |
Physical Properties
| Density | 1.09 g/cm³ |
| Vicat Softening Temperature | 212 °C |
| Heat Deflection Temperature | 186 °C |
| Melting Temperature | 223 °C |
| Melt Index | 6.8 ± 0.6 g/10 min |
Mechanical Properties
| Tensile Strength | 102 ± 7 MPa |
| Breaking Elongation Rate | 5.8 ± 1.6 % |
| Bending Modulus | 5460 ± 280 MPa |
| Bending Strength | 151 ± 8 MPa |
| Impact Strength | 40.3 ± 2.5 kJ/m² |
Downloads
Printing Tips
• Bambu PA6-GF needs proper drying before printing: recommended drying temperature is 80 ℃ for 8 to 12 hours in a blast drying oven, or 90 to 100 ℃ for 10 to 12 hours on heat bed. (Do not exceed 100 ℃ because the spool may deform or even melt). For more details, please refer to: on WIKI.
• To prevent the filament from absorbing moisture, it is recommended to use an airtight storage container with desiccant during printing. For more details, please refer to: on WIKI.
• To minimize warping, avoid printing large-sized high infill density models. Use enclosed printers and ensure the build plate is properly applied with glue for better print adhesion before printing.
• For better print results and more details, please refer to: on WIKI.
Post-processing Tips
• We recommend removing the support structures within 2 hours after printing to prevent them from sticking after absorbing moisture. If sticking occurs, dry the model to ease the removal.
• Placing the printed part in a convection oven set between 80 to 130 degrees Celsius for 5 to 12 hours can further enhance the strength and rigidity of the print. Note: The effectiveness of this process depends on the structure, size, and conditions of the printed model. Some models may warp or deform after annealing. For more details, please refer to: on WIKI.
