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UltraPA-CF25 is a premium 3D printing filament featuring a skin-core structure with 25% carbon fiber reinforcement in high-temperature nylon. This engineering-grade material delivers exceptional mechanical properties including superior strength, wear resistance, and chemical stability while maintaining low moisture absorption. The carbon fiber enhancement significantly elevates thermal resistance and structural integrity, making this filament the optimal choice for demanding industrial applications requiring high-performance components.
The remarkable rigidity of components printed with UltraPA-CF25 stems from its superior bending modulus and strategic 25% carbon fiber composition. This advanced filament delivers exceptional structural integrity, making it ideally suited for engineering applications where either maximum strength or minimal weight is paramount, without compromising performance characteristics.
UltraPA-CF25 enables consistent industrial-caliber precision with superior dimensional stability throughout the printing process. Its specialized 25% carbon fiber composition effectively mitigates warping and deformation challenges, preserving dimensional accuracy in finished components. This advanced material ensures exceptional design fidelity for both high-tolerance prototypes and functional end-use parts, providing the technical reliability necessary for successfully executing complex engineering projects with precision.
QIDI UltraPA-CF25 employs advanced reinforced fiber coating technology to maintain a consistent skin-core structure during extrusion. This engineered architecture optimizes adhesion between internal and external filament layers, effectively eliminating interlayer adhesion degradation. The result is significantly enhanced Z-axis strength compared to conventional resin materials, delivering superior mechanical performance. This specialized formulation excels particularly in applications requiring thin-walled geometries and components with demanding mechanical specifications, providing exceptional structural integrity where traditional materials would compromise.
The exceptional thermal stability of QIDI UltraPA-CF25 makes it ideally suited for applications requiring consistent performance in elevated temperature environments. This advanced filament maintains its superior mechanical characteristics when subjected to thermal stress, ensuring reliable functionality across diverse implementations including precision prototypes, production components, and industrial assemblies where thermal resilience is critical for operational integrity.
| Filament | PA12-CF | PAHT-CF | PPS-CF | UltraPA-CF25 |
| Heat Deflection Temperature(0.45MPa) | 138.2°C | 190.7°C | 242.7°C | 196.9°C |
| Recommended | Not Recommended | |
| Build Plate | QIDI PEI Plate, HF Plat, PC Plate and Smooth Plate | / |
| Hotend |
Hardened Steel Nozzle ( 0.4 / 0.6 / 0.8 mm) Bimetal Nozzle ( 0.4 / 0.6 / 0.8 mm) |
Brass/Copper plated Nozzle (0.2/0.4/0.6/0.8 mm) |
| Glue | Glue Stick/ 3D LAC adhesive spray | / |
| Recommended Printing Settings | |
| Drying Settings (Blast Drying Oven) | 80-100 °C,4-6 h |
| Printing and Keeping Container's Humidity | < 15% RH (Sealed, with Desiccant) |
| Nozzle Temperature | 300-340 °C |
| Bed Temperature (with Glue) | 70-80 °C |
| Printing Speed | 30-200 mm/s |
| Physical Properties | |
| Density | 1.23 g/cm³ |
| Water absorption | 1.09 % |
| Heat Deflection Temperature | 196.9°C |
| Melting Temperature | 237°C |
| Melt index | 4.2 g/10min |
| Mechanical Properties | |
| Tensile strength(X-Y) | 118.19 ± 3.82 MPa |
| Elongation at break (X-Y) | 1.62 ± 0.12 % |
| Bending Modulus | 9214.34 ± 249.80 MPa |
| Impact Strength | 7.29 ± 0.76 KJ/㎡ |
