Filament PAHT-CF nylon black 1kg CREALITY
Creality Hyper PAHT-CF 3D Printing Filament – High-Temperature Carbon Fiber Nylon
Creality Hyper PAHT-CF is a high-performance engineering filament based on PAHT (high-temperature polyamide) reinforced with carbon fiber, designed for industrial-grade strength, thermal resistance and dimensional stability.
This advanced composite material delivers superior mechanical performance compared to standard nylon and PA12-CF, making it ideal for demanding functional and structural applications.
Extreme Strength & Rigidity
Carbon fiber reinforcement significantly improves stiffness and load-bearing capability, allowing parts to withstand high stress and mechanical loads.
- High tensile and bending strength (up to ~153 MPa XY)
- Excellent stiffness and structural integrity
- Lightweight yet highly durable parts
Outstanding Heat Resistance
PAHT-CF offers exceptional thermal performance, maintaining strength and shape even under high temperatures.
- Heat deflection temperature up to ~195°C
- Suitable for high-temperature environments
- Stable long-term performance
Low Moisture Absorption
Compared to standard PA-CF materials, PAHT-CF absorbs significantly less moisture, ensuring consistent print quality and mechanical reliability even in humid conditions.
- Up to 76% lower moisture absorption
- Improved dimensional stability
- Reduced warping and shrinkage
Enhanced Layer Adhesion
Improved Z-layer bonding increases impact resistance and durability of printed parts, making them suitable for real-world functional use.
- Strong interlayer adhesion
- Higher resistance to cracking and deformation
Applications
- Mechanical and structural components
- Automotive parts
- Industrial tools and fixtures
- Engineering prototypes
- Robotics and drone components
Technical Specifications
- Material: PAHT (High-temp Nylon) + Carbon Fiber
- Diameter: 1.75 mm
- Net weight: 1 kg
- Printing temperature: 260–300°C
- Bed temperature: 90–110°C
- Heat resistance: up to ~195°C
Important Notes
- Requires hardened steel or carbide nozzle (abrasive filament)
- Recommended enclosed printer for best results
- Dry before printing (e.g. 80°C for 6–8 hours)