Anycubic PETG-CF is a PETG filament reinforced with carbon fibers, delivering higher stiffness, impact resistance, and dimensional stability for demanding 3D printing applications. It offers a satin-matte finish that helps hide layer lines, low shrinkage, and good resistance to water and weathering, making it suitable for long-term use as well.
Anycubic PETG-CF filament is designed for users who need strong and durable parts without compromising print quality. Thanks to the carbon fiber additive, prints are more resistant to compression and mechanical stress while also gaining an elegant satin-matte appearance that helps mask individual layers.
The material features a low tendency to warp, which increases accuracy and dimensional stability in functional components. For trouble-free operation, using a hardened steel nozzle and following the recommended printing temperatures is advised.
Main benefits:
- Carbon fibers for higher stiffness and durability of prints
- Satin-matte surface and improved layer hiding
- Water and weather resistance for outdoor use
- Low shrinkage and high dimensional stability
- Compatibility with Anycubic ACE Pro thanks to the built-in chip
Specifications
- Manufacturer
- Anycubic
- Model
- IPHTFBK-101
- Material
- PETG-CF (PETG reinforced with carbon fibers)
- Color
- black
- Weight
- 1 kg
- Compatibility with ACE Pro Multicolor Filament Box
- yes
- Recommended nozzle diameter
- ≥ 0.4 mm
- Nozzle temperature
- 240–270 °C
- Bed temperature
- 65–75 °C
- Recommended print speed
- 40–250 mm/s
- Cooling time
- 6 s
- Maximum flow
- 11 mm³/s
- Density
- 1.32 g/cm³
- Material flow rate
- 14.1 ± 1.6 g/10 min (190 °C / 2.16 kg)
- Melting temperature
- 221 °C
- Vicat softening temperature
- 74 °C
- Heat deflection temperature (0.45 MPa)
- 67 °C
- Water absorption
- 0.38 %
- Material stiffness (Young's modulus)
- 2550 ± 100 MPa
- Tensile strength
- 54 ± 2 MPa
- Elongation at break
- 12 ± 1 %
- Impact strength (Izod)
- 3100 ± 150 MPa
- Flexural strength
- 88 ± 2 MPa
- Izod impact strength (X–Y)
- 60 ± 4 kJ/m²
- Tensile strength (Z)
- 37 ± 3 MPa
