BASF Ultrafuse PAHT CF15
Ultrafuse PAHT CF15 is a high-performance 3D printing filament that opens new application fields in FFF printing. In parallel to its advanced mechanical properties, dimensional stability, and chemical resistance, it has very good processability.
It works in any FFF printer with a hardened nozzle.
In addition to that, Ultrafuse PAHT CF15 is compatible with BVOH, water-soluble support material and HIPS, which allow printing complex geometries that work in challenging environments.
PAHT CF15 is a high-performance 3D printing filament that opens new application fields in FFF printing. In
parallel to its advanced mechanical properties, dimensional stability, and chemical resistance, it has very good
processability. It works in any FFF printer with a hardened nozzle. In addition to that, it is compatible with water-
soluble support material and HiPS, which allow printing complex geometries that work in challenging
environments. PAHT CF15 has high heat resistance up to 130 °C and low moisture absorption.
Advantages of Ultrafuse PAHT CF15
- Higher chemical resistance than most PA grades
- High temperature resistance up to 150°C
- Strong and stiff parts
- High dimensional stability
- Easy to process
- Low moisture absorption
Reference Links and Documents
- Diameter1.75 mm, 2.85 mm
- Material TypeNylon
- ColorBlack
- Net Weight750g
- BrandBASF
- Nozzle Diameter≥ 0.6 mm, Ruby or Hardene
- Tensile strengthXY - 63.2 MPa / 9.2 ksi
XZ - N/A
ZX - 12.5 MPa / 1.8 ksi - Printed Part Density (dry)1232 kg/m3 / 76.9 lb/ft3
- Drying recommendations70 °C in a hot air dryer for 4 to 16 hours
- Print Speed30 - 80 mm/s
- Nozzle Temperature260 – 280 °C / 500 – 536 °F
- Build Chamber Temperature-
- Bed Temperature100 – 120 °C / 212 – 248 °F
- Bed materialPEI or Glass
- Thermal PropertiesHDT at 1.8 MPa - 80 °C / 176 °F
HDT at 0.45 MPa - 108 °C / 226 °F
Glass Transition Temperature - 79 °C / 174 °F
Crystallization Temperature - 204 °C / 399 °F
Melting Temperature - 245 °C / 473 °F
Melt Volume Rate - 25 cm3/10 min / 1.5 in3/10 min (260 °C, 2.16 kg) - Printed Part Density (conditioned)1234 kg/m3 / 77.0 lb/ft3