Ultrafuse® PAHT CF15

High Temperature PA with 15 % Carbon Fiber

Ultrafuse® PAHT CF15 is a high-performance 3D printing filament that opens up new application areas in FFF printing. It works in any FFF printer with a hardened nozzle. Additionally, it is compatible with BVOH, water-soluble support material, and HIPS which enables the printing of complex geometries for the most challenging operating environments.

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Description

Ultrafuse® PAHT CF15 combines high temperature and chemical resistance with outstanding mechanical resilience. Due to its excellent dimensional stability your printed component will display low shrinkage during printing, ensuring an easy print experience. The nature of the fibers ensures that the parts remain very strong and highly rigid.

Benefits at a Glance

  • Higher chemical resistance than most PA grades
  • High temperature resistance up to 150 °C
  • Strong, rigid components High dimensional stability
  • Easy to process
  • Low moisture absorption

Example Applications

  • Complex geometries in challenging environments
  • Automotive

Example Applications

  • Tensile Strength (MPa): 18.2 (ZX), 103.2 (XY)
  • Flexural Modulus (MPa): 2715 (ZX), 7669 (XZ), 8258 (XY)
  • Elongation at Break: 0.5 % (ZX), 1.8 % (XY)
  • Impact Strength Izod notched (kJ/m2): 5.1 (XZ), 4.9 (XY)
  • Impact Strength Izod unnotched (kJ/m2): 2.9 (ZX), 18.1 (XZ), 16.4 (XY)
  • HDT at 0.45 MPa: 145 oC

Printing Guidelines*

  • Nozzle Temperature: 250-270 °C
  • Build Chamber Temperature: -
  • Bed Temperature: 65 - 85 °C
  • Bed Material: Glass, PEI
  • Nozzle Diameter: ≥ 0.6 mm, Ruby or hardened
  • Print Speed: 30 - 80 mm / s

*The product data is provided in good faith and represents typical properties based on our current knowledge and experience; these data are not to be construed as specification limits or mini- mum values. Product properties may be changed without notice. This document does not create any liability, warranty or guarantee of product performance. It is the buyer’s responsibility to determine the suitability of Ultrafuse® products for the intended application.

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