Product Families

PolyMide™ PA6-CF

189.95

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PolyMide™ is a family of Nylon/polyamide based filaments. Produced with Polymaker’s Warp-Free™ technology, PolyMide™ filaments deliver engineering properties intrinsic to Nylon and ease of printing.

PolyMide™ PA6-CF is a carbon fiber reinforced PA6 (Nylon 6) filament. The carbon fiber reinforcement provides significantly improved stiffness, strength and heat resistance with outstanding layer adhesion.

  • PolyMide™
  • Carbon Fiber
  • 1.75 mm
  • 2.85 mm
  • 2kg
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Description

RECOMMENDED SETTINGS

Nozzle Temperature:
280˚C – 300˚C *

Printing Speed:
60mm/s

Bed Temperature:
25˚C – 50˚C (Do NOT exceed 50 ˚C)

Bed Surface:
almost any surface with a thin coat of PVA glue or Magigoo PA

Cooling Fan:
OFF

Based on 0.4 mm nozzle and Simplify 3D v.4.0. Printing conditions may vary with different printers and nozzle diameters
* We highly recommend to use a wear resistant nozzle

MECHANICAL PROPERTIES

Young’s Modulus:
7453 ± 656 (MPa)

Tensile Strength:
105.0 ± 5.0 (MPa)

Bending Strength:
169.0 ± 4.7 (MPa)

Charpy Impact Strength:
13.34 ± 0.52 (kJ/m2)

THERMAL PROPERTIES

Heat Deflection Temperature
(ISO 75 1.8 MPa):
196 ˚C

Heat Deflection Temperature
(ISO 75 0.45 MPa):
215 ˚C

Melting Temperature:
220 (°C)

NOTES

Drying Settings:
80˚C for 12h

Recommended Support Materials:
PolyDissolve™ S1

Other:
N/A

TDS:
Download

SDS:
Download

PIS:
Download

TECHNOLOGY

PolyMide™ PA6 CF features Polymaker's Warp-Free™ technology and Fiber Adhesion™ technology:

Warp-Free™ technology enables the production of Nylon-based filaments that can be 3D printed with excellent dimensional stability and near-zero warpage. This is achieved by the fine control of microstructure and crystallization behavior of Nylon, which enables the material to fully release the internal stress before solidification.


Fiber Adhesion™ technology improves the layer adhesion of fiber reinforced materials, by optimizing the surface chemistry of the fibers to achieve better dispersion and bonding to the matrix. This results in better strength along the Z-axis and reduced mechanical anisotropy.