ColorFabb PA-CF Low Warp - 1.75mm - 0.7 KG

Out of stock
SKU: 02-C2-6943 Barcode: 8719033556218
Regular price $95.95 CAD
Regular price -20% $119.95 CAD Sale price $95.95 CAD

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ColorFabb 3D Filament Canada

The PA-CF Low Warp is a one of a kind polyamide formulation with the ability to print nearly warp free on non heated build platforms. Low infill prints come out perfectly flat on cold bed for higher infill prints 40/50C temperature is enough to obtain flat prints.

PA-CF low warp is infused with carbon fiber for increased stiffness. Users are recommended to use wear resistant nozzles.

PA-CF Low Warp excels in tensile and impact strength and allows continues use at 120°C while retaining sufficient mechanical properties.

The formulation has been modified to reduce uptake of moisture and it also takes about 4 times longer to reach the saturation point compared to unmodified PA6. This makes PA-CF Low Warp less affected by moisture then most other nylon filaments available in the market.

 CARBON FIBER IS ABRASIVE

A special point of attention is the abrasive nature of the carbon fibers. In general these fibers will accelerate the nozzle-wear of brass nozzles, much faster than unfilled filaments. ColorFabb recommends to using wear resistant nozzles.

Read more about print settings and advice on https://pa.colorfabb.com

ColorFab PA-CF Nylon Carbon Fiber 3D Filament Canada

 3d filament net weight NET WEIGHT: 0.7 KG (1.54 LB)

3d printing temperature guideline Printing
Temperature:

Notes:

260°C - 280°C

Adviced 3d print speed:
30 - 40 mm/s

Advised Heated bed (if you have one, not strictly necessary):
ambient - 50C

Advised layerheight 
For this material we recommend a minimum of 0.2mm layerheight. Due to the length of the fibers layers lower then 0.15mm can cause issues such as clogging or partial clogging of the nozzle.

Cooling fan
50% fan cooling is a good starting point, this gives best performance on overhangs and small details. For best mechanical performance try printing with the least amount of cooling needed, for optimal layer adhesion.