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Net weight​

1 Kg

Dlameter

1.75 mm / 2.85 mm

Color

Natural

Technical Data Sheet

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Ufilled High temperature Polyamide material.

Product Description

FusForce™️ PAHT is specially developed for FDM 3D printing process, and its substrate material is high temperature nylon, which has low density, low moisture absorption, high strength, high abrasion resistance, excellent chemical resistance and high heat resistance. It also has good dimensional stability, no warpage and no shrinkage during the printing process, and can be used with FusFree™️ S-PAHT Quick Remove Support material to solve the problem of poor molding effect on the support surface of complex models.

Material Properties

Recommended printing conditions​

Nozzle Temperature

260-280 °C

Recommended Nozzle Diameter

0.4-1.0 mm

Recommended build surface treatment

PEI or Coating with PVP glue

Build plate temperature

70-80 °C

Chamber Temp

Supports printing without sealing

Cooling fan speed

Off

Print speed

30-120 mm/s

Retraction distance

1-3 mm

Retraction speed

1800-3600 mm/min

Recommended Support Material

FusFree™ S-PAHT Quick-Remove Support

Drying setting

80-100℃ for 4-6h

Annealing

80-100℃ for 4-8h

Printing Tips:

  1. Nylon material is very easy to absorb moisture within the environment, and printing after absorbing moisture will result ozzing, extruding with bubbles and rough surface appearance, thus reducing print quality. It is recommended that put the filament into a dry box (humidity below 15%) immediately afteropening the FusForce™️ PAHT vacuum foil bag for printing. Please put the unused filament back into theoriginal aluminum foil bag for sealed storage.
  1. After the material is damp, there will be more printing ozzing, bubbles extruded and rough printing surface. Please dry the filament in an oven at 80-100°C for 4-6h to restore the printing quality of FusForce™️ PAHT.
  1. It is recommended to use hardened steel and above grade nozzles made by Phaetus, which can effectively improve the print quality. Besides, it is recommended that the thickness of the heating block is longer 12mm.

Extrusion Force vs Print Volumetric Speed Test ​

FAQ

Most frequent questions and answers

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