High-Performance Composite Filaments

Fiberonโ„ข PET-CF17

Elevate prototyping with superior strength, precision, and surface texture

HDT(ยฐC)
0.45Mpa
147.5
Young's
Modulus
Dry
5481 MPa
Young's
Modulus
Wet
Spool info:
1.75mm
500g, 2kg

About PET-CF17

TDSSDS

Experience superior surface texture and stiffness with PET-CF17, the high-speed 3D printing material that delivers strength without moisture sensitivity concerns. This carbon fiber reinforced filament excels at rapid prototyping, offering exceptional print quality and dimensional accuracy. Combining the best of strength, speed, and surface finish into one exceptional composite filament.

Application Category

Automotive
Composite Manufacturing
Jigs & Fixtures
Heat deflection temperature (0.45Mpa)
HDT(ยฐC)147.5
Young's modulus
Dry5481 MPa
Wet
Tensile strength
(x-y)
65.9 MPa
(z)
27.9 MPa
Charpy Impact strength
notched
(x-y)
5.1 kJ/mยฒโ€จ
Bending modulus
(x-y)
4744.4 MPa
(*) all data are from printed specimen
Excellent stiffness at different moisture levels
Hight speed printing up to 300mm/s

Download a printer profile

Printer compatibility

Printing temperature:
270-300ยฐC
Bed temperature
70-80ยฐC

(*) No heated chamber or enclosure needed

Nozzle compatibility

Using a wear-resistant nozzle, such as hardened steel or ruby nozzle, is highly recommended when printing
PET-CF17
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Our goal is to make materials with a key characteristic - advanced materials that are easy to use for anyone, coming from any industry, without the need of an advanced technological skill set.
  • What is the percentage of the carbon fiber content in Fiberonโ„ข PET-CF17?

    It contains 17 wt% carbon fibers.

  • Do PET-CF17 prints need annealing? What are the annealing conditions? Will deformation occur?

    We strongly recommend 100ยฐC, 10h annealing to achieve the best performance of the material.

    To avoid deformation of the prints during annealing, please pay attention to the following:

    1. Before returning the prints, please confirm that the prints have been printed for more than 24h, or placed in an 80-degree oven for 2h to eliminate the internal stress after printing.
    2. During annealing, do not touch the sample with your hands or apply any additional load to the sample.
    3. During annealing, ensure that the temperature in the oven is uniform and there are no obvious obstructions that cause uneven temperature of the sample.
    4. For prints with a bridge length of more than 3cm, or a thick layer on the upper part of the bridge; prints with large overhangs or small overhangs; all need to add supports and anneal in the oven together with the supports.
    5. For thin-walled areas with a wall thickness of less than 4mm, you can try to add reinforcing ribs or increase the wall thickness to avoid possible annealing deformation.
    6. In principle, the sample placement method needs to be consistent with that during printing, and it is best to enter the oven directly together with the base plate.