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MAR UltraPA-CF High temperature Nylon 15% carbon fiber reinforced 3D printing Material FDM material

MAR UltraPA-CF High temperature Nylon 15% carbon fiber reinforced 3D printing Material FDM material


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MR-UltraPA-CF High-temp Nylon 15% carbon fiber reinforced 3D printing material UltraPA-CF industrial grade printing materials

Low Density, Super Abrasive Resistance, Low Mositure Sensitivity, Smart Fiber Reinforced Technology, The Strongest Mechanical Properties of Nylon Series.

Benefit from UltraPA-CF ultra-high flexural modulus, the 3D printed products have extremely strong rigidity, which is suitable for high-strength or lightweight applications.


Materials: 15% Carbon Fiber Reinforced PAHT

Nozzle Temp: 300-320 ℃

Bed Temp: 70-80 ℃

Print Speed: 30-60 mm/s

Bed: PEI Film or Coating with PVP Glue

Fan: Off

Dimater: 1.75mm

Material weight: 1KG/Roll

Color: Black/White/Orange


  1. Smart Fiber Reinforced Technology

MAR controls the dispersion and distribution of chopped carbon fibers within the material matrix during the extrusion process, the fibers form a mesh skeleton structure within the material and bear most of the load transferred by the material matrix. Smart Fiber Reinforced Technology greatly improves the mechanical properties and heat resistance of the material, and releases the internal stress during the printing process through the fiber mesh structure, resulting in good dimensional stability of the printed part and no warpage.

  1. Low Mositure Sensitivity

MAR UltraPA-CF based on modified PA12 long-chain nylon, whose saturated moisture absorption rate is only one tenth of ordinary PA6, completely solving the defects of the mechanical properties and dimensional stability of nylon materials that change greatly after absorbed moisture.

  1. Super Abrasive Resistance

MAR UltraPA-CF has a low coefficient of friction, self-lubricating properties and excellent wear resistance, which can easily meet all kinds of high-strength gears or industrial applications with high wear requirements.

MAR™ MR-UltraPA-CF Physical Properties


Test Method

Typical value


ISO 1183

1.15 g/cm³

Moisture Sorption

ISO 62:Method 1


Melting Temperature

ISO 11357


Melt Index

280℃, 2.16kg


Softening Temperature

ISO 75: Method A
ISO 75: Method B

113℃ (1.80MPa)
188℃ (0.45MPa)

Tensile Strength (X-Y)

ISO 527

121.77 ± 4.28 MPa

Tensile Modulus (X-Y)

7807.99 ± 517.99 MPa

Elongation at Break (X-Y)

1.88 ± 0.11%

Bending Strength (X-Y)

ISO 178

190.85 ± 2.07 MPa

Bending Modulus (X-Y)

8512.22 ± 241.31 MPa

Impact Resistance Charpy (X-Y)

ISO 179

7.74 ± 1.13 KJ/m²

Elongation at Break (Z)

Custom method: Vase Mode
Nozzle size 0.6mml/Layer height 0.3mm
Layer time 20S

41.90 ± 3.87 MPa

All testing specimens were printed under the following conditions:
nozzle temperature = 320 °C, printing speed = 45mm/s, build plate temperature = 80 °C, infill = 100%, Filling angle= ±45°; Annealing conditions: annealing at 100°C for 8 hours.
All specimens were conditioned at room temperature for 24h prior to testing.


Recommended printing conditions

Nozzle temperature

300-320 ℃

Nozzle size

0.4-1.0 mm


PEI Film or Coating with PVP Glue

Bed temoerature

70-80 ℃

Raft separation distance

0.12-0.16 mm

Cooling fan

Turned off-20%

Printing speed

30-120 mm/s

Retraction distance

3-6 mm

Retraction speed

1800-3600 mm/min

Other using notice:

  1. Nylon materials are very easy to absorb moisture in the environment. After moisture absorption, the printing will appear to be silky, and there will be bubbles in the extrusion, which will reduce the printing quality. It is recommended that you open the MR-UltraPA-CF vacuum aluminum foil packaging and immediately put the wire in the drying box (the humidity is controlled below 15%) for printing. Please put the different wires back into the original packaging aluminum foil bag and keep it sealed.
  2. When the material is damp, there will be more printing wire drawing, bubbles extruded, and the printing surface quality is rough. Please put the wire into an oven at 80-100℃ to dry for 4-6h, then the printing quality of MR-UltraPA-CF can be restored.
  3. It is recommended to use Phaetus hardened steel and above nozzles, which can effectively improve the printing quality. It is recommended that the thickness of the heating block is not less than 12mm.
  4. After printing, the printed parts can be annealed, which can further improve the strength of the MR-UltraPA-CF printed parts. Annealing conditions: Place it at 80-100℃ for 4-8 hours.


The typical values presented in this data sheet are intended for reference and comparison purposes only. They should not be used for design specifications or quality control purposes. Actual values may vary significantly with printing conditions. End- use performance of printed parts depends not only on materials, but also on part design, environmental conditions, printing conditions, etc. Product specifications are subject to change without notice.

Each user is responsible for determining the safety, lawfulness, technical suitability, and disposal/recycling practices of Mar materials for the intended application. Mar makes no warranty of any kind, unless announced separately, to the fitness for any use or application. Mar shall not be made liable for any damage, injury or loss induced from the use of Mar materials in any application.

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