Mayrc UltraPA-GF 3D Printing Material High Temperature Nylon 15% Glass Fiber Reinforced Industrial Grade Consumables
Mayrc UltraPA-GF 3D Printing Material High Temperature Nylon 15% Glass Fiber Reinforced Industrial Grade Consumables
Mayrc UltraPA-GF 3D Printing Material High Temperature Nylon 15% Glass Fiber Reinforced Industrial Grade Consumables
Specification:
Model No | MR-UltraPA-GF | Cable Net Weight | 1kg |
Color | Orange,White | Nozzle Temperature | 280-320℃ |
Bed Temp | 70-80℃ | Print Speed |
30-120mm/s |
Bed | coating with PVP glue | Fan | Off-20% |
Cable Size | 1.75mm | Feature | 5% Glass Fiber Reinforced |
Product Description:
MAR MR-UltraPA-GF is specially developed for FDM 3D printing process, and its substrate material is high temperature nylon, which has 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
Material Properties:
Property |
Testing method |
Typical value |
Density |
ISO 1183 |
1.16 g/cm³ |
Water absorption |
ISO 62: Method 1 |
0.6 % |
Melting Temperature |
ISO 11357 |
225℃ |
Melt index |
260℃, 2.16kg |
15.36 |
Determination of temperature |
ISO 75: Method A |
101℃ (1.80MPa) |
ISO 75: Method B |
147℃ (0.45MPa) |
|
Tensile strength(X-Y) |
ISO 527 |
88.04±3.14 MPa |
Young’s modulus(X-Y) |
4833.79±219.03MPa |
|
Elongation at break (X-Y) |
2.19±0.12 % |
|
Bending strength (X-Y) |
ISO 178 |
140.9±11.55 MPa |
Bending modulus (X-Y) |
4582.11±150.66 MPa |
|
Charpy impact strength (X-Y) |
ISO 179 |
5.97±0.99 KJ/㎡ |
Single shell Z-axis tensile strength |
Custom method: Vase mode/ Nozzle size 0.6mm/Layer height 0.3mm/ Layer time 20s |
30.17 ± 10.4 MPa |
Specimens printed under the following conditions: Nozzle temp 320°C, Bed temp 80℃, Print speed 45mm/s, Infill 100%, Infill angle ±45°
Additional Suggestions:
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 after opening the UltraPA-GF vacuum foil bag for printing. Please put the unused filament back into the original aluminum foil bag for sealed storage.
2. 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℃ for 4-6h to restore the printing quality of UltraPA-GF.
3. 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.
4. After the printing is completed, the printed part can be annealed to further improve the strength of print part. Annealing conditions: leave printing part in an oven at 80-100℃ for 4 to 8 hours and cool to room temperature naturally.
Disclaimer:
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.