NOVAMID® ID1030 CF10 is a new PA6/66 grade of carbon reinforced polyamide that brings properties of 3D printed parts close to what is usually achievable only by injection molding. With a loading of 10% carbon fiber, printed parts are stronger, tougher and stiffer compared with other FFF materials available, while matching the easy and fast printing of unreinforced plastics.
NOVAMID® ID1030 CF10 features:
- 3D printable at same speed as unreinforced plastics thanks
to low carbon loading of 10% - Enables properties close to what is usually achievable only
by injection molding - Very low warpage compared to unfilled PA
- Durable parts with good mechanical properties due to high
inter-layer strength - Made from DSM Novamid copolyamide PA6/66, which is
used in automotive and electronics for many years - HDT of 184ºC at 1.8MPa
- Characteristic matte black surface-finish with less roughness
| Size | ø tolerance | Roundness |
|---|---|---|
| 1,75mm | ø 0,05mm | 95% |
| 2,85mm | ø 0,10mm | 95% |
| Description | Testmethod | Typical value |
|---|---|---|
| Tensile modulus (3D printed: flat X-X direction) | ISO 527-1 | 7625 MPa |
| Stress at yield (3D printed: flat X-X direction) | ISO 527-1 | 122 MPa |
| Strain at yield (3D printed: flat X-X direction) | ISO 527-1 | 2,5% |
| Stress at break (3D printed: flat X-X direction) | ISO 527-1 | 110 MPa |
| Strain at break (3D printed: flat X-X direction) | ISO 527-1 | 2,2 % |
| Tensile modulus (3D printed: flat Y-X direction) | ISO 527-1 | 2720 MPa |
| Stress at yield (3D printed: flat Y-X direction) | ISO 527-1 | 63 MPa |
| Strain at yield (3D printed: flat Y-X direction) | ISO 527-1 | 3% |
| Stress at break (3D printed: flat Y-X direction) | ISO 527-1 | 58 MPa |
| Strain at break (3D printed: flat Y-X direction) | ISO 527-1 | 4,5% |
| Description | Testmethod | Typical value |
|---|---|---|
| Printing temp. | 270±15°C | |
| Melting temperature (10°C/min) | ISO 11357-1/-3 | 200°C |
Colours:
Novamid® ID1030 CF10 is available from stock in:
Packaging:
Novamid® ID1030 CF10@DSM is available in the original packaging of DSM.
Additional info:
The material is designed specifically for 3D printing, and can be printed on standard desktop fused filament fabrication (FFF) machines with a hardened nozzle. Tests have shown that users can run their printers at the same speeds as with unreinforced plastics, while achieving considerably better strength and toughness.
Storage:
In order to prevent moisture pick up and contamination, supplied packaging should be kept closed and undamaged. For the same reason, partially used bags should be sealed before re-storage. Allow the material that has been stored elsewhere to adapt to the temperature in the processing room while keeping the bag closed.
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