KIMYA PC-S / Polycarbonate Filament - 750 grams
The Kimya PC-S 3D filament is an amorphous thermoplastic. Polycarbonate (PC) is a transparent plastic. It offers high resistance to heat. It is solid and is suitable for demanding applications. It is well suited to a variety of applications such as the production of parts in the automotive, engineering and aerospace sectors, as well as for producing hulls, helmets, toys, electronic items, etc. The Kimya PC-S 3D filament has the following properties:
- Can be sterilized
- Resistant to heat (up to 140°C)
- Food contact certification EU 10/2011, FDA 21 CFR
- Complies with the REACH and RoHS standards
- Product Dimensions: 20.7 × 20.5 × 6 cm; 1.1 kg
FILAMENT PROPERTIES
| PROPERTIES | TEST METHODS | VALUES |
|---|---|---|
| Diameter | INS-6712 | 1.75 ± 0.1 mm |
| Density | ISO 1183-1 | 1.193 g/cm3 |
| Moisture rate | INS-6711 | < 1 % |
| Melt flow index (MFI) | ISO 1133-1 (@260°C – 5 kg) | 25.5 g/10min |
PRINT PARAMETERS AND SPECIMENS DIMENSIONS
| PRINTING DIRECTION | XY |
|---|---|
| Printing Speed | 40-70 mm/s |
| Infill | 100% - rectilinear |
| Infill Angle | 45°/-45° |
| Nozzle Temperature | 280-320°C |
| Bed T° | 100-120°C |
PRINTED SPECIMENS PROPERTIES
| PROPERTIES | TEST METHODS | VALUES | |
|---|---|---|---|
| THERMAL PROPERTIES | Maximum use T° | - | 140 °C |
| MECHANICAL PROPERTIES | Tensile modulus | ISO 527-2/5A/50 | 2,172 MPa |
| Tensile Strength | ISO 527-2/5A/50 | 53.8 MPa | |
| Tensile strain at strength | ISO 527-2/5A/50 | 3 % | |
| Tensile Stress at Break | ISO 527-2/5A/50 | 44.6 MPa | |
| Tensile strain at break | ISO 527-2/5A/50 | 4 % | |
| Flexural modulus | ISO 178 | 1,640 MPa | |
| Flexural stress at conventional deflection (3,5% strain)* | ISO 178 | 67.7 MPa | |
| Charpy impact resistance | ISO 179-1/1eA | 7 kJ/m² | |
| Shore Hardness | ISO 868 | 79,2D |
| Note 1 | *According to ISO 178, end of the test at 5% deformation even if there is no specimen break. |
| Note 2 | The data should be considered as indicative values - Properties can be influenced by production conditions. |