Description
KIMYA – PEBA-S Filament – Translucent
KIMYA PEBA-S Filament – 500 grams
The Kimya PEBA-S 3D filament is a thermoplastic elastomer. Polyether block amide (PEBA) is produced via polycondensation of a carboxylic acid polyamide with an alcohol-terminated polyether. PEBA, based on PEBAX by Arkema, is very flexible: it has the best elongation % in the range (>550%). It can be used to make shoe soles or other sports equipment (cycling, golf, American football helmet) as it offers substantial energy return. The Kimya PEBA-S 3D filament has the following properties:
- Flexibility (>550% tensile elongation at break)
- Impact resistance
- Complies with the RoHS and REACH standards
- Product Dimensions: 20.7 × 20.5 × 6 cm; 0.8 kg
FILAMENT PROPERTIES
PROPERTIES | TEST METHODS | VALUES |
---|---|---|
Diameter | INS-6712 | 1.75 ± 0.1 mm 2.85 ± 0.1 mm |
Density | ISO 1183-1 | 1.013 g/cm3 |
Moisture rate | INS-6711 | < 1 % |
Melt flow index (MFI) | ISO 1133-1 (@220°C – 10 kg) | 13.6 g/10min |
Melting Temperature (Tm) | ISO 11357-1 DSC (10°C/min – -90-190°C) | 149 °C |
PRINT PARAMETERS AND SPECIMENS DIMENSIONS
PRINTING DIRECTION | XY |
---|---|
Printing Speed | 20-60 mm/s |
Infill | 100% – rectilinear |
Infill Angle | 45°/-45° |
Nozzle Temperature | 210-260°C |
Bed T° | 70-90°C |
PRINTED SPECIMENS PROPERTIES
PROPERTIES | TEST METHODS | VALUES | |
---|---|---|---|
MECHANICAL PROPERTIES | Tensile modulus | ISO 37/2/500 | 63 MPa |
Tensile Strength | ISO 37/2/500 | 32.8 MPa | |
Tensile strain at strength | ISO 37/2/500 | > 550 % | |
Tensile Stress at Break | ISO 37/2/500 | 32.3 MPa | |
Tensile strain at break | ISO 37/2/500 | > 550 % | |
Flexural modulus | ISO 178 | 70 MPa | |
Flexural stress at conventional deflection (3,5% strain)* | ISO 178 | 2.4 MPa | |
Charpy impact resistance | ISO 179-1/1eA | No Break | |
Shore Hardness | ISO 868 | 93A |
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. |