KIMYA HIPS Filament - 500 grams
The Kimya HIPS-R 3D filament belongs to the styrenic polymer family. This High Impact PolyStyrene (HIPS) is a thermoplastic formulated from recycled materials and which –despite being recycled– boasts good resistance to impact and heat. It is highly impermeable, enabling it to be used in container applications free of any leakage. HIPS-R has another property distinguishing it from all other filaments: its solubility in D-limonene. Indeed, it can be used as a supporting material. It is used in the manufacture of packaging and also household appliances. The Kimya HIPS-R 3D filament has the following properties:
- Good impact resistance
- 100% made from recycled materials
- Soluble in D-Limonene
- Complies with REACH and RoHS 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 |
Density | ISO 1183-1 | 1.03 g/cm3 |
Moisture rate | INS-6711 | < 1 % |
Melt flow index (MFI) | ISO 1133-1 (@200°C – 5 kg) | 4.7 - 7.1 g/10min |
Glass transition temperature (Tg) | ISO 11357-1 DSC (10°C/min - 20-260°C) | 97 °C |
PRINT PARAMETERS AND SPECIMENS DIMENSIONS
PRINTING DIRECTION | XY |
Printing Speed | 20-70 mm/s |
Infill | 100% - rectilinear |
Infill Angle | 45°/-45° |
Nozzle Temperature | 250-290°C |
Bed T° | 60-110°C |
PRINTED SPECIMENS PROPERTIES
| PROPERTIES | TEST METHODS | VALUES |
MECHANICAL PROPERTIES | Tensile modulus | ISO 527-2/5A/50 | 1,273 MPa |
Tensile Strength | ISO 527-2/5A/50 | 23.7 MPa |
Tensile strain at strength | ISO 527-2/5A/50 | 1 % |
Tensile Stress at Break | ISO 527-2/5A/50 | 16.7 MPa |
Tensile strain at break | ISO 527-2/5A/50 | 11 % |
Flexural modulus | ISO 178 | 1,533 MPa |
Flexural stress at conventional deflection (3,5% strain)* | ISO 178 | 36.2 MPa |
Charpy impact resistance | ISO 179-1/1eA | 7 kJ/m² |
Shore Hardness | ISO 868 | 76,6D |
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. |