In addition to demonstrating high resistance to high temperatures, B-MAT exhibits resistance to chemical agents and solvents without compromising the quality, shape or colour of the product. It is important to note that the present discussion pertains not only to the mechanical and automotive industry. The construction industry also uses B-MAT for the fabrication of tubes and turbines. The robotics industry is responsible for the production of 3D printing drones and spare parts. This demonstrates the versatility of B-MAT in printing applications and its value in technical contexts. Weight: 1.00 kg.
| SUGGESTED PRINT SETS (1) |
| Suggested print sets | unit | value | test method |
| extruder temp | C° | 235-250 | internal |
| plate temp | C° | 70-90 | internal |
| min. nozzle diameter | mm | 0,3 | internal |
| fan | % | 0-5 | internal |
| print speed | mm/1° | 30-40 | internal |
| PROPERTY |
| Physical | | | |
| Specific gravity | g/cm3 | 1,22 | ISO 1183 |
| Mechanical | | | |
| Tensile modulus | MPa | 2050 | ISO 527 |
| Tensile stress at Yield | MPa | 52 | ISO 527 |
| Tensile stress at Yield | % | 44 | ISO 527 |
| Flexural modulus | MPa | 2050 | ISO 527 |
| Charpy impact (23°C) | kJ/m2 | 25 | ISO 179 |
| Charpy impact (-30°C) | kJ/m2 | 20 | ISO 179 |
| Thermal | | | |
| HDT-Be | °C | 105 | ISO 75 |
| Vicat softening temp. | °C | 155 | ISO 306 |
| Electrical | | | |
| Volume resistivity | Ohm-cm. | >1.E+14 | IEC 60093 |
| Flame characteristic | | | |
| UL compliant , 94 HB | mm. | 1,5 | UL94 |
