The nozzle is an important part of the hotend of a 3D printer, on which many factors of high-quality extrusion and good adhesion of layers depend. It is through the nozzle that the filament melted in the hotend is squeezed out for further application on the 3D printing platform and the creation of three-dimensional parts.
The Phaetus Silicone Carbide Nozzle PS (V6) is suitable for uncompromising printing with any materials, because it provides unsurpassed print quality. From standard PLA plastic to PEEK and even carbon fiber and fiberglass reinforced materials, the silicon carbide nozzle meets all the printing requirements of any material.
The nozzle is manufactured using a specialized process to obtain a stable and reliable fixation. The design of the nozzle body provides high strength without destruction. DLC coating is applied to the entire surface of the nozzle, the coefficient of surface friction of which is only 0.05, and ensures clean printing without plastic sticking. It is also important to note the high accuracy of nozzle processing and the hole size tolerance of 0.01 mm with a concentricity of 0.02 mm.
Advantages:
- High heat resistance
- Ultra high wear resistance
- Long-lasting printing at 550℃ without wearing out the nozzle hole
- High thermal conductivity
- High efficiency of nozzle heating
- Ultra-fast printing
Main characteristics:
- Material of the nozzle leg: copper alloy
- Material of the nozzle tip: silicon carbide
- Hardness: 9.8 Mohs
- Maximum printing temperature: 550 ℃
- Thermal conductivity: 170 W/m·k
- Coefficient of expansion: 4.0 μm/m·℃
- Roughness of the inner hole: ≤Ra0.2μm
- Concentricity: 0.02 mm
- Permissible size error: ±0.01 mm
The Phaetus Silicone Carbide Nozzle PS (V6) is compatible with:
Important: Currently, 3D printer manufacturers are improving their designs and changing nozzle models, offering their own solutions, because of which the nozzle may not fit specifically for your printer, so we recommend consulting with our manager to select the correct nozzle for your 3D printer.
