Sharebot Snowwhite 2 is a professional Selective Laser Sintering (SLS) 3D printer designed to facilitate the work of research centers, universities, and
research and development departments. The system stands out for its fully open printing parameters, a powerful 14W CO2 laser, and the ability to operate in a controlled atmosphere with nitrogen or argon, making it the ideal tool for the development of new polymers and composite materials.
Main Features- Open system SLS technology: Total control over printing processes thanks to the possibility of modifying every parameter.
- Advanced thermal management: Maximum powder bed and cylinder temperature up to 190C, optimal for standard and engineering polymers.
- Precise Laser source: 14W CO2 laser (10640nm) for ideal absorption over a wide range of polymers.
- Controlled atmosphere: Predisposition for the use of inert gases (Nitrogen or Argon) to prevent material oxidation.
- High-quality optics: Galvanometric system with f-Theta lens for extremely precise laser positioning.
- Monitoring and Traceability: Automatic generation of a log file at the end of each job for the analysis of process data.
- Sharebox Remote Control: Dedicated dashboard for local and remote management via web interface, including the management of print profiles and GCODE files.
Technical Specifications- Machine dimensions: 1500 x 600 x 600 mm
- Weight: approx. 150 kg
- Maximum build volume: 100 x 100 x 100 mm
- Z-axis resolution: 50 microns
- XY-axis resolution: 100 microns
- Laser: CO2 (10640nm) – 14W
- Build speed (Z): up to 35 mm/h
- Scan speed: up to 3500 mm/s
- Operating temperature: up to 190C (Powder bed and cylinders)
- Connectivity: LAN (control via Sharebox)
Additional Functionalities- Modularity: Designed to allow the integration of advanced analysis tools, such as thermal cameras for surface heat monitoring.
- Possibility of mounting a reduced powder distributor.
- Possibility of mounting a powder distributor with a recoater roller.
- Possibility of hardware and software modifications based on user specifications.