Brinter® ONE

Brinter® ONE

FOR SINGLE OR MULTI-MATERIAL 3D (BIO)PRINTING R&D OR PRODUCTION

Brinter® 3D printing technology is inspired by our space-grade innovations, ensuring exceptional performance in any environment.

Of materials sciences, printed drugs, tissue blocks, biosensors, materials and organs at Universities, University hospitals, Research organizations, Food, Bio, Pharma, Manufacturing and Healthcare Industries. The ongoing software & hardware development lets us design customized systems for each project. Genuine Multimaterial 3D (bio)printing with several printing technologies.

Description

FOR SINGLE OR MULTI-MATERIAL 3D (BIO)PRINTING R&D OR PRODUCTION
Of materials sciences, printed drugs, tissue blocks, biosensors, materials and organs at Universities, University hospitals, Research organizations, Food, Bio, Pharma, Manufacturing and Healthcare Industries. The ongoing software & hardware development lets us design customized systems for each project.Genuine Multimaterial 3D (bio)printing with several printing technologies.

Multimaterial 3D (Bio)Printing with several printing technologies: Hydrogels suitable for cell culture usually have quite low viscosity, but 3D structures with defined shape usually require stiff materials (which are unable to support e.g. high cell viability).

Up to four print heads of Brinter® at once allow fully automated combined printing of stiff and soft materials and thus enable genuine multimaterial printing of highly complex tissue
structures. Available printing technologies include valve-free pneumatic extrusion (Pneuma Tools), screwdriven mechanical extrusion, i.e. endless piston pump (Rotary Tools & Visco Tool), electromagnetically actuated microvalve droplet dispensing (Droplet Tool), and thermoplastic granulate extrusion (Granu Tool).

The Brinter® software is an intuitive web browser-based user interface that requires no downloads. The UI comes with an integrated slicer for the conversion of a 3D object model (.STL format) to specific instructions for the printer (g- code format). The only accessory you need is any 3D design software capable of exporting STL files so that you can design the printable CAD models. Once your structure has been imported into the slicer, you can configure the internal mesh along with a wide range of other printing parameters, such as support and layer specific parameters before sending the g-code to Brinter® to start the actual print job.

Next-generation 3D Bioprinting Solution key features:

  • Modularity: Brinter® ONE evolves according to our partners’ and customers’ needs. The upcoming new print heads and modules can be used on the same platform/device by just updating the software. This lengthens the life span of the platform considerably and allows you to adapt to your changing printing needs. All printheads are compatible with both CORE and ONE platforms.
  • Automation: Brinter® ONE has an automatic print head change interface making the attachment and change of the print heads easier than ever. There is no need for additional tools or need to open hoses when installing the print heads. Brinter® ONE also has an automatic calibration system for the calibration of the XY offsets and an onboard camera for online process view and recording.
  • Multi-material: Brinter® ONE is a genuine multi-material printer as it can print materials ranging from liquids to hydrogels with living cells, biopaste, ceramic paste, silicones, and even granulates of plastic, or cellulose into one print job.
  • Other: Video camera for real-time monitoring for rheology, quality control, etc. purposes as well as recording. Web browser based software with no need to install any softtware locally.
    Printing can be remotely controlled and monitored via computer, tablet or mobile phone.
  • Print Heads: Up to 4 different or similar printheads can be used during a single print job with the fully automated tool changing system. Via virtual tool function and manual replacement you can use even more than 4 print heads.
  • Photocuring: Optional VisLED module inlcuding 365 nm & 405 nm fixed LEDs under the robot arm + print head integrated 365 nm, 405 nm, 450 nm and  red light (625 nm, 680 nm and 720 nm) LEDs
  • Sterility: Optional Vis LED module also includes 265 nm LEDs for disinfection of the print bed & other optional module called BlueLED Photonic Disinfection System is meant for disinfection of the printing chamber
  • Compatible syringes: Pneuma and droplet series uses standard 10 cc (ml) and 5 cc (ml) syringes with standard luer lock connector
  • Temperature range or printing heads: 4 °C–RT, RT–66 °C & RT–250 °C (for thermoplastic print heads)
  • Temperature Range of the Print Bed: Separate optional beds for 4 °C –65 °C & RT–100 °C
  • Maximum recommended print speed: 80 mm/s
  • XYZ Minimum Step Size: 3 μm
  • Minimum Strand Diameter: Material + tip size and shape dependent
  • Print surfaces: Print on whatever print surface you prefer: Petri dish, well plate,microscope slide, print bed, even curved surfaces is possible
  • Build Volume (W × D × H): 300 x 174 x 80 mm; in practice, H ≤ 40 mm
  • Equipment Dimensions (W × D × H) and weight: 550 × 650 × 600 mm, weight ~45 kg
  • Connectivity: Via Ethernet

 

Ask About This Product