3D Bioplotter – EnvisionTEC

Rapid prototyping from thermoplastic melts up to 250°C (PCL, PLLA, PGLA), from hydrogels (agar, gelatin, collagen, chitosan), from two component systems (alginate, fibrin), from ceramic pastes (hydroxyapatite, tricalcium phosphate), metal paste (titanium) or other materials (polyurethane, silicone, acrylate, graphene, etc.), 2 printheads, 0.001 mm resolution, pressure regulator, needle calibration device, 260x220x80 mm

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IMNR - National Research and Development Institute for Nonferrous and Rare Metals
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Rapid prototyping from thermoplastic melts up to 250°C (PCL, PLLA, PGLA), from hydrogels (agar, gelatin, collagen, chitosan), from two component systems (alginate, fibrin), from ceramic pastes (hydroxyapatite, tricalcium phosphate), metal paste (titanium) or other materials (polyurethane, silicone, acrylate, graphene, etc.), 2 printheads, 0.001 mm resolution, pressure regulator, needle calibration device, 260x220x80 mm

Department: IMNR – The Advanced and Nanostructured Materials Laboratory

References:

  1. R. Mioara Piticescu, L. Madalina Cursaru, G. Negroiu, C. Florentina Ciobota, C. Neagoe, D. Safranchik, Innovative Hybrid Materials with Improved Tensile Strength Obtained by 3D Printing, in: Biomaterials, IntechOpen, 2020. doi:10.5772/intechopen.91296.
  2. M. Prakasam, M. Popescu, R. Piticescu, A. Largeteau, Fabrication Methodologies of Biomimetic and Bioactive Scaffolds for Tissue Engineering Applications, in: Scaffolds Tissue Eng. – Mater. Technol. Clin. Appl., InTech, 2017. doi:10.5772/intechopen.70707.
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