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Next Generation of Functional photopolymer Inkjet resins for Engineering and Biomedical applications



NextGen Inkjet 3Dresyns is the Next Generation of biocompatible Inkjet NG 3Dresyns, which exhibit a significant improvement of mechanical properties in comparison to the state of the art technology and competitive products.

The key advantages of the NextGen Tough and Foldable TF grades are increased toughness and foldability without breaking of even extra hard grades (Shore D80), which normally suffer from significant brittleness. They exhibit superior shattering/impact resistance, without any brittleness despite their high hardness (Shore D80).

Our NextGen Inkjet 3Dresyns are ideal not only for modeling and prototyping  but also for making high performance functional materials. They provide superior mechanical properties than conventional thermoplastics such as ABS, PP, etc,..

Benefits of the NextGen Inkjet 3Dresyns product range

  • excellent value for money
  • excellent range of 3D resins for modelling, prototyping and printing functional materials  
  • Any basic colors can be ordered in just few clicks

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    Please click on the links below to order and find more information about the Properties, Features and Benefits of our NextGen 3Dresyns organised by decreasing relative Hardness*

     

    RELATIVE SHORE HARDNESS SCALE AND RIGIDITY IN DECREASING ORDER

    Extra Hard & Rigid R grades at room and high temperature (100% biocompatible)

     

    Extra Hard & Tough T grades (100% biocompatible)

       

      Tough & Foldable TF grades, from Extra Hard to medium Hard without any brittleness

        • Superior toughness with some increased flexibility vs TFD70 & TFD80, non brittle, flexible and foldable, with unique/excellent impact/shattering resistance
      Overall Benefits of NextGen Inkjet 3Dresyns:
      • excellent mechanical properties with tensile strength up to 70-80 MPa for tougher grades
      • reduced brittleness in a broad temperature range: at low and high temperature
      • functional materials for engineering and biomedical applications
      • biocompatible safe grades
      • broad range of properties, from extra hard/tough to flexible grades
      • broad elongation range, from  <1-10% and above 100%
      • high tear resistance for rigid, tough and tough and foldable grades
      • high resilience for hard, tough, flexible and foldable grades
      • high impact and shattering resistance for even hard grades
      • durable
      • very high resolution c.10 microns
      • very low shrinkage c.<1%
      • printable by most commercial and professional Inkjet printers, including Multijet and Polyjet printers
      • organo-tin and epoxy free
      • CMYK: cyan, magenta, yellow, black and white light fast colors without any settling/sedimentation.

      Shore Hardness Scales

      * Note: Shore hardness values are relative and approximate, since in practice hardness can be perceived higher or lower than the declared values. Hardness depends on several variables, including dosage of Fine Tuners FT1 and LB1 used, light wavelength and power, exposure time, post-curing settings, time from printing until hardness readings since materials tend to get harder upon time until their properties stabilise in a couple of hours, effect of room temperature when making the hardness readings, specially for flexible grades, etc.

      Shore hardness readings also depend on the thickness of the prints. Below 6 mm thickness, and when readings are too close to the sides (less than 12 mm) materials may show lower or higher hardness readings, specially for flexible grades.

      Since most 3D prints are usually small in size, perceived hardness (and rigidity) differs from Shore hardness readings undertaken with bigger prints, with more than 6 mm thick and at least 12 mm from the sides.   

      Perceived foldability also depends on the thickness of the print: the higher the thickness the lower the foldability for the same resin.

       

      Please contact us to consult about our NextGen Inkjet 3Dresyns and your specific performance goals at: info@3Dresyns.com