Conductive Inks
Showing 25–31 of 31 results
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Deposition: Screen Print Vehicle: Butyl Carbitol Resistivity: 67E-6 – 3.5E-6 ohm-cm Substrates: Paper, plastics, glass, metal Features: Good conductivity, fine line printing, excellent adhesion and water resistance -
Deposition: Inkjet Vehicle: Aqueous-based Resistivity: 0.5 to 0.8 ohm-cm Substrates: Coated and uncoated plastics and glass Features: Resistive ink contains fluoropolymer for excellent adhesion -
Deposition: Inkjet Vehicle: Aqueous Resistivity: 9.9E-6 to 5.3E-4 ohm-cm Substrates: Plastics, Glass, (Paper with PulseForge processing) Features: Contains a polyurethane binder for excellent adhesion -
Deposition: Inkjet Vehicle: Aqueous Resistivity: 7.8E-6 to 3.1E-5 ohm-cm Substrates: Coated papers, coated or uncoated plastics, and glass Features: Reflective silver ink for digital optical effects -
Deposition: Flexo Vehicle: Aqueous-based Resistivity: 5.5E-6 to 6.5E-6 ohm-cm Substrates: PET, polyimide, PC, polyurethane, coated papers Features: Cured films on plastics and label paper have good electrical conductivity, low surface roughness, and good adhesion. May be printed on production flexographic presses. -
Deposition: Flexo Vehicle: Aqueous-based Resistivity: 1.0E-5 to 1.2E-5 ohm-cm Substrates: PET, polyimide, PC, polyurethane, coated papers Features: Designed to produce reflective and electrically-conducting features on non-textured surfaces. Cured films on plastics and label paper exhibit higher optical reflectivity than those of PFI-RSA6012. -
Deposition: Flexo Vehicle: Aqueous-based Resistivity: 8E-6 to 1E-5 ohm-cm Substrates: PET, polyimide, PC, polyurethane, coated papers Features: Designed to produce reflective and electrically-conducting features on non-textured surfaces. Cured films on plastics and label paper exhibit higher electrical conductivity than those of PFI-RSA6004.