Conductive Inks
Showing 1–12 of 16 results
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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: 4.5 E-6 to 5E-6 ohm-cm Substrates: PET, polyimide, PC, polyurethane, coated papers Features: Suitable for antenna, RFID, sensor, secure packaging, and flexible solar cells. Has high electrical conductivity, good scratch and abrasion resistance, high pencil hardness, low surface roughness, and excellent adhesion. May be printed at speeds as low as 10 m / min. -
Deposition: Flexo Vehicle: Aqueous-based Resistivity: 4.5 E-6 to 5E-6 ohm-cm Substrates: PET, polyimide, PC, polyurethane, coated papers Features: Designed for printing at speeds > 45 m / min on both plastics and label paper. Cured films exhibit high electrical conductivity, low surface roughness, and good adhesion. Suitable for sensor, pharmaceutical packaging, flexible solar cell, antenna, and RFID applications. -
Deposition: Flexo Vehicle: Aqueous-based Resistivity: 4.5 E-6 to 5E-6 ohm-cm Substrates: PET, Treated Polyolefins, Polyimide, PC, Polyurethane, Coated Papers Features: Designed for treated polyolefin (e.g. PE and PP) surfaces. Exhibits high electrical conductivity, good abrasion and scratch resistance, low surface roughness, and excellent adhesion. May also be printed on other types of plastic and label paper. Suitable applications include antenna, RFID, and sensor. -
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. -
Deposition: Screen Print Vehicle: Terpineol Resistivity: ~1.8E-5 ohm-cm Substrates: Polyimide, FR4, glass, fabrics Features: Requires formic acid atmosphere curing -
Deposition: Screen Print Vehicle: Aqueous-based Resistivity: 4.2E-6 to 1.0E-5 ohm-cm Substrates: Treated polyester, polyimide, glass, polycarbonate, coated papers, and cardstock Features: High conductivity, low surface roughness -
Deposition: Screen Print Vehicle: Aqueous-based Resistivity: 4.9E-6 to 1.4E-5 ohm-cm Substrates: Treated polyester, polyimide, glass, polycarbonate, coated papers, and cardstock Features: Excellent adhesion, low surface roughness -
Deposition: Inkjet Vehicle: Aqueous-based Resistivity: 9.0E-6 ohm-cm Substrates: Novele Features: Print on Novele with PulseForge processing -
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: Inkjet Vehicle: Aqueous Resistivity: ~1.5E-5 to ~3E-6 ohm-cm Substrates: Novele or Epson photo paper Features: Conductive immediately after printing