Creative Materials 110-04

110-04 is a carbon-based electrically conductive ink and coating suitable for application by flexographic and rotogravure printing methods. This product features excellent adhesion to Kapton, Mylar, glass, and a variety of other surfaces. Unlike conventional conductive materials, this product is very resistant to flexing and creasing. Some applications for110-04 include, but are not limited to, emi/rfi shielding of polyimide flexible circuits, resistance heaters, polymer thick film circuitry, membrane switches, electrical attachments and static elimination.

Features

  • Solvent based resistive ink

Application Area: Circuit Substrates, Electrical Components, Heaters, Membrane Touch Switch, Resistors

Compatible Substrates & Surfaces: Glass, Plastics, Polyimide

Features: Crease Resistance, Electrically Conductive, Electromagnetic Shielding (EMI), Flexing Resistance, Good Adhesion, Good Thermal Stability, High Hydrolytic Stability, Radio Frequency Shielding (RFI)

Application Method: Flexography, Gravure Coating

Technical Data Sheet

Knowde Enhanced TDS

Identification & Functionality

Features & Benefits

Applications & Uses

Application Method
Compatible Substrates & Surfaces
Cure Method
Application Method
  • Flexo/Spray

Properties

Physical Form
Typical Properties
ValueUnitsTest Method / Conditions
Conductivity max. 50ohms/sq/mil
Typical Cured Properties
ValueUnitsTest Method / Conditions
FillerCarbon
Volume Resistivity0.15ohm-cm
Sheet Resistivity50ohm/sq.
Hydrolytic StabilityExcellent
Useful Temperature Range-55 to 200ºC
Thermal StabilityGood to 325°C

Regulatory & Compliance

Certifications & Compliance

Safety & Health

Safety & Handling
  • Use with adequate ventilation.
  • Keep away from sparks and open flames.
  • Avoid prolonged contact with skin and breathing of vapors.
  • Wash with soap and water to remove from skin

Storage & Handling

Shelf Life
6 months at 21°C
Suggested Handling & Curing

110-04 is ready to use as supplied. Further thinning may be accomplished by adding small amounts of methyl ethyl ketone. Good properties, for most applications, result when cured for several minutes at room temperature. Best properties are obtained on a variety of substrates by dry and curing at temperatures ranging from 50°C to 100°C. End user is advised to experimentally determine temperature and time best suited for individual applications.