Conductive Compounds

UV-1006 is a 100% solids, UV cured epoxy material designed for use in touch screen applications. Cured films of UV-1006 exhibit excellent adhesion to glass, metal, indium tin oxide (ITO) and most plastic substrates. UV-1006 is suitable for high temperature applications and will withstand continuous exposure up to 155°C. Cured films will withstand extreme thermal shock from +200°C to well below -60°C. This material maintains its electrical integrity over a wide temperature and frequency range. The high temperature resistance of UV-1006 allows it to be used in wave soldering applications.

TYPICAL PROPERTIES (Uncured Liquid) Appearance Straw Colored Liquid
Viscosity, Brookfield RVT @ 20°C 2,400 cps
@ 25°C 1,200 cps
@60°C 110 cps
Weight Per Gallon @ 25°C 9.7 lbs.
Specific Gravity @ 25°C 1.17
Flash Point, PMCC 340°F (171°C)
Shelf Life @ 25°C 6 months

TYPICAL CURED PROPERTIES

CURED PROPERTIES - FREE FILMS Shrinkage On Cure 2.2%
Elongation To Break 4.0%
Tensile Strength At Break 7,600 psi
Glass Transition Temperature (DMA) 157°C
Volume Resistivity @ 25°C 3.3 x 1014-cm
Surface Resistivity @ 25°C 2.9 x 1013/Square
Dissipation Factor, 60 MHZ, @ 25°C 0.024
Dielectric Constant, 60 MHZ, @ 25°C 4.81

APPLICATION METHODS:

UV-1006 can be applied by all conventional methods including screen printing, dip, roll or knife over roll coating and curtain coating. The excellent pot life and UV cure mechanism allow for heating of the material to precisely control viscosity for consistent application weights.

METHOD OF CURE:

UV-1006 must be exposed to ultraviolet light of the proper wavelength to activate the curing mechanism. This can be done with any ultraviolet light source which puts out wavelengths of <350 nanometers. The most common commercial light source is the medium pressure mercury vapor (MPMV lamps), electrode or microwave activated arc, with or without spectral enhancement (doped). Cure can also be accomplished with xenon or carbon arc lamp sources, UV lasers or electron beam sources. These sources are available in increasing arc lengths and varying intensities for specific applications from a large number of manufacturers.

NOTE: Although the above information is accurate to the best of our knowledge, Conductive Compounds, Inc. makes no guarantees for customer specifications established in applications where this product is used. Customer assumes responsibility for determining fitness of use in their particular application.