HumiSeal® UV40 SOLAR conformal coating is:
- single component
- high solids
- UV curable
- acrylated polyurethane
- no-yellowing with exposure to UV
- meets requirements of SAA-J1960
HumiSeal UV40 SOLAR conformal coating has:
- excellent chemical resistance, surface hardness, flexibility and moisture resistance.
- secondary moisture cure mechanism for curing in the non-UV exposed shadowed areas
- can be applied by selective coating equipment.
- recognized under UL File Number E105698
- MIL-I-46058C qualified
- IPC-CC-830 and RoHS directive 2015/863/EU
Application of UV40 SOLAR Conformal Coating
Conformal coatings can be successfully applied to substrates that have been cleaned prior to coating and also to substrates assembled with low residue, “no clean” assembly materials. Users should perform adequate testing to confirm compatibility between the conformal coating and their particular assembly materials, process conditions and cleanliness level. Please contact HumiSeal® for additional information.
HumiSeal® UV40 SOLAR can be applied via standard selective coating equipment or by conventional hand spray equipment. The source air used for spraying must be dry (a dry inert gas is highly recommended) to prevent premature curing of the secondary cure mechanism. The spraying should be done with adequate ventilation so that the vapor and mist are carried away from the operator.
HumiSeal® UV40 SOLAR may be applied by brush for rework or touch up only. Brush must be cleaned with solvent promptly after use.
To flush equipment and clean uncured HumiSeal® UV40 SOLAR, non-alcohol-based solvents should be used. HumiSeal® Thinner 521 or Thinner 521EU is recommended.
HumiSeal® UV40 SOLAR is a highly cross-linked UV cured coating. The cured film has a high degree of environmental and chemical resistance and will be more difficult to remove than traditional conformal coatings. Thermal displacement, mechanical abrasion and, where available, HumiSeal® Stripper 1100 are suitable options for rework of HumiSeal® UV40 SOLAR.
|Minimum Solids Content||95 %|
|Viscosity, per Fed-Std-141, Meth. 4287||650 ± 150 centipoise|
|Recommended Coating Thickness||25-125 microns|
|Recommended UV Cure*||See TDS for Details|
|Shelf Life at Room Temperature, DOM||12 months|
|Thermal Shock, 50 cycles per MIL-I-46058C||-65ºC to 125ºC|
|Glass Transition Temperature – DSC||45ºC|
|Coefficient of Thermal Expansion – TMA||85 ppm/ºC Below Tg
197 ppm/ºC Above Tg
|Modulus – DMA||10364 MPa @ -40°C
4283 MPa @ 25°C
66 MPa @ 80°C
|Dielectric Withstand Voltage, per MIL-I-46058C||>1500 votls|
|Dielectric Constant, at 1MHz and 25°C per ASTM D150-98||2.5|
|Dissipation Factor, at 1MHz and 25°C per ASTM D150-98||0.01|
|Insulation Resistance, per MIL-I-46058C||8.0 x 1014 ohms (800TΩ)|
|Moisture Insulation Resistance, per MIL-I-46058C||4.7 x 1010 ohms (47GΩ)|
|Fungus Resistance, per ASTM G21||Pass|
*Fusion “H” style bulb recommended