HumiSeal 1B73EPA Aerosol

Harmonization Code : 3208.20.90 | Paints and varnishes that are dispersed or dissolved in a non aqueous medium

Main features

Rapid tack-free time
Eco-friendly propellant
Exceptional flexibility

Product Description

HumiSeal 1B73 EPA Aerosol is a fast-drying, single-component acrylic conformal coating delivered in a convenient, environmentally friendly spray format. It is designed to provide professional-grade protection without the need for specialized spray booths or dipping equipment. Featuring an environmentally safe, non-ODP propellant, this aerosol version maintains the same high-performance standards—including MIL-I-46058C and IPC-CC-830 qualifications—as the bulk liquid formulations.

Product Key Features

Packaged for easy, manual application; no mixing, thinning, or specialized spray equipment is required.
Dries to the touch in just 30 minutes, enabling faster handling and assembly throughput.
Provides a durable yet flexible film that withstands thermal shock and mechanical stress without cracking.

Applications

Re-coating PCBs after field repairs or component replacements.
deal for prototypes or small production runs where setting up automated equipment isn't cost-effective.
The fine aerosol mist provides excellent coverage on boards with dense component populations or intricate layouts.

Specifications

Technical Specifications

General Properties

Density (g)

0.96 g/cm3

Film Thickness

Film Thickness
Film thickness is the thickness of a backing film without taking into account any coatings or adhesive layers. It is measured in micron and the conversion factor to mil is 0.039.

25 - 75 µm

Solids

23 %

Physical Properties

Viscosity

Viscosity
Viscosity is a measurement of a fluid’s resistance to flow.

Viscosity is commonly measured in centiPoise (cP). One cP is defined as
the viscosity of water and all other viscosities are derived from this base. MPa is another common unit with a 1:1 conversion to cP.

A product like honey would have a much higher viscosity -around 10,000 cPs-
compared to water. As a result, honey would flow much slower out of a tipped glass than
water would.

The viscosity of a material can be decreased with an increase in temperature in
order to better suit an application

230 mPa.s

Thermal Properties

Glass Transition Temperature (Tg)

Glass Transition Temperature (Tg)
The glass transition temperature for organic adhesives is a temperature region where the polymers change from glassy and brittle to soft and rubbery. Increasing the temperature further continues the softening process as the viscosity drops too. Temperatures between the glass transition temperature and below the decomposition point of the adhesive are the best region for bonding.

The glass-transition temperature Tg of a material characterizes the range of temperatures over which this glass transition occurs.

42 °C

Operating Temperature

-65 - +125 °C

UL 94 Rating

UL 94 Rating
Flammability rating classification.
It determines how fast a material burns or extinguishes once it is ignited.

HB: slow burning on a horizontal specimen; burning rate less than 76 mm/min for thickness less than 3 mm or burning stops before 100 mm
V-2: burning stops within 30 seconds on a vertical specimen; drips of flaming particles are allowed.
V-1: burning stops within 30 seconds on a vertical specimen; drips of particles allowed as long as they are not inflamed.
V-0: burning stops within 10 seconds on a vertical specimen; drips of particles allowed as long as they are not inflamed.
5VB: burning stops within 60 seconds on a vertical specimen; no drips allowed; plaque specimens may develop a hole.
5VA: burning stops within 60 seconds on a vertical specimen; no drips allowed; plaque specimens may not develop a hole

V-0

Coefficient of Thermal Expansion (CTE)
Coefficient of Thermal Expansion (CTE), α1 Coefficient of Thermal Expansion (CTE), α1 CTE α1 (alpha 1) is the slope of the Coefficient of thermal expansion in a temperature range below the Glass transition temperature (Tg). It explains how much a material will expand until it reaches Tg.	67 ppm/°C

Mechanical Properties

Storage (DMA) Modulus
Storage (DMA) Modulus @ 25°C	11.1 N/mm2

Electrical Properties

Breakdown Voltage

Breakdown Voltage
Breakdown voltage is the minimum voltage necessary to force an insulator to conduct some amount of electricity.
It is the point at which a material ceases to be an insulator and becomes a resistor that conducts electricity at some proportion of the total current.

After dielectric breakdown, the material may or may not behave as an insulator any more because of the molecular structure alteration. The current flow tend to create a localised puncture that totally alters the dielectric properties of the material.

This electrical property is thickness dependent and is the maximum amount of voltage that a dielectric material can withstand before breaking down. The breakdown voltage is calculated by multiplying the dielectric strength of the material times the thickness of the film.

6300 V