MLS-85-SB-C is a conductive version of MLS_85-SB. A highly specialized pigment with a silicone binder, MLS-85-SB-C paint can be applied over complex surfaces with relative ease to form a bendable conductive nonspecular black coating. This coating can be utilized in the Low Earth Orbit (LEO) space environment due to its resistance to the deleterious effects of the Atomic Oxygen (AO) flux found there. MLS-85-SB-c has had limited AO testing, therefore the user should evaluate the performance of this coating for their particular application prior to use. For Geosynchronous Earth Orbit (GEO) and terrestrial applications as a baffle absorptance coating, MLS-85-SB-C provides excellent service in optical and/or thermal applications where static dissipation is needed. MLS‑85-SB-C may also be applied with a brush, however, solar absorptance (α_s) and thermal emittance (ε_t) values may not fall within the ranges shown below. This is an excellent coating for use with vacuum systems, optical instruments or internal as well as external spacecraft and satellite applications.
Like MLS-85-SB, an advantage of MLS-85-SB-C is that it has very low out outgassing and does not require controlled temperature and humidity when applying.
The table below lists the optical and application parameters of cured MLS-85-SB-C.
|Nominal Surface Resistivity||~105 Ω/sq|
|Thermal Emittance (ε_t)||0.91 ± 0.02|
|Solar Absorptance (α_s)||0.98 ± 0.01 at ≥ 1.5 mils thickness|
|Use Temperature Range||-180 C to 600 C|
|Appearance/Color||Nonspecular optical black|
|Nominal Dry Thickness||3.0+1.0, -1.5 mils (over 85% of coated area)|
|ASTM D3359A Adhesion Grade||Not less than 3A|
|Full Cure||48 to 72 hours|
Note: terms reflectance, emittance and absorptance and terms reflectivity, emissivity and absorptivity are often used interchangeably.