Abstract: The invention relates to electrically conductive coatings, in particular to electrically conductive priming coatings of parts before they undergo electrostatic painting, as well as to priming compositions for creating such coatings (priming coatings). The present invention proposes a priming composition for creating a light, electrically conductive priming coating on a part prior to electrostatic painting, said priming composition comprising single-wall and/or double-wall carbon nanotubes at a concentration of greater than 0.005 wt. % and less than 0.1 wt. %, and having a degree of grinding of the priming composition of not more than 20 microns. The technical result of applying such a priming composition is a light, electrically conductive priming coating with a specific surface resistance of less than 109 ?/sq and a light reflection coefficient (LRV) of at least 60%. The present invention also proposes a method for preparing a priming composition and a light, electrically conducting priming coating.

Abstract: The present invention relates to an electrically conductive polyurethane composite material and a method for producing same and can be used in the manufacture of articles and coatings from polyurethane composite materials having a desired electrical conductivity. The present method for producing an electrically conductive polyurethane composite material by reacting organic polyisocyanates (A) with one or more compounds (B) containing NCO-reactive groups includes a step of mixing a concentrate of carbon nanotubes with compounds (B) or with polyisocyanates (A) or with a mixture containing organic polyisocyanates (A) and compounds (B) at an input energy of less than 0.5 kW·h per 1 kg of mixture and a carbon nanotube content of less than 0.1 mass. % relative to the sum of the masses of (A) and (B).