A cementitious protective coating material including a mixture of water, one or more of silicon dioxide/sodium silica pozzolans, anhydrous or hydrous sodium or potassium metasilicate; a rheology enhancing admixture; sodium tetraborate, sodium citrate dihydrate, citric acid, or boric acid; and a micro-fiber.

A coating composition is disclosed comprising: (i) a non-zwitterionic compound comprising sulfonate-functional groups and (a) alkoxysilane groups and/or (b) silanol-functional groups; (ii) alcohol and/or water; and (iii) a tetraalkoxysilane, oligomers thereof, lithium silicate, sodium silicate, potassium silicate, silica, or combinations thereof.

A coating composition is disclosed comprising: (i) a non-zwitterionic compound comprising sulfonate-functional groups and (a) alkoxysilane groups and/or (b) silanol-functional groups; (ii) alcohol and/or water; and (iii) a tetraalkoxysilane, oligomers thereof, lithium silicate, sodium silicate, potassium silicate, silica, or combinations thereof.

A method of making a liquid coating, the method comprising the steps of a) sorting and grouping compatible solvents and resins based on at least one of the following: sheen, color, density and gloss level to form an intermediate pulp; b) mixing alkyds and solvents with intermediate pulp to form a mixture; c) blending the mixture at an approximate speed of 1600 rpm; d) adding one or more of the following: pigment, solvent or alkyds to the mixture; and e) blending and filtering the mixture to form the homogenous liquid coating. The liquid coating includes a gloss alkyd enamel, an alkyd stain, a matte alkyd enamel, an anti-corrosive red oxide matte primer, an alkyd enamel having a semi-gloss/satin/egg-shell finish, a bitumen primer, a bitumen emulsion, an extra durable bitumen emulsion SBR, and a bitumen mastics (putty).

A method of making a liquid coating, the method comprising the steps of a) sorting and grouping compatible solvents and resins based on at least one of the following: sheen, color, density and gloss level to form an intermediate pulp; b) mixing alkyds and solvents with intermediate pulp to form a mixture; c) blending the mixture at an approximate speed of 1600 rpm; d) adding one or more of the following: pigment, solvent or alkyds to the mixture; and e) blending and filtering the mixture to form the homogenous liquid coating. The liquid coating includes a gloss alkyd enamel, an alkyd stain, a matte alkyd enamel, an anti-corrosive red oxide matte primer, an alkyd enamel having a semi-gloss/satin/egg-shell finish, a bitumen primer, a bitumen emulsion, an extra durable bitumen emulsion SBR, and a bitumen mastics (putty).

The present disclosure provides a composite structure and associated method for preparing a composite substrate comprising an inorganic coating that is adhered to an organic-based substrate via an adhesion promoting agent comprising a molecule having a urea moiety at one end of the molecule and an alkoxysilane moiety at the other end of the molecule. The use of adhesion promoting agent having at least one of an amine or imine moiety and an alkoxysilane moiety promotes tight adhesion of the inorganic coating to the substrate.

The present disclosure provides a composite structure and associated method for preparing a composite substrate comprising an inorganic coating that is adhered to an organic-based substrate via an adhesion promoting agent comprising a molecule having a urea moiety at one end of the molecule and an alkoxysilane moiety at the other end of the molecule. The use of adhesion promoting agent having at least one of an amine or imine moiety and an alkoxysilane moiety promotes tight adhesion of the inorganic coating to the substrate.

The present invention discloses compositions and materials for providing protection against heat and fire. More particularly, the present invention discloses thermal insulating and fire protecting materials and products and processes of developing the same. The materials of the present invention provide excellent insulation even above 500 C. without being degraded or change in shape.

The present invention discloses compositions and materials for providing protection against heat and fire. More particularly, the present invention discloses thermal insulating and fire protecting materials and products and processes of developing the same. The materials of the present invention provide excellent insulation even above 500 C. without being degraded or change in shape.

A durable coating composition includes a silicate binder, a filler, and a crosslinking agent. The coating composition can reduce ice adherence and minimize ice accumulation through inclusion of a film forming lubricant. Articles and overhead conductors coated with such coating compositions are also disclosed.