Abstract: Two-component polycarbonate-based composite products are contemplated in which the composite is formed as the cured reaction product of a polycarbonate polyurethane dispersed within an aqueous colloid along with a coalescent agent, a secondary polymer additive dispersed within the aqueous colloid, and a secondary polymer crosslinker. The aqueous colloidal dispersion may be applied as a coating to a surface that is intended to be coated and subsequently permitted to react and dry, resulting in the formation of a coating at the location at which it is applied. The composite product may be further formulated with additional constituents to be optically clear, glossy, and/or pigmented.

Abstract: Two-component polycarbonate-based composite products are contemplated in which the composite is formed as the cured reaction product of a polycarbonate polyurethane dispersed within an aqueous colloid along with a coalescent agent, a secondary polymer additive dispersed within the aqueous colloid, and a secondary polymer crosslinker. The aqueous colloidal dispersion may be applied as a coating to a surface that is intended to be coated and subsequently permitted to react and dry, resulting in the formation of a coating at the location at which it is applied. The composite product may be further formulated with additional constituents to be optically clear, glossy, and/or pigmented.

Abstract: Novel polyurea siloxane coating compositions are contemplated, the compositions being the reaction products of isocyanate prepolymers and resin blends, with the resin blends containing siloxane copolymers in addition to conventional polyurea monomer and polymer resin reactants. Specifically, it has been found that reaction products having superior gloss retention, water resistance, temperature resistance, and chemical resistance may be formed from isocyanate prepolymers and resin blends having various amounts of poly[(3-aminopropyl)methylsiloxane-co-diphenylsiloxane] in addition to aromatic and/or aliphatic polyamines.

Abstract: A polyurea hybrid ballistic armor formed from novel cured reaction products of various diamines and polyester diols with isocyanate curing agents. The cured reaction product can absorb large amounts of energy from ballistic projectiles, and when various hard granular particles are embedded within the cured reaction product, a strike plate effect can be realized, allowing the polyurea hybrid ballistic armor to defeat ballistic projectiles. The polyurea hybrid ballistic armor can additionally be utilized to add additional layers of protection to existing armor systems.

Abstract: Novel polyurea prepolymer and quasi-prepolymers are contemplated, the compositions being the reaction products of various isocyanate components with various polyamine components. Isocyanate components contemplated include uretonimine-modified 4,4? methylene diphenyl diisocyanate (MDI) 4,4? MDI, 2,4? MDI, aliphatic hexamethylene diisocyanate (HDI) trimer, HDI allophanate, and aliphatic HDI biuret. Polyamine components contemplated include primary amine-terminated poly(oxypropylene), secondary isopropylamine-terminated poly(oxypropylene), tetraethyl N,N?-(methylenebis(2-methyl-4,1-cyclohexanediyl)) bisaspartate, and poly[(3-aminopropyl)methylsiloxane-co-diphenylsiloxane].

Abstract: Novel polyurea prepolymer and quasi-prepolymer compositions are contemplated, the compositions being the reaction products of an isocyanate component and a secondary diamine component. Specifically, a an isocyanate component comprising uretonimine-modified 4,4? methylene diphenyl diisocyanates are reacted with various polyamines to form prepolymers or quasi-prepolymers. The isocyanate component may additionally comprise one or more other isocyanates, including pure MDI, aliphatic HDI trimer, HDI allophanate, and aliphatic HDI biuret.

Abstract: Novel polyurea siloxane coating compositions are contemplated, the compositions being the reaction products of isocyanate prepolymers and resin blends, with the resin blends containing siloxane copolymers in addition to conventional polyurea monomer and polymer resin reactants. Specifically, it has been found that reaction products having superior gloss retention, water resistance, temperature resistance, and chemical resistance may be formed from isocyanate prepolymers and resin blends having various amounts of poly[(3-aminopropyl)methylsiloxane-co-diphenylsiloxane] in addition to aromatic and/or aliphatic polyamines.

Abstract: A polyurea hybrid ballistic armor formed from novel cured reaction products of various diamines and polyester diols with isocyanate curing agents. The cured reaction product can absorb large amounts of energy from ballistic projectiles, and when various hard granular particles are embedded within the cured reaction product, a strike plate effect can be realized, allowing the polyurea hybrid ballistic armor to defeat ballistic projectiles. The polyurea hybrid ballistic armor can additionally be utilized to add additional layers of protection to existing armor systems.