Sizing compositions, sized reinforcing products and methods for making reinforced thermoset composites

What is claimed is: 1. A group of reactive fibers which can be incorporated into a polymer and fiber reinforced composite, the group of reactive fibers comprising: glass fibers sized with a sizing composition, wherein the glass fibers have not been treated with a silane compound; a polymerization initiator physically bonded to the glass fibers, wherein the polymerization initiator does not comprise a silane moiety; a polymerization catalyst; and a film former in contact with the glass fibers and the polymerization initiator, wherein: the sizing composition comprises a solution, the sizing composition comprises water, the solution comprises the polymerization initiator, the film former aids the physical bonding of the polymerization initiator to the glass fibers, the sizing composition excludes an emulsifying agent, the polymerization catalyst is configured to catalyze polymerization of a thermoset resin in the presence of the polymerization initiator, the polymerization catalyst comprises a metallic salt of a carboxylic acid, and the carboxylic acid is a C 8 to C 12 carboxylic acid. 2. The group of reactive fibers of claim 1 , wherein the polymerization initiator comprises one or more of an azonitrile, an alkyl peroxide, an acyl peroxide, a hydroperoxide, a ketone peroxide, a perester, a peracid, a peroxy carbonate, a peroxy carbamate, or a persulfate. 3. The group of reactive fibers of claim 1 , wherein the polymerization initiator comprises one or more of a peroxide, a peroxyacid ester, or a hydroperoxide. 4. The group of reactive fibers of claim 1 , wherein the polymerization initiator comprises a peroxide group. 5. The group of reactive fibers of claim 1 , wherein the polymerization initiator comprises one or more of cumyl hydroperoxide, t-butyl hydroperoxide, a MEK-peroxide, or benzoyl peroxide. 6. The group of reactive fibers of claim 1 , wherein the polymerization initiator comprises 6-hydroxy hexanoic acid or N,N-dimethyl amino phenol. 7. The group of reactive fibers of claim 1 , wherein the glass fibers further comprise one or more lubricants. 8. The group of reactive fibers of claim 7 , wherein the lubricants comprise one or more of a non-ionic surfactant, a polyethyleneimine polyamide salt, a polyvinyl pyrrolidone, an amine salt of a fatty acid, an alkyl imidazoline derivative, an acid solubilized fatty acid amide, an acid solubilized polyunsaturated fatty acid amide, a condensate of a fatty acid and a polyethylene imine, or an amide substituted polyethylene imine. 9. The group of reactive fibers of claim 1 , wherein the metallic salt comprises one or more of a cobalt salt, a manganese salt, a zirconium salt, a vanadium salt, a barium salt, a zinc salt, a calcium salt, a copper salt, a strontium salt, an iron salt, a lithium salt, or an aluminum salt. 10. The group of reactive fibers of claim 1 , wherein the carboxylic acid comprises one or more of hexanoic acid, octanoic acid, or nephthanoic acid. 11. The group of reactive fibers of claim 1 , wherein the polymerization initiator comprises benzoyl peroxide. 12. The group of reactive fibers of claim 1 , wherein the film former is selected from the group consisting of a modified vinyl acetate copolymer in a surfactant system and an N-vinyl amide polymer, wherein the surfactant system is anionic, nonionic, or a combination of anionic and nonionic. 13. The group of reactive fibers of claim 1 , wherein the film former is from about 0.1 to about 15 weight percent of the sizing composition on a total solids basis. 14. A combination of reactive fibers and a resin composition comprising: glass fibers sized with a sizing composition, wherein the glass fibers have not been treated with a silane compound; a polymerization catalyst; a polymerization initiator physically bonded to the glass fibers, wherein the polymerization initiator does not comprise a silane moiety; and the resin composition comprising one or more polymer reactants; wherein: the sizing composition comprises a solution, the sizing composition comprises water and a film former, the solution comprises the polymerization initiator, the reactive fibers comprise the film former in contact with the glass fibers and the polymerization initiator, the film former aids the physical bonding of the polymerization initiator to the glass fibers, the sizing composition excludes an emulsifying agent, the polymerization initiator is configured to initiate the polymerization of the one or more polymer reactants, the polymer reactants comprise thermosetting polymer reactants, the polymerization catalyst is configured to catalyze polymerization of a thermoset resin in the presence of the polymerization initiator, the polymerization catalyst comprises a metallic salt of a carboxylic acid, and the carboxylic acid is a C 8 to C 12 carboxylic acid. 15. The combination of the reactive fibers and the resin composition of claim 14 , wherein the thermosetting polymer reactants polymerize by free radical polymerization. 16. The combination of the reactive fibers and the resin composition of claim 14 , wherein the one or more polymer reactants comprise at least one of polyester polymer reactants, polyvinyl polymer reactants, polystyrene polymer reactants, polyamide polymer reactants, or polyacrylate polymer reactants. 17. The combination of the reactive fibers and the resin composition of claim 14 , wherein the polymerization initiator comprises one or more of cumyl hydroperoxide, t-butyl hydroperoxide, a MEK-peroxide, or benzoyl peroxide. 18. The combination of the reactive fibers and the resin composition of claim 14 , wherein a ratio of polymerization initiator to the resin composition is from 0.5 wt. percent to 3 wt. percent. 19. The combination of the reactive fibers and the resin composition of claim 14 , wherein the polymerization initiator comprises benzoyl peroxide. 20. A group of reactive fibers which can be incorporated into a polymer and fiber reinforced composite, the group of reactive fibers comprising: glass fibers sized with a sizing composition, wherein the glass fibers have not been treated with a silane compound; a polymerization initiator physically bonded to the glass fibers, wherein the polymerization initiator does not comprise a silane moiety; a polymerization catalyst; and a film former in contact with the glass fibers and the polymerization initiator, wherein: the sizing composition comprises a solution, the sizing composition comprises water, the solution comprises the polymerization initiator, the film former aids the physical bonding of the polymerization initiator to the glass fibers, the sizing composition excludes an emulsifying agent, the polymerization catalyst is configured to catalyze polymerization of a thermoset resin in the presence of the polymerization initiator, the film former is selected from the group consisting of a modified vinyl acetate copolymer in a surfactant system and an N-vinyl amide polymer, and the surfactant system is anionic, nonionic, or a combination of anionic and nonionic.