Fibers, methods for their preparation and use in the manufacture of reinforced elements

The invention claimed is: 1. A plurality of individual fiber bodies having attached to the surface of such individual fiber bodies crystallization seeds wherein the crystallization seeds are attached to the individual fiber bodies via linker moieties, wherein the crystallization seeds are attached to the individual fiber bodies via covalently bound linker moieties in the presence of comb polymer, wherein the linker moieties are selected from one or more functional groups containing an amine, amide, phosphate or phosphonate functionality, and wherein the crystallization seeds are selected from calcium silicate hydrate, ettringite, or calcium sulfate dihydrate. 2. The plurality of individual fiber bodies of claim 1 , wherein the size of the crystallization seeds is between 1 nm 10 μm. 3. The plurality of individual fiber bodies of claim 1 , wherein the fiber bodies are selected from at least one of cellulose-based fiber, mineral-based fiber, carbon, metal-based fiber, or synthetic polymer-based fiber. 4. The plurality of individual fiber bodies of claim 1 , wherein the fiber bodies are selected from polyvinylalcohol, polypropylene, cellulose, glass or mixtures thereof. 5. A method for the preparation of the plurality of individual fiber bodies of claim 1 , wherein the individual fiber body surface is modified and contacting crystallization seeds with said modified individual fiber bodies. 6. The method of claim 5 wherein the individual fiber body surface is modified by treatment with a reagent creating one or more linker moieties on the fiber surface. 7. A method for the preparation of the plurality of individual fiber bodies according to claim 5 , wherein (a) fibers are treated with a solution obtained by combining individually prepared solutions of a water-soluble calcium compound (Solution I) and a water-soluble silicate or sulfate compound (Solution II), optionally separately to a solution of a water-soluble comb polymer (Solution III) or (b) individually prepared Solution I and Solution II are added optionally separately to fibers suspended in Solution III. 8. A method comprising utilizing the plurality of individual fiber bodies of claim 1 for reinforcement of inorganic binder compositions. 9. A method for enhancement of bonding between fibers and an inorganic binder composition characterized by utilizing the plurality of individual fiber bodies according to claim 1 . 10. An inorganic binder composition, comprising, hydraulic, latent hydraulic or non-hydraulic binders and the plurality of individual fiber bodies of claim 1 . 11. The inorganic binder composition of claim 10 wherein, in said plurality of individual fiber bodies, said individual fiber bodies are separated from each other. 12. The inorganic binder composition of claim 10 , wherein said plurality of individual fiber bodies are selected from polyvinylalcohol, polypropylene, cellulose or glass. 13. The inorganic binder composition of claim 10 , wherein said composition is a cementitious material. 14. The inorganic binder composition of claim 10 , further comprising a plasticizer, water reducer, air entrainer, air detrainer, corrosion inhibitor, set accelerator, set retarder, shrinkage reducing admixture, fly ash, silica fume, or a mixture thereof. 15. A structure reinforced with the plurality of individual fiber bodies of claim 1 . 16. The structure according to claim 15 , being made of a material selected from a non-hydraulic, plaster material or hydraulic, cementitious material, mortar or concrete. 17. The structure according to claim 16 , being made of concrete. 18. A crack-resistant, high tensile strength shaped article comprising the inorganic binder composition concrete material as defined by claim 10 . 19. The plurality of individual fiber bodies of claim 1 , wherein the linker moieties are selected from one or more amphiphilic molecule containing amine, ammonium, amide, nitrate, sulfate, sulfonate, sulfonamide, carboxylate, silanol, phosphate, phosphinate or phosphonate groups. 20. The plurality of individual fiber bodies of claim 1 , wherein the size of the crystallization seeds is between 5 nm 1.5 μm. 21. The plurality of individual fiber bodies of claim 1 , wherein the size of the crystallization seeds is between 10 nm-300 nm. 22. The plurality of individual fiber bodies of claim 1 , wherein the size of the crystallization seeds is between 10 nm and 100 nm. 23. The plurality of individual fiber bodies of claim 3 , wherein the fiber bodies are selected from at least one of cotton, viscose, hemp, jute, sisal, abaca, bamboo, cellulose, regenerated cellulose, glass, mineral wool, basalt, oxide ceramic, steel, polyamide, polyester, polyvinylalcohol, aramide, polyethylene, polypropylene, polyoxymethylene, poly(vinylidene fluoride), poly(methylpentene), poly(ethylene-chlorotrifluoroethylene), poly(vinylfluoride), poly(ethyleneoxide), poly(ethyleneterephthalate), poly(butylenterephthalate) or polybutene.