RU98120159A - COMPOSITIONS AND METHODS FOR PRODUCING ETHRINGITE-COATED FIBERS AND AGGREGATE FILLERS - Google Patents

Claims (33)

1. Mineralized composite material, representing a largely non-reactive substrate material, comprising individual substrate components having a surface and ettringite formed on at least a portion of the surface of the individual substrate components of the substrate material.  2. The mineralized composite material according to claim 1, in which ettringite covers at least about 25% of the total surface of the individual components of the substrate of the substrate material.  3. The mineralized composite material according to claim 1, in which ettringite covers at least about 50% of the total surface of the individual components of the substrate of the substrate material.  4. The mineralized composite material according to claim 1, in which ettringite covers at least about 75% of the total surface of the individual components of the substrate of the substrate material.  5. The mineralized composite material according to claim 1, in which ettringite covers at least about 100% of the total surface of the individual components of the substrate of the substrate material.  6. The mineralized composite material according to claim 1, wherein the substantially non-reactive substrate material is a fibrous material, and the individual components of the substrate are individual fibers.  7. The mineralized composite material according to claim 6, wherein the fibrous material is selected from the group consisting of cellulosic fibers, wood fibers, plant fibers, protein fibers, organic polymer fibers, ceramic fibers, carbon fibers and metal fibers.  8. The mineralized composite material of claim 6, wherein the fibrous material is polyvinyl alcohol fibers.  9. The mineralized composite material according to claim 6, wherein the fibrous material is polylactic acid fibers.  10. The mineralized composite material of claim 6, wherein the fibrous material is steel fibers.  11. The mineralized composite material according to claim 1, wherein the substantially non-reactive substrate material is an aggregate material.  12. The mineralized composite material according to claim 11, in which the aggregate material is a mineral material of natural origin.  13. The mineralized composite material according to claim 11, in which the aggregate material is a synthetic material.  14. The mineralized composite material according to claim 11, in which the aggregate material is selected from the group comprising sand, gravel, crushed stone, limestone, silica, alumina, slag, foamed clay, calcium carbonate, talc, chalk and slate.  15. Mineralized fibrous composite, representing a fibrous substrate material, including individual fibers having a surface, and ettringite formed on at least part of the surface of individual fibers of the fibrous substrate material.  16. A mineralized aggregate composite representing an aggregate substrate material, comprising individual aggregate particles having a surface, and ettringite formed on at least a portion of the surface of the individual aggregate particles of the aggregate substrate material.  17. A method for producing a mineralized composite material, comprising the following steps: mixing together a substantially non-reactive substrate material comprising separate substrate components having a surface with water and at least two chemicals that form ettringite when combined in the presence of water to form an aqueous suspension having an aqueous phase in which ettringite formed in the aqueous phase is deposited on at least a portion of the surface of the individual components of the su stratnogo material forming mineralized composite material; and isolating the mineralized composite material representing ettringite deposited on the substrate material from the aqueous suspension. 18. A method for producing a mineralized composite material according to claim 17, wherein at least two chemicals that form ettringite in the presence of water include Ca (OH) ₂ , and Al ₂ (SO ₄ ) ₃ · 18H ₂ O. 19. The method for producing the mineralized composite material according to claim 17, wherein at least two chemicals that form ettringite in the presence of water include 4CaO · 3Al ₂ O ₃ · SO ₃ and 2CaSO ₄ · 2H ₂ O. 20. The method for producing the mineralized composite material according to claim 17, wherein at least two chemicals that form ettringite in the presence of water include CaO and 2AlNH ₄ (SO ₄ ) ₂ · 12H ₂ O. 21. The method for producing the mineralized composite material according to claim 17, wherein at least two chemicals that form ettringite in the presence of water include 3CaO · Al ₂ O ₃ and CaSO ₄ .  22. A method for producing a mineralized composite material according to claim 17, wherein the substantially non-reactive substrate material is a fibrous material.  23. The method of producing the mineralized composite material according to claim 22, wherein the fibrous material in which the fibrous material is selected from the group consisting of cellulosic fibers, wood fibers, plant fibers, protein fibers, organic polymer fibers, ceramic fibers, carbon fibers and metal fibers.  24. A method of producing a mineralized composite material according to claim 17, wherein the substantially non-reactive substrate material is an aggregate material.  25. A method of obtaining a mineralized composite material according to claim 24, in which the aggregate material is a material of natural origin.  26. A method of obtaining a mineralized composite material according to claim 24, in which the aggregate material is a synthetic material.  27. A method for producing a mineralized composite material according to claim 17, wherein the mineralized composite material is isolated from the suspension by draining the aqueous phase from the aqueous suspension.  28. A method of obtaining a mineralized composite material according to claim 17, further comprising the step of washing the mineralized composite material with water. 29. A method of obtaining a mineralized composite material, comprising the steps of: preparing an aqueous suspension comprising water, a substantially non-reactive aggregate material having a surface, and Ca (OH) ₂ ; adding Al ₂ (SO ₄ ) ₃ · 18H ₂ O to the aqueous suspension to react with Ca (OH) ₂ , and thereby deposit ettringite on at least a portion of the surface of the aggregate material, to form a mineralized composite material including ettringite deposited on at least a portion of the surface of the aggregate material; and isolating the mineralized composite material from the suspension.  30. A method of producing a composite material, comprising the steps of: preparing an aqueous suspension comprising water and a substantially non-reactive aggregate material having a surface; separate mixing of at least two chemicals forming ettringite in the presence of water, thereby forming a separately prepared mixture of at least two chemicals; compounding a separately prepared mixture of at least two chemicals with an aqueous suspension to form an aqueous suspension in which ettringite forms and precipitates on at least a portion of the surface of the mineralized composite material, forming a composite material consisting of ettringite coated mineralized composite material; and isolating the composite material, representing ettringite coated mineralized composite material, from the suspension. 31. A method of producing a composite material according to claim 30, wherein at least two chemicals that form ettringite in the presence of water include 4CaO · 3Al ₂ O ₃ · SO ₃ and 2CaSO ₄ · 2H ₂ O. 32. A method for producing a composite material according to claim 30, wherein at least two chemicals that form ettringite in the presence of water include CaO and 2AlNH ₄ (SO ₄ ) ₂ · 12H ₂ O. 33. A method for producing a composite material according to claim 30, wherein at least two chemicals that form ettringite in the presence of water include 3CaO · Al ₂ O ₃ and CaSO ₄ .