Self-repairing cement polymer composites and processes of making and using same

What is claimed is: 1. A self-repairing cement-polymer composition comprising: a cement-containing material comprising at least one material selected from the group consisting of mortars: limes: limestone fines: fly ash; granulated blast furnace slags: concretes: ordinary Portland cements having fractions of inorganic oxides including calcium oxide: silicon oxide, and aluminum oxide, and combinations thereof: an unencapsulated epoxide polymer having at least one disulfide (S—S) group therein, and a crosslinking agent; all combined to form a dynamically self-repairing cement polymer matrix that reforms chemical bonds between compounds when subjected to preselected conditions. 2. The self-repairing cement-polymer composition of claim 1 further comprising a phase separation inhibitor. 3. The self-repairing cement-polymer composition of claim 2 wherein the unencapsulated epoxide polymer comprises an epoxy-terminated polysulfide polymer; the crosslinking agent is a tetra thiol; and the phase separation inhibitor is a PEO surfactant. 4. The self-repairing cement-polymer composition of claim 2 wherein the phase separation inhibitor is a polymer having at least one terminal functional group selected from the group consisting of amines; thiols; epoxides; alcohols; amides; carboxylates; carbonyls; and combinations thereof, that is reactive with the unencapsulated epoxide polymer. 5. The self-repairing cement-polymer composition of claim 4 wherein the phase separation inhibitor is selected from the group consisting of poly(ethylene glycol) diglyceryl ethers (PEO); poly(ethylene) glycols (PEG); bisphenol diglycidyl ethers (BPA); and combinations thereof. 6. The self-repairing cement-polymer composition of claim 1 wherein the unencapsulated epoxide polymer comprises an epoxide oligomer. 7. The self-repairing cement-polymer composition of claim 1 wherein the crosslinking agent includes a functional group selected from the group consisting of hydrogen; alcohol; thiol; ether; ester; amine; amide; and combinations thereof. 8. The self-repairing cement-polymer matrix of claim 1 wherein self-repair includes a process selected from the group consisting of thiol metathesis; thiolate exchange; epoxide ring opening; metal coordination; ionic coordination; Diels-Alder bonding; and combinations thereof. 9. A self-repairing cement-polymer slurry comprising: a cement containing material comprising at least one material selected from the group consisting of mortars; limes; limestone fines; fly ash; granulated blast furnace slags; concretes; ordinary portland cements having fractions of inorganic oxides including calcium oxide; silicon oxide, and aluminum oxide, and combinations thereof; an unencapsulated epoxide polymer having at least one disulfide (S—S) group therein, a crosslinking agent; and an aqueous solvent all combined to cure under preselected conditions and to form a dynamically self repairing cement polymer matrix that reforms chemical bonds between compounds when subjected to said preselected conditions. 10. The self-repairing cement-polymer slurry of claim 9 wherein self-repair includes a process selected from the group consisting of thiol metathesis; thiolate exchange; epoxide ring opening; metal coordination; ionic coordination; Diels-Alder bonding; and combinations thereof. 11. The self-repairing cement-polymer matrix of claim 9 further comprising a phase separation inhibitor. 12. The self-repairing cement-polymer slurry of claim 9 wherein the unencapsulated epoxide polymer comprises a terminal epoxide group. 13. The self-repairing cement-polymer slurry of claim 9 wherein the crosslinking agent includes a functional group selected from the group consisting of hydrogen; alcohols; thiols; ethers; esters; amines; amides; and combinations thereof. 14. The self-repairing cement-polymer composition of claim 9 wherein the phase separation inhibitor includes at least one terminal functional group reactive with the epoxide thereof selected from the group consisting of amines; thiols; epoxides; alcohols; amides; carboxylates; carbonyls; and combinations thereof. 15. The self-repairing cement-polymer composition of claim 14 wherein the phase separation inhibitor is selected from poly(ethylene glycol) diglycidyl ethers (PEO); poly(ethylene) glycols (PEG); bisphenol diglycidyl ethers (BPA); and combinations thereof. 16. The self-repairing cement-polymer composition of claim 9 wherein the unencapsulated epoxide polymer comprises an epoxy-terminated polysulfide polymer; the crosslinking agent is a tetrathiol; and the phase separation inhibitor is a PEO surfactant. 17. A cement-polymer composite-forming slurry, comprising: a cement containing material comprising at least one material selected from the group consisting of mortars; limes; limestone fines; fly ash; granulated blast furnace slags; concretes; ordinary portland cements having fractions of inorganic oxides including calcium oxide; silicon oxide, and aluminum oxide, and combinations thereof; an unencapsulated epoxide polymer having at least one disulfide (S—S) group and at least one terminal epoxide group therein; a crosslinking agent including a functional group selected from the group consisting of hydrogen; alcohol; thiol; ether; ester; amine; amide; and combinations thereof; and a phase separation inhibitor that is reactive with the unencapsulated epoxide polymer, the phase separation inhibitor selected from the group consisting of poly(ethylene glycol) diglycidyl ethers (PEO); poly(ethylene) glycols (PEG); bisphenol diglycidyl ethers (BPA); and combinations thereof; the cement containing material, the unencapsulated epoxide polymer, the crosslinking agent, and the phase separation inhibitor all combined to form a dynamically self-repairing cement polymer matrix that reforms chemical bonds between compounds using a process selected from the group consisting of thiol metathesis; thiolate exchange; epoxide ring opening; metal coordination; ionic coordination; Diels-Alder bonding; and combinations thereof when subjected to preselected conditions.