Boron doped cement and concrete

We claim: 1 . A concrete composition comprising: a cement paste, a fine aggregate, a coarse aggregate, and an admixture, wherein the admixture is selected from a mineral admixture and a liquid admixture, wherein the mineral admixture, the liquid admixture, or both comprise boron particles, wherein the boron particles comprise a boron compound, wherein the boron particles are dispersed homogeneously in the concrete composition, wherein the boron compound is one of the following: 1) an organoboron compound; 2) a borate ester or their hydrated form; or 3) an ionic borohydride. 2 . The concrete composition of claim 1 , wherein the admixture is the mineral admixture, wherein the mineral admixture comprises the boron particles. 3 . The concrete composition of claim 1 , wherein the admixture is the liquid admixture, wherein the liquid admixture comprises the boron particles. 4 . The concrete composition of claim 1 , wherein the fine aggregate includes fine aggregate particles, wherein the boron particles comprise a coating for the fine aggregate particles, wherein the fine aggregate particles are selected from the group consisting of: natural or synthetic sand, crushed stone, and gravel; wherein the coarse aggregate includes coarse aggregate particles, wherein the boron particles comprise a coating for the coarse aggregate particles, wherein the coarse aggregate particles are selected from the group consisting of: natural or synthetic sand, crushed stone, and gravel. 5 . The concrete composition of claim 4 , wherein the coating for the fine aggregate particles, the coating for the coarse aggregate particles, or both, reduces radiation-induced volumetric expansion of the one or more types of the fine aggregate particles and the coarse aggregate particles relative to concrete that does not include the coating. 6 . The concrete composition of claim 1 , wherein the boron content in the concrete composition is about 0.5-80 kg/m 3 . 7 . The concrete composition of claim 6 , wherein a 10 B abundance percentage in the boron compound is greater than the natural abundance of about 20 percent. 8 . The concrete composition of claim 6 , wherein the inclusion of the boron compound does not reduce concrete workability by more than 10% as measured by a slump cone in accordance with ASTM C143 relative to otherwise identical composition without the boron compound. 9 . The concrete composition of claim 6 , wherein the inclusion of the boron compound does not increase concrete initial or final setting times by more than 5% as measured by a penetration resistance in accordance with ASTM C403 relative to otherwise identical composition without the boron compound. 10 . The concrete composition of claim 6 , wherein the inclusion of the boron compound does not reduce concrete compressive strength by more than 20% as measured on cylindrical concrete specimens in accordance with ASTM C39 relative to otherwise identical composition without the boron compound. 11 . A concrete composition comprising: a cement paste, a fine aggregate, and a coarse aggregate, wherein the cement paste includes homogeneously dispersed cement particles, water, and boron particles, wherein the boron particles comprise a boron compound, wherein the boron particles have a largest least dimension of about 1 micron to 100 microns, wherein the boron particles are dispersed homogeneously in the cement paste, wherein the boron content in the cement paste is about 0.5-80 kg/m 3 , wherein the boron compound is one of the following: 1) an organoboron compound; 2) a borate ester or their hydrated form; or 3) an ionic borohydride. 12 . The concrete composition of claim 11 , wherein the fine aggregate includes fine aggregate particles, wherein the boron particles comprise a coating for the fine aggregate particles, wherein the fine aggregate particles are selected from the group consisting of: natural or synthetic sand, crushed stone, and gravel; wherein the coarse aggregate includes coarse aggregate particles, wherein the boron particles comprise a coating the coarse aggregate particles, wherein the coarse aggregate particles are selected from the group consisting of: natural or synthetic sand, crushed stone, and gravel. 13 . The concrete composition of claim 11 , wherein a 10 B abundance percentage in the boron compound is greater than the natural abundance of about 20 percent. 14 . The concrete composition of claim 11 , wherein the cement paste including the boron compound does not increase concrete initial or final setting times by more than 5% as measured by a penetration resistance in accordance with ASTM C403 relative to otherwise identical composition without the boron compound. 15 . The concrete composition of claim 11 , wherein the cement paste including the boron compound does not reduce concrete compressive strength by more than 20% as on measured cylindrical concrete specimens in accordance with ASTM C39 relative to otherwise identical composition without the boron compound. 16 . A concrete composition comprising: fine aggregate particles and coarse aggregate particles, wherein the fine aggregate particles and coarse aggregate particles each have a neutron shielding coating comprising a boron compound, wherein the boron compound is part of boron particles that have a largest least dimension of 1 micron to 100 microns, wherein the fine aggregate particles are selected from the group consisting of: natural or synthetic sand, crushed stone, and gravel, wherein the coarse aggregate particles are selected from the group consisting of: natural or synthetic sand, crushed stone, and gravel, wherein the boron content in the concrete composition is about 0.5-80 kg/m 3 , wherein the boron compound is one of the following: 1) an organoboron compound; 2) a borate ester or their hydrated form; or 3) an ionic borohydride.