Manufactured natural pozzolan, improved manufactured natural pozzolan-based cement and method of making and using same

1 . (canceled) 2 . A product comprising: a first mineral in particulate form having a volume-based average particle size of approximately 15 to approximately 60 μm and having a first pozzolanic reactivity, wherein the first mineral comprises: approximately 45% to approximately 55% by weight SiO 2 , approximately 5% to approximately 15% Al 2 O 3 , approximately 5% to approximately 20% Fe 2 O 3 and approximately 1% to approximately 20% CaO; and an amorphous content of less than or equal to 25% by weight and approximately 5% to approximately 60% by weight Plagioclase Feldspar; and a second mineral in particulate form having a volume-based average particle size of approximately 0.1 to approximately 10 μm and having a second pozzolanic reactivity greater than the first pozzolanic reactivity, wherein the second mineral comprises: an amorphous micro or nano silica with a minimum of approximately 75% by weight glass or amorphous content; and approximately 50% to approximately 80% SiO 2 , approximately 5% to approximately 45% Al 2 O 3 , approximately 5% to approximately 20% Fe 2 O 3 , and approximately 1% to approximately 20% CaO. 3 . The product of claim 2 , wherein the second mineral comprises pumice. 4 . The product of claim 2 , wherein the second mineral comprises perlite. 5 . The product of claim 2 , wherein the second mineral comprises ground glass. 6 . The product of claim 2 further comprising a hydraulic cement. 7 . The product of claim 6 , wherein the hydraulic cement is portland cement. 8 . The product of claim 2 , wherein the first mineral has a reactivity of less than 100% as measured by ASTM C-618. 9 . The product of claim 2 , wherein the second mineral has a reactivity of greater than 100% as measured by ASTM C-618. 10 . A product comprising: a first mineral in particulate form having a volume-based average particle size of approximately 15 to approximately 60 μm and having a first pozzolanic reactivity, wherein the first mineral comprises: a crystalline or amorphous mineral aggregate comprising less than or equal to 25% by weight glass or amorphous content, approximately 5% to approximately 60% by weight Plagioclase Feldspar, 0% to approximately 40% by weight Clinopyroxene, 0% to approximately 30% by weight Amphibole, 0% to approximately 30% by weight other minerals with a minimum of 45% by weight silicon dioxide (SiO 2 ); and a second mineral in particulate form having a volume-based average particle size of approximately 0.1 to approximately 10 μm and having a second pozzolanic reactivity greater than the first pozzolanic reactivity, wherein the second mineral comprises: an amorphous micro or nano silica with a minimum of approximately 75% by weight glass or amorphous content; and approximately 50% to approximately 80% SiO 2 , approximately 5% to approximately 45% Al 2 O 3 , approximately 5% to approximately 20% Fe 2 O 3 , and approximately 1% to approximately 20% CaO. 11 . The product of claim 10 , wherein the second mineral comprises pumice. 12 . The product of claim 10 , wherein the second mineral comprises perlite. 13 . The product of claim 10 , wherein the second mineral comprises ground glass. 14 . The product of claim 10 further comprising a hydraulic cement. 15 . The product of claim 14 , wherein the hydraulic cement is portland cement. 16 . The product of claim 10 , wherein the first mineral has a reactivity of less than 100% as measured by ASTM C-618. 17 . The product of claim 10 , wherein the second mineral has a reactivity of greater than 100% as measured by ASTM C-618. 18 . A method comprising: combining a first and a second mineral; the first mineral in particulate form having a volume-based average particle size of approximately 15 to approximately 60 μm and having a first pozzolanic reactivity, wherein the first mineral comprises: approximately 45% to approximately 55% by weight SiO 2 , approximately 5% to approximately 15% Al 2 O 3 , approximately 5% to approximately 20% Fe 2 O 3 and approximately 1% to approximately 20% CaO; and an amorphous content of less than or equal to 25% by weight and approximately 5% to approximately 60% by weight Plagioclase Feldspar; and the second mineral in particulate form having a volume-based average particle size of approximately 0.1 to approximately 10 μm and having a second pozzolanic reactivity greater than the first pozzolanic reactivity, wherein the second mineral comprises: an amorphous micro or nano silica with a minimum of approximately 75% by weight glass or amorphous content; and approximately 50% to approximately 80% SiO 2 , approximately 5% to approximately 45% Al 2 O 3 , approximately 5% to approximately 20% Fe 2 O 3 , and approximately 1% to approximately 20% CaO. 19 . The method of claim 18 , wherein the second mineral is pumice, perlite or ground glass. 20 . The method of claim 18 , wherein the first mineral has a pozzolanic reactivity of less than 100% as measured by ASTM C-618 and the second mineral has a pozzolanic reactivity of greater than 100% as measured by ASTM C-618. 21 . The method of claim 18 further comprising combining the first and second minerals with a hydraulic cement.