Cement-SCM blends employ particle packing principles to increase particle packing density and reduce interstitial spacing between the cement and SCM particles. Particle packing reduces the amount of water required to obtain a cement paste having a desired flow, lowers the water-cementitious material
Cement-SCM blends employ particle packing principles to increase particle packing density and reduce interstitial spacing between the cement and SCM particles. Particle packing reduces the amount of water required to obtain a cement paste having a desired flow, lowers the water-cementitious material ratio (w/cm), and increases early and long-term strengths. This may be accomplished by providing a hydraulic cement fraction having a narrow PSD and at least one SCM fraction having a mean particle size that differs from the mean particle size of the narrow PSD cement by a multiple of 3.0 or more to yield a cement-SCM blend having a particle packing density of at least 57.0%.
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1. A cement-SCM blend comprising: a hydraulic cement fraction having a median particle size; andat least one supplementary cementitious material (SCM) fraction having a median particle size that differs from the median particle size of the hydraulic cement fraction in order for the cement-SCM blend,
1. A cement-SCM blend comprising: a hydraulic cement fraction having a median particle size; andat least one supplementary cementitious material (SCM) fraction having a median particle size that differs from the median particle size of the hydraulic cement fraction in order for the cement-SCM blend, when initially mixed with water, to form a cement paste having a maximum particle packing density of at least 57.0%. 2. A cement-SCM blend as in claim 1, wherein the cement-SCM blend, when initially mixed with water, forms a cement paste having a maximum particle packing density of at least about 60%. 3. A cement-SCM blend as in claim 1, wherein the cement-SCM blend, when initially mixed with water, forms a cement paste having a maximum particle packing density of at least about 62.5%. 4. A cement-SCM blend as in claim 1, wherein the cement-SCM blend, when initially mixed with water, forms a cement paste having a maximum particle packing density of at least about 65%. 5. A cement-SCM blend as in claim 1, wherein the cement-SCM blend, when initially mixed with water, forms a cement paste having a maximum particle packing density of at least about 70%. 6. A cement-SCM blend as in claim 1, wherein the cement-SCM blend comprises a fine SCM fraction having a median particle size and a coarse SCM fraction having a median particle size and that is processed separately from the fine SCM fraction, the median particle size of the coarse SCM fraction being at least about 3 times the median particle size of the hydraulic cement fraction and/or the median particle size of the hydraulic cement fraction being at least about 3 times the median particle size of the fine SCM fraction. 7. A cement-SCM blend as in claim 6, wherein the median particle size of the hydraulic cement fraction is at least about 3.5 times the median particle size of the fine SCM fraction and/or the median particle size of the second SCM fraction is at least 3.5 times the median particle size of the hydraulic cement fraction. 8. A cement-SCM blend as in claim 6, wherein the median particle size of the hydraulic cement fraction is at least about 4 times the median particle size of the fine SCM fraction and/or the median particle size of the second SCM fraction is at least 4 times the median particle size of the hydraulic cement fraction. 9. A cement-SCM blend as in claim 6, wherein the cement-SCM blend further comprises a third SCM fraction having a median particle size that is at least about 3 times the median particle size of the second SCM fraction. 10. A cement-SCM blend as in claim 1, wherein the hydraulic cement and the at least one SCM fraction are processed and blended without intergrinding. 11. A cement-SCM blend as in claim 1, wherein: the hydraulic cement fraction has a d85 in a range of about 8 μm to about 35 μm and a d15 in a range of about 1.0 μm to about 15 μm;the at least one SCM fraction includes a coarse SCM having a d85 in a range of about 30 μm to about 300 μm. 12. A cement-SCM blend as in claim 11, wherein the at least one SCM fraction further includes a fine SCM fraction processed separately from the coarse SCM and having a d85 in a range of about 1 μm to about 18 μm. 13. A cement-SCM blend as in claim 11, wherein the coarse SCM fraction has a d15 in a range of about 8 μm to about 50 μm. 14. A cement-SCM blend as in claim 11, wherein the at least one SCM fraction further includes a second coarse SCM fraction processed separately from the coarse SCM fraction and having a median particle size greater than the median particle size of the coarse SCM fraction. 15. A cementitious composition comprising mixture products of: a hydraulic cement fraction having a median particle size;at least one supplementary cementitious material (SCM) fraction having a median particle size that differs from the median particle size of the hydraulic cement fraction in order for the cement-SCM blend, when initially mixed with water, to form a cement paste having a maximum particle packing density of at least 57.0%; andat least one of fine aggregate, coarse aggregate, water, or chemical admixture. 16. A cementitious composition as in claim 15, wherein the cementitious composition comprises freshly mixed or hardened concrete made using water. 17. A cementitious composition as in claim 15, wherein the cementitious composition comprises a dry blend comprising the hydraulic cement, the at least one SCM fraction, a fine aggregate, and optionally a coarse aggregate. 18. A method of manufacturing a cement-SCM blend comprising: providing a hydraulic cement characterized by a median particle size;blending the hydraulic cement with at least one supplementary cementitious material (SCM) having a median particle size that differs from the median particle size of the hydraulic cement in order for the cement-SCM blend, when initially mixed with water, to form a cement paste having a maximum particle packing density of at least 57.0%. 19. A method as in claim 11, wherein the hydraulic cement is processed using at least one of a vertical roller mill, high pressure grinding roll, or ball mill. 20. A method as in claim 18, further comprising blending at least one of a fine aggregate, coarse aggregate, water, or chemical admixture with the hydraulic cement and the at least one SCM.
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