Bukowski, J. et al., “Reactivity and Strength Development of CO2 Activated Non-Hydraulic Calcium Silicates,” Cem. Concr. Res., vol. 9, pp. 57-68 (1979). |
{haeck over (S)}auman, Z., “Effect of CO2 on Porous Concrete,” Cem. Concr. Res., vol. 2, pp. 541-549 (1972). |
Ota, Y. et al., “Preparation of Aragonite Whiskers,” J. Am. Ceram. Soc., vol. 78, 1983-1984 (1995). |
Bukowski, J. et al., Reactivity and Strength Development of CO2 Activated Non-Hydraulic Calcium Silicates, Cement and Concrete Research, vol. 9, pp. 57-68 (1979). |
Letter from Roger H. Jones, Jr. to Tom Peck II (Oct. 29, 1996). |
Klemm, W. et al., “Accelerated Curing of Cementatious Systems by Carbon Dioxide,” Cem. Concrete Res., v. 2(5), pp. 567-576 (1972). |
Knopf, F. et al., “Densification and pH Reduction in Cement Mixtures Using Supercritical CO2,” Abstract of paper presented at 1997 annual meeting of the American Institute of Chemical Engineers, available on the Internet in Jul. 1997 at http://www1.che.ufl.edu/meeting/1997/annual/session/100/h/index.html. |
Onan, D., “Effects of Supercritical Carbon Dioxide on Well Cements,” Proc. Annu. Southwest. Pet. Short Courts, 32nd, pp. 34-56 (1985). |
Reardon, E. et al., “High Pressure Carbonation of Cementitious Grout,” Cement and Concrete Research, vol. 19, pp. 385-399 (1989). |
Bernard, A. et al., “Treatment of Cement Products with Carbon Dioxide,” Comm. a l'Energie Atomique Fr., 5 pages (1969) Abstract. |
Dewaele, P. et al., “Permeability and Porosity Changes Associated with Cement Grout Carbonation,” Cem. Concr. Res., v. 21(4), pp. 441-454 (1991) Abstract. |
Ohgishi, S. et al., “Relation Between the Accelerated Test Results and Natural Progres for Carbonation in Concrete,” Semento, Konkurito Ronbunshu, v. 44, pp. 454-459 (1990) Abstract. |
Simatupang, M., “The Carbon Dioxide Process to Enhance Cement Hydration in Manufacturing of Cement-bonded Composites—Comparison with Common Production Method,” Inorg. -Bonded Wood Fiber Compos. Mater., v. 3, pp. 114-120 (1993) Abstract. |
Sorochkin, M. et al., “Possible Use of Carbon Dioxide to Accelerate the Hardening of Portland Cement Based Products,” Zh. Prikl. Khim., v. 48(6), pp.1211-1217 (1975) Abstract. |
Dewaele, P.J. et al., “Permeability and Porosity Changes Associated with Cement Grout Carbonation,” Cement and Concrete Research, v. 21, pp. 441-454 (1991). |
Simatupang et al., “The Carbon Dioxide Process to Enhance Cement Hydration in Manufacturing of Cement-Bonded Composites—Comparison With Common Production Method,” Inorganic Bonded Wood Fiber Compos. Mater., v. 3, pp. 114-120 (1993). |