References

[1] Bentz, D.P., and Garboczi, E.J., Percolation of Phases in a Three-Dimensional Cement Paste Microstructural Model, Cement and Concrete Research, 21 (2), 325-344, 1991.

[2] Garboczi, E.J., and Bentz, D.P., Computer Simulation of the Diffusivity of Cement-Based Materials, Journal of Materials Science, 27, 2083-2092, 1992.

[3] Bentz, D.P., and Garboczi, E.J., Guide to Using HYDRA3D: A Three-Dimensional Digital-Image-Based Cement Microstructural Model, NISTIR 4746, U.S. Department of Commerce, January 1992.

[4] Bentz, D.P., Coveney, P., Garboczi, E.J., Kleyn, M., and Stutzman, P.E., Cellular Automaton Simulations of Cement Hydration and Microstructure Development, Modelling and Simulation in Materials Science and Engineering 2, 783-808 (1994).

[5] Garboczi, E.J., and Bentz, D.P., Digital Simulation of the Aggregate-Cement Paste Interfacial Zone in Concrete, Journal of Materials Research, 6 (1), 196-201, 1991.

[6] Bentz, D.P., and Garboczi, E.J., Simulation Studies of the Effects of Mineral Admixtures on the Cement Paste-Aggregate Interfacial Zone, ACI Materials Journal, 88 (5) 518-529, 1991.

[7] Hooton, R.D., Permeability and Pore Structure of Cement Pastes Containing Fly Ash, Slag, and Silica Fume, Blended Cements, STP 897, Ed. Geoffrey Frohnsdorff, ASTM, Philadelphia 1986, pp. 128-143.

[8] Zhang, M.H., and Gjorv, O.E., Microstructure of the Interfacial Zone between Lightweight Aggregate and Cement Paste, Cement and Concrete Research, 20, 610-618, 1990.

[9] Fagerlund, G., Frost Resistance of Concrete with Porous Aggregate, Report of the Cement and Concrete Institute in Sweden, 1978.

[10] Berger, R.L., Properties of Concrete with Cement Clinker Aggregate, Cement and Concrete Research, 4, 99-112, 1974.

[11] Yang, S. et al A New Method for Enhancing Cement-Aggregate Interfaces I. Ideal Aggregate and Its Effects on Interfacial Microstructures, Cement and Concrete Research, 22, 612-620, 1992.

[12] Stauffer, D., Introduction to Percolation Theory (Francis and Taylor, London, 1985).

[13] Zallen, R., The Physics of Amorphous Solids (Wiley, New York, 1983), Ch. 4.

[14] Torquato, S., Journal of Chemical Physics, 81, 5079, 1984.

[15] Winslow, D.N., Cohen, M.D., Bentz, D.P., Garboczi, E.J., and Snyder, K.A., Percolation and Pore Structure in Mortars and Concrete, Cement and Concrete Research 24, 25-37 (1994).

[16] Lewis, J.A., Boyer, M., and Bentz, D.P., Binder Distribution in Macro-Defect-Free Cement: Relation Between Percolative Properties and Moisture Absorption Kinetics, *** submitted to Journal of the American Ceramic Society.

[17] van Brakel, J. (ed.), A Special Issue Devoted to Mercury Porosimetry, Powder Technology, 29, 1-209, 1981.

[18] Garboczi, E.J., and Bentz, D.P., Digitized Simulation of Mercury Intrusion Porosimetry, Advances in Cementitious Materials, Ceramic Transactions, 16, 365-379, 1992.

[19] Katz, A.J., and Thompson, A.H., Physical Review B, 34, 8179, 1986; and Journal of Geophysics Research, 92, 599, 1987.