68             Chapter 2 - Introduction to Portland Cement Concrete


                               13. Beaudoin, J. J., and Ramachandran, V. S., Physico-Chemical Character-
                                   istics of Low Porosity Cement Systems, Ch. 8, Materials Science of
                                   Concrete, (J. Skalny, ed.), 3(8):362, American Ceramic Society (1992)
                               14. Raffle, J. F., The Physics and Chemistry of Cements and Concretes, Sci.
                                   Prog., Oxf., 64:593–616 (1977)
                               15. Diamond, S.,  Cement Paste Microstructure - An Overview at Several
                                   Levels in Hydraulic Cement Pastes-Their Structure and Properties,
                                   Conference, University of Sheffield, p. 334 (1976)
                               16. Ramachandran, V. S., Feldman, R. F., and Beaudoin, J. J., Concrete
                                   Science, A Treatise on Current Research, p. 334, Heyden & Son Ltd., UK
                                   (1981)
                               17. Beaudoin, J. J., Porosity Measurements of Some Hydrated Cementituous
                                   Systems by High Pressure Mercury Intrusion - Microstructural Limitations,
                                   Cem. Concr. Res., 9:771–781 (1979)
                               18. Mikhail, R. S., and Selun, S. A., Adsorption of Organic Vapors in Relation
                                   to the Pore Structure of Hardened Portland Cement Pastes, Symposium on
                                   Structure of Portland Cement Paste and Concrete, Special Report 90,
                                   HRB:123–134 (1966)
                               19. Ryshkewitch, E., Compression Strength of Porous Sintered Alumina and
                                   Zirconia, J. Amer. Ceram. Soc., 36:65–68 (1953)
                               20. Schiller, K. K., Strength of Porous Materials, Cem. Concr. Res., 1:419–
                                   422 (1971)
                               21. Blaine, R. L., Arni, H. T., and Defore, M. R., Interaction Between Cement
                                   and Concrete Properties, Building Science Series 8,  Natl. Bur. Stand.,
                                   Washington, DC (1968)
                               22. Odler, I., Strength of Cement, Materials & Structures, 24:143–157 (1991)
                               23. Verbeck, G., and Helmuth, R. A., Structures and Physical Properties of
                                   Cement Pastes, Proc. 5th. Int. Symp. Chem. of Cement, Tokyo, III:1–31
                                   (1968)
                               24. Feldman, R. F., and Sereda, P. J., The New Model for Hydrated Portland
                                   Cement and Its Practical Implications, Eng. J., 53:53–57 (1970)
                               25. Garboczi, E. J., and Bentz, D. P., Fundamental Computer-Based Models of
                                   Cement-Based Materias, Materials Science of Concrete, (J. Skalny, and S.
                                   Mindess, eds.), American Ceramics Society, Westerville, OH (1991)
                               26. Garboczi, E. J., and Bentz, D. P., Computer-Based Models of the
                                                                                          th
                                   Microstructure and Properties of Cement-Based Materials, Proc. 9  Int.
                                   Congress on Cement Chemistry, New Delhi, VI:3–15 (1992)
                               27. Coverdale, R. T., and Jennings, H. M., Computer Modelling of Microstruture
                                                                  th
                                   of Cement Based Materials, Proc. 9  Int. Congress on Chemistry of
                                   Cement, New Delhi, India, pp. 16–21 (1992)