Modelling the influence of the interfacial zone on the D.C. electrical conductivity of mortar- References

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References

1: Garboczi, E.J. Cem. and Conc. Res. 1990, 20, 591-601.
2: Atkinson, A.; Nickerson, A.K. J. Mater. Sci. 1984, 19, 3068-3078.
3: Taylor, H.F.W. Cement Chemistry; Academic Press: San Diego, 1990.
4: Garboczi, E.J.; Bentz, D.P., "Computer Simulation of the Diffusivity of Cement-Based Materials," J. Mater. Sci. 1992, 27, 2083-2092.
5: Coverdale, R.T.; Christensen, B.J.; Mason, T.O.; Jennings, H.M.; Bentz, D.P.; Garboczi, E.J., "Interpretation of the impedance spectroscopy of cement paste via computer modelling. Part I: Bulk conductivity and offset resistance," J. of Materials Science 30, 712-719 (1995).
6: Whittington, H.W.; McCarter, J.; Forde, M.C. Mag. of Conc. Res. 1981, 33, 48-60.
7: Coverdale, R.T.; Christensen, B.J.; Mason, T.O.; Jennings, H.M.; Garboczi, E.J., "Interpretation of the Impedance Spectroscopy of Cement Paste via Computer Modeling. II: Dielectric Response," J. of Materials Science. 1994, 29, 4984-4992.
8: Christensen, B.J.; Mason, T.O.; Jennings, H.M.; Bentz, D.P.; Garboczi, E.J., "Experimental and Computer Simulation Results for the DC Electrical Conductivity of Portland Cement Paste," MRS Soc. Symp. Proc. Vol. 245. 1992, pp. 259-264.
9: Olson, R.A.; Christensen, B.J.; Coverdale, R.T.; Ford, S.J.; Jennings, H.M.; Mason, T.O.; Garboczi, E.J., "Interpretation of the impedance spectroscopy of cement paste via computer modelling III: Microstructural analysis of frozen cement paste," J. Mater. Sci. 30, 5078-5086 (1995).
10: Ping, X.; Tang, M. Il Cimento. 1988, 85, 33-41.
11: Ping, X.; Beaudoin, J.J.; Brousseau, R. Cem. and Conc. Res. 1991, 21, 515-522.
12: Bretton, D.; Ollivier, J.-P.; Ballivy, G. In Interfaces in Cementitious Materials (E. and F.N. Spon, London, 1993), pp. 269-278.
13: Garboczi, E.J. Materials and Structures. 1993, 26, 191-195.
14: Mindess, S.; Young, J.F. Concrete; Prentice-Hall, Englewood Cliffs, NJ, 1981.
15: Winslow, D.N.; Cohen, M.; Bentz, D.P.; Snyder, K.A.; Garboczi, E.J., "Percolation and pore structure in mortars and concrete," Cem. and Conc. Res. 1994, 24, 25-37.
16: Goldman, A.; Bentur, A. Cem. and Conc. Res. 1993, 23, 962-972.
17: Cohen, M.D.; Goldman, A.; Chen, W.-F. Cem. and Conc. Res. 1994, 24, 95-98.
18: Nilsen, A.U.; Monteiro, P.J.M. Cem. and Conc. Res. 1993, 23, 147-151.
19: Scrivener, K.L. "The Microstructure of Concrete," in Materials Science of Concrete I, American Ceramic Society, Westerville, Ohio, 1989.
20: Barnes, B.D.; Diamond, S.; Dolch, W.L. J. Amer. Ceram. Soc. 1979, 62, 21-24.
21: Bentz, D.P.; Garboczi, E.J.; Stutzman, P.E., "Computer Modelling of the Interfacial Transition Zone in Concrete," In Interfaces in Cementitious Materials, E. and. F.N. Spon, London, 1993, 107-116.
22: Young, J.F. In ACI SP-108 Permeability of Concrete, ed. David Whiting and Arthur Hall, American Concrete Institute, Detroit, 1988, 1-18.
23: Houst, Y.F.; Sadouki, H.; Wittmann, F.H. In Interfaces in Cementitious Composites, ed. J. Maso, E and F.N. Spon, London, 1993, 279-288.
24: Bentz, D.P.; Schlangen, E.; Garboczi, E.J. In Materials Science of Concrete IV, ed. J. Skalny, Amer. Ceram. Soc., Westerville, Ohio, 1995.
25: Rashed, A.I.; Williamson, R.B. J. Mater. Res. 1991, 6, 2004-2012.
26: Zhang, M.H.; Gjorv, O.E. Cem. and Conc. Res. 1990, 20, 610-618.
27: De La Rue, R.E.; Tobias, C.W. J. Electrochemical Soc. 1959, 106, 827-833.
28: E.J. Garboczi and D.P. Bentz, "The effect of the interfacial trnasition zone on concrete properties: The dilute limit," November, 1996 Proceedings of the ASCE 4th Materials Conference, Washington, D.C.
29: Bourdette, B.; Ringot, E.; Ollivier, J.-P. "Modelling of the transition zone porosity," Cem. and Conc. Res. 25, 741-751 (1995).
30: Halperin, W.P.; Jehng, J.-Y.; Song, Y.-Q. Mag. Res. Imag. 1994, 12, 169-173.
31: Bhattacharja, S.; Moukwa, M.; D'Orazio, F.; Jehng, J.-Y.; Halperin, W.P. J. Adv. Cem. Based Mater. 1993, 1, 67-76.
32: Kittel, C. Introduction to Solid State Physics, 5th Edition; J. Wiley and Sons, New York, 1976, 13-16.
33: E.J. Garboczi, Manual for Finite Element and Finite Difference Programs for Computing the Linear Electric and Elastic Properties of Digital Images of Random Materials, NISTIR 6269 (1997).
34: Douglas, J.F.; Garboczi, E.J. "Intrinsic viscosity and polarizabilities of particles having a wide range of shapes," Adv. in Chem. Phys 91, 85-153 (1995).
35: Schwartz, L.M.; Banavar, J.R. Phys. Rev. B. 1989, 39, 11965-11971.
36: Kim, I.C.; Torquato, S. Phys. Rev. A. 1991, 43, 3198-3201.
37: Hong, D.C.; Stanley, H.E.; Conoglio, A.; Bunde, A. Phys. Rev. B. 1986, 33, 4564-4573.
38: Schwartz, L.M.; Garboczi, E.J.; Bentz, D.P. "Interfacial transport in porous media: Application to D.C. electrical conductivity of mortars", J. Appl. Phys. 78, 5898-5908 (1995).
39: Sen, P.N.; Scala, C.; Cohen, M.H. Geophys. 1981, 46, 781-795.
40: Wong, P.Z. Physics Today. 1988, 41, 24-35.
41: Bender, C.M.; Orszag, S.A. Advanced Mathematical Methods for Scientists and Engineers; McGraw-Hill, New York, 1978.
42: Johnson, D.L.; Plona, T.J.; Kojima, H. In Physics and Chemistry of Porous Media II (Ridgefield, 1986), AIP Conference Proceedings No. 154, edited by J. Banavar, J. Koplik, and K. W. Winkler, American Institute of Physics, New York, 1986; Schwartz, L.M.; Sen, P.N.; Johnson, D.L. Phys. Rev. B. 1989, 40, 2450-2459.
43: Torquato, S. Appl. Mech. Rev. 1991, 44, 37-76.
44: Hashin, Z. J. Appl. Mech. 1983, 50, 481-505.
45: Halamickova, P.; Detwiler, R.J.; Bentz, D.P.; Garboczi, E.J. "Water permeability and chloride ion diffusion in portland cement mortars: Relationship to sand content and critical pore diameter." Cem. and Conc. Res. 25, 790-802 (1995).
46: Christensen, B.J.; Mason, T.O.; Jennings, H.M. J. Amer. Ceram. Soc. 1992, 75, 939-945.
47: Martys, N.; Bentz, D.P.; Garboczi, E.J. Physics of Fluids A. 1994, 6, 1434-1439.
48: Katz, A.J.; Thompson, A.H. J. of Geophys. Res. 1987, 92, 599-607.
49: Christensen, B.J. Ph.D. thesis, Dept. of Mater. Sci. and Eng., Northwestern University, 1993.
50: Christensen, B.J.; Coverdale, R.T.; Olson, R.A.; Ford, S.J.; Garboczi, E.J.; Jennings, H.M.; Mason, T.O. J. Amer. Ceram. Soc. 1994, 77, 2789-2804.
51: El-Dieb, A.; Hooton, R.D. Cem. and Conc. Res. 1994, 24, 443-450.
52: D.P. Bentz, E.J. Garboczi, and E.S. Lagergren, "Multi-scale microstructural modellling of concrete diffusivity: Identification of significant variables," ASTM Cement and Aggregates 1998, 20 (1), 129-139.
53: E.J. Garboczi and D.P. Bentz, "Multi-scale analytical/numerical theory of the diffusivity of concrete," J. Adv. Cem.-Based Mater. 1998, 8, 77-88.
54: Neubauer, C.M.; Jennings, H.M.; Garboczi, E.J., "A three-phase model of the elastic and shrinkage properties of mortar," Adv. Cem.-Based Mater. 4, 6-20 (1996).
55: Herve, E.; Zaoui, A. Int. J. Eng. Sci. 1993, 31, 1-10.
56: Iske, P.L.; Sterk, N.K.J.; Oortwijn, J. Physica A. 1994, 209, 96-128.

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