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E.J. Garboczi and D.P. Bentz
National Institute of Standards and Technology
Building Materials Division, 226/B350, Gaithersburg, MD 20899
L.M. Schwartz
Schlumberger-Doll Research, Old Quarry Road
Ridgefield CT 06877-4108
The interfacial zone separating cement paste and aggregate in mortar and concrete is believed
to influence many of the properties of these composites. The available experimental evidence,
obtained on artificial geometries, indicates that the D.C. electrical conductivity of the interfacial
zone, because of its higher porosity, may be considerably larger than that of the bulk cement paste
matrix. This paper presents the theoretical framework for quantitatively understanding the
influence of the interfacial zone on the overall electrical conductivity of mortar, based on realistic
random aggregate geometries. This understanding is also used, via an electrical analogy with
Darcy's law, to make predictions about the effect of the interfacial zone on fluid permeability as
well. The results obtained for mortar should also pertain to concrete.