Electrochemical monitoring method of the open circuit potential was used to investigate the effect of
the concentrations of Na2Cr2O7 on the corrosion potential response of steel reinforced concrete in
sodium chloride medium. In the study, five different concentrations of Na2Cr2O7 admixtures were
employed in a system of replicated samples of steel-reinforced concrete specimens partially
immersed in 3.5% NaCl to simulate marine and saline environments. Forty days measured responses
from these were subjected to the statistical analyses of the Normal and the Weibull distribution
functions and tested using the Kolmogorov-Smirnov goodness of fit criteria. Results obtained from the
analyses identified 4 g Na2Cr2O7 with optimal averaged potential response inhibition performance by
the Normal model which showed better agreements in its models of Na2Cr2O7 potential test data than
that obtained from the Weibull model of the same data. These bear pertinent implications on the need
for suitability studies of appropriate statistical distribution for studying performance of corrosion
inhibitors even as suggestions were proffered for addressing results conflicts among replicates of
steel reinforced concrete samples employed