Effect of cement alkalinity on pore solution chemistry and chloride-induced reinforcement corrosion

This paper reports the results of a study conducted to evaluate the influence of cement alkalinity on the pore solution chemistry and chloride-induced reinforcement corrosion in ordinary and sulfate-resisting portland cements. To evaluate the influence of cement alkalinity, on the pore solution chemistry, cement-paste specimens were prepared with a fixed quantity of sodium chloride and varying alkalinity (in the range of a 0.4 to 1.4% Na2O equivalent). The pore solution was extracted and analyzed to determine the OH-, Cl- and SO4- concentrations. The influence of cement alkalinity on chloride-induced reinforcement corrosion was assessed by measuring corrosion potentials and corrosion current density. The results indicated that the OH-, Cl-, and SO4- concentrations of the pore solution increased with increasing alkali content in the cement. Furthermore, the Cl-/OH- ratio decreased with increasing alkali content up to 0.8% Na2O and, thereaftet, increased with further increases in the alkalinity. An improvement in the corrosion resistance of both SRPC and OPC concrete specimens was noted with increasing alkali content of the cement. The greatest improvement, however; was noted it,hen the alkalinity, was 0.8% (Na2O equivalent).