The dissolution rate of the Al2O3 film, R-dis (mol/cm(2) s), and the pitting potential, E-p, of polycrystalline Al electrodes were measured in 50 mM H3BO3/0.3 mM Na2B4O7.10 H2O solutions (pH 6.7) containing between 0 and 200 mM NaCl. R-dis was determined by analysis of the transient current, using the high-field growth model, following a large amplitude potential step to induce film growth in competition with film dissolution. The dissolution rate of the oxide film increased from 0.8(+/-0.2) x 10(-12) mol/cm(2) s in the absence of Cl- to a quasi-limiting value of 2.4(+/-0.2) x 10(-12) mol/cm(2) s at Cl-concentrations above similar to100 mM. Over the same concentration range, Ep shifted to more negative potentials with increasing Cl-concentration, also approaching a quasi-limiting value of; similar to-0.95 V vs. mercury/mercuric sulfate (saturated K2SO4) at Cl-concentrations greater than similar to100 mM. The similar functional dependencies of R-dis and E-p on Cl- concentration suggest a strong correlation between oxide film dissolution and oxide breakdown. (C) 2004 The Electrochemical Society.