Abstract: In this work, the effects of HNO₃ concentration on the pit morphologies of high-cubic-texture aluminum foil etched in HNO₃–HCl and HNO₃–H₂SO₄–HCl solutions were investigated. When the aluminum foil was etched in HNO₃–HCl solutions, the morphologies of pits transformed from irregular tunnels to typical tunnels (as inverted pyramids) and shallow cuboids as the HNO₃ concentration in the etchant solution was increased. However, as the HCl concentration in the etchant solution was increased, the morphologies of pits transformed from shallow cuboids to typical tunnels (as inverted pyramids) and irregular tunnels. When the aluminum foil was etched in n N HNO₃–(7.2−n) N H₂SO₄–0.8 N HCl solutions, the morphologies of the pits transformed from typical tunnels (i.e., the number of sub-tunnels formed on the main tunnels increased) to irregular tunnels (corrugated tunnels and polyline tunnels) as the HNO₃ concentration in the etchant solution was increased. These effects are attributed primarily to corrosion on the (100) and (010) faces of pits being accelerated and to the (001) faces being prone to passivation to different degrees when various concentrations of HNO₃ are added to the etchant solutions.