Effect of Strain Localization on Pitting Corrosion of an AlMgSi0.5 Alloy

• Main Authors: Daniela Nickel, Dagmar Dietrich, Thomas Mehner, Philipp Frint, Dagobert Spieler, Thomas Lampke
• Format: Article
• Language: English
• Published: MDPI AG 2015-02-01
• Series: Metals
• Subjects: AlMgSi0.5 alloy; ECAP; pitting corrosion; micro-capillary cell; deformation localization
• Online Access: http://www.mdpi.com/2075-4701/5/1/172

The corrosion susceptibility of an age-hardened aluminum alloy in different processing conditions, especially after a single pass of equal-channel angular pressing (ECAP), is examined. The main question addressed is how corrosive attack is changed by strain localization. For that purpose, an AlMgSi0.5 alloy with a strain localized microstructure containing alternating shear bands was subjected to potentiodynamic polarization on a macro-scale and micro-scale using the micro-capillary technique. Pitting potentials and the corrosion appearance (pit depth, corroded area fractions and volumes) are discussed with respect to microstructural evolution due to casting, extrusion and ECAP. Size, shape and orientation of grains, constituent particle fragmentation, cell size and microstrain were analyzed. Stable pitting of shear bands results in less positive potentials compared to adjacent microstructure. More pits emerge in the shear bands, but the pit depth is reduced significantly. This is attributed to higher microstrains influencing the stability of the passivation layer and the reduced size of grains and constituent particles. The size of the crystallographic pits is associated with the deformation-induced cell size of the aluminum alloy.