Litcius/Paper detail

Passivation behaviors of 6082 aluminium alloy under stress corrosion process

Bin Zhou, Li Yang, Shoubing Yang, Chi Zhang, Yan‐zhou Li, Di Bai, Gen‐zhe Huang

2020Materials and Corrosion16 citationsDOI

Abstract

Abstract We systematically studied the passivation process of 6082 aluminium alloy under the bending stress situation by combining electrochemical measurement techniques with three‐point bending stress fixture designed by our lab, and then examined the microstructures of corroded specimens to analyze electrochemical corrosion mechanism in 1.5% NaCl solution. The results show that secondary Mg 2 Si phase acts as the anodic electrode, leading to the self‐corrosion of Mg 2 Si phase. As a result, the spots of self‐corroded Mg 2 Si phase within grains act as initial pitting corrosion site, combined with tiny, massive precipitated Mg 2 Si particles at the grain boundaries and bending stress, leading to the failure of surface of the 6082 aluminium alloy. The corrosion current density increases from 3.422 × 10 −7 to 13.77 × 10 −7 A/cm 2 when bending stress level was increased from 0% up to 100% of yield stress. Passive film formation process occurred between polarization potential area of −1.05 and −0.65 V. Sectional microstructural investigations show that the corrosion starts penetrating vertically into the material before it develops corrosion paths extending parallel to the surface, leading to massive stress‐induced corrosion cracks. The maximum corrosion depth increases from ∼24 μm on specimen without any stress applied to 85 μm when bending stress of 100% yield strength is applied.

Topics & Concepts

Materials scienceCorrosionPassivationMetallurgyAlloyAluminiumPitting corrosionStress (linguistics)BendingAluminium alloyMicrostructureComposite materialLayer (electronics)PhilosophyLinguisticsCorrosion Behavior and InhibitionAluminum Alloy Microstructure PropertiesHydrogen embrittlement and corrosion behaviors in metals