Abstract
The corrosion behavior of an AZ91D magnesium alloy was investigated under a heterogeneous electrolyte layer by using electrochemical methods and surface analysis techniques. Dynamic polarization curves and morphological characterization were obtained at the center and near the edge zones under the electrolyte layer. The influence of the gas/liquid/solid three-phase boundary zone (TPB) on the corrosion behavior of the AZ91D magnesium alloy was discussed. The corrosion rate changed more significantly near the TPB zone than that at the other zones. The AZ91D alloy exhibited the characteristics of filiform corrosion together with shallow pitting corrosion. Different from the randomly distributed shallow pits, the filiform corrosion preferred to initiate near the TPB region and then progressively expanded adjacent to the edge of the electrolyte layer. The TPB zone played a vital role in determining the corrosion location, the corrosion morphologies and the corrosion rate of the magnesium alloy by influencing the mass transport process of carbon dioxide.
Highlights
A marine atmospheric environment has high humidity and contains a great amount of hygroscopic salts generated from sea spray
Some electrochemical corrosion cells formed on the surface of the AZ91D alloy, which resulted in the random production of magnesium ions at local anodes and hydroxyl ions at local cathodes
The corrosion behavior of an AZ91D magnesium alloy was investigated under a heterogeneous electrolyte layer, and the following conclusions were obtained
Summary
A marine atmospheric environment has high humidity and contains a great amount of hygroscopic salts (mainly NaCl) generated from sea spray. Most of the studies have investigated the influence of TEL thickness on the corrosion behavior of magnesium and its alloys [8] [9] [10]. They found that localized corrosion is the primary form of corrosion, which is in a higher ratio compared to that of uniform corrosion [11]. These studies have focused on the corrosion behavior of magnesium alloys under a homogeneous electrolyte layer
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