Atmospheric corrosion of iron under a single droplet: A new systematic multi-electrochemical approach
Ehsan Rahimi, Keer Zhang, Ali Kosari, Nils Van den Steen, A.M. Homborg, Herman Terryn, J.M.C. Mol, Yaiza González‐García
Abstract
Utilizing a dedicated micro-sized three-electrode cell, this study systematically investigates early-stage electrochemical properties and corrosion behavior of pure iron under single droplets. Various volumes and NaCl concentrations were considered during the evaporation-driven shape and concentration evolution of single droplets. The measurements disclosed that reducing the droplet size from 5 µL to 1.5 µL at 0.01 M NaCl concentration, increased noise resistance (Rn) and polarization resistance (Rp) values. However, at 0.1 M and 0.2 M NaCl concentrations, reducing droplet size led to the domination of relatively high chloride ion concentration over oxygen diffusion, resulting in a very low Rn and Rp, and hence enhanced localized corrosion.