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Directly monitoring the shift in corrosion mechanisms of a model FeCrNi alloy driven by electric potential

Engineering and Technology

Directly monitoring the shift in corrosion mechanisms of a model FeCrNi alloy driven by electric potential

T. Liu, C. Li, et al.

This groundbreaking study by Tingkun Liu, Cheng-Han Li, Matthew Olszta, Jinhui Tao, and Arun Devaraj delves into the electrochemical corrosion kinetics of austenitic alloys, revealing insights into pit dissolution mechanisms and the influences of electric bias. Discover how these dynamics can enhance our understanding of corrosion across various materials!

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~3 min • Beginner • English
Abstract
Stainless steels are used in a myriad of engineering applications, including construction, automobiles, and nuclear reactors. Developing accurate, predictive mechanistic models for corrosion and electrochemical corrosion kinetics of stainless steels has been a topic of research studies over many decades. Herein, we quantified the aqueous corrosion kinetics of a model austenitic Fe-18Cr-14Ni (wt%) alloy in the presence and absence of applied potential using systematic in situ electrochemical atomic force microscopy (EC-AFM) and transmission electron microscopy (TEM). Without an applied bias, vertical dissolution of corrosion pits is controlled by the surface kinetics/diffusion hybrid mechanism, whereas lateral dissolution is diffusion controlled. When an electric bias is applied, the increase in corrosion rate is dominated by the nucleation of new pits. These insights gained by the in situ EC-AFM will allow applications of this method for a quantitative understanding of corrosion of a wider class of materials.
Publisher
npj Materials Degradation
Published On
May 24, 2023
Authors
Tingkun Liu, Cheng-Han Li, Matthew Olszta, Jinhui Tao, Arun Devaraj
Tags
corrosion kinetics
austenitic alloy
electrochemical microscopy
pit dissolution
electric bias
in situ analysis
quantitative understanding

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