Analysis of the Effect of Applied Load on Crevice Corrosion Behavior

Author:

Yang Fuqiang1ORCID,Zhang Yue2,Zhang Jianzhou2

Affiliation:

1. Xi’an University of Science and Technology, School of Science, Xi’an 710054, China

2. Xi’an University of Science and Technology, School of Mechanical Engineering, Xi’an 710054, China

Abstract

A two-dimensional numerical model incorporating solid mechanics, electrochemistry, mass diffusion, and ion migration processes is developed to investigate the load effect on the crevice corrosion. The model is a transient model of crevice corrosion occurring in cracks of 304 stainless steel in a dilute NaCl solution, and the interaction between stress and electrochemical corrosion was considered. By solving the multiphysical coupling model in COMSOL, the effect of applied load on electrochemical corrosion in the crack tip region was calculated, and the local corrosion current density in the crack tip region with stress concentration within the crack was also calculated by using the Tafel relationship. The distribution of Fe2+ ion, Na+ ion, CL− ion, and H and O2 substance concentrations within the crack cavity is predicted by the equation analysis of substance transport. The results show that metal oxidation is more clearly affected by plastic deformation, the rate of hydrogen evolution reaction increases with stress enhancement, and the oxygen absorption reaction is not affected by stress strain. The distribution of iron ions, hydrogen, and oxygen within the crack is affected by the electrochemical reaction rate, and the distribution of iron ions, sodium ions, and chloride ions is affected by the electrolyte potential.

Funder

National Natural Science Foundation of China

Publisher

Hindawi Limited

Subject

Nuclear Energy and Engineering

Reference25 articles.

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2. Crevice corrosion of nickel-based alloys considered as engineering barriers of geological repositories

3. Crevice corrosion of N80 carbon steel in CO 2 -saturated environment containing acetic acid

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