Advances in Measurement and Simulation Methods of Thin Liquid Film Corrosion.
Yikun Cai, Yuan Gao, Yixuan Zhuang, Shuai Wu, Fangyu Chen, Yiming Jin, Pengrui Zhu, Li Qin, Yan Su
Abstract
Open AccessThin liquid film corrosion is a critical failure mechanism for the atmospheric environment and industrial infrastructure. This review systematically examines relevant methods and recent advances in characterizing and simulating this phenomenon. Various measurement methods for liquid film thickness, composition, and conductivity are investigated, with particular focus on the advantages of non-contact optical technology and X-ray fluorescence (XRF) in in situ monitoring and analysis. For corrosion simulation, the finite element method (FEM), cellular automaton (CA), and molecular dynamics (MD) are widely used. Their combination has synergistic potential in revealing essential corrosion mechanisms and establishing prediction models across scales.