Experimental investigation of the surface corrosion damage in plates based on nonlinear Lamb wave methods

This paper experimentally investigates the early stage damage caused by the surface corrosion in thin plates based on two nonlinear Lamb wave methods, which are the low-frequency S0 mode Lamb wave method and oneway S0-A0 Lamb mixing wave method. The experimental results show that the significant second/third harmonics and the resonant waves from these methods can be caused by the surface corrosion damage. Meanwhile, it is found that the normalized acoustic nonlinearity parameters in these methods increase monotonically with the number of corrosion times before the generation of the distinct cavities. Moreover, the position and the length of the surface corrosion region can be characterized by the resonant waves from one-way S0-A0 Lamb mixing wave method. This study reveals that the low-frequency S0 mode Lamb wave method and one-way S0-A0 Lamb mixing wave method are feasible to evaluate early stage damage caused by the surface corrosion.

Automated summary

This study demonstrates that early stage damage caused by surface corrosion in thin plates can be evaluated using nonlinear Lamb wave methods. By measuring resonant waves and harmonics, the extent of damage caused by corrosion can be assessed, allowing for characterization of the position and length of the corroded region on the surface.