Mode conversion of Lamb waves in a composite phononic crystal plate: Numerical analysis and experimental validation

The mode manipulation of Lamb waves plays an important role in damage detection and identification of damage types, location, and size. In this paper, we propose a composite phononic crystal (PC) plate with antisymmetric and symmetric PCs for realizing mode conversion from A0 to S0 mode of Lamb waves. The theoretical analysis, numerical simulations, and experimental validation are introduced and the mode conversion mechanism of the composite PC plate is systematically investigated. The effect of geometrical parameters on band structures of antisymmetric and symmetric PCs is first discussed. Then multi-physics field simulation models are developed and in-plane displacement fields are obtained in numerical simulations, which shows that the mode conversion is enhanced when the period number of the antisymmetric PC decreases and that of symmetric the PC increases. The composite PC plate specimens are fabricated with precision wire cutting technology for experimental measurements and the self-designed polyvinylidene fluoride (PVDF) comb transducer is used to stimulate the Lamb waves. The experimental results are consistent with the numerical simulations, which demonstrate that the proposed composite PC plate can achieve the mode conversion from A0 to S0 mode of Lamb waves. Our proposed structures have applicable values for the mode manipulation of Lamb waves in damage detection. Published under an exclusive license by AIP Publishing.

Automated summary

This paper proposes a composite phononic crystal (PC) plate for mode conversion of Lamb waves. The mode conversion mechanism of the composite PC plate is systematically investigated through theoretical analysis, numerical simulations, and experimental validation. The results show that the mode conversion is enhanced by decreasing the period number of the antisymmetric PC and increasing that of the symmetric PC. The experimental results are consistent with the numerical simulations, demonstrating the applicability of the proposed composite PC plate in the mode manipulation of Lamb waves for damage detection.