Abstract

Structural health monitoring based on ultrasonic guided waves is widely spreading attention in diagnosis and prognosis of engineered parts. Plate-like structures, such as those used in the aerospace sector, are often characterised by a variety of geometric features, either stiffeners or cross-sectional variations, which can affect the guided wave propagation mechanisms, complicating the measurements analysis. An in-depth knowledge of the phenomena involved in the interaction between guided waves and discontinuities is required to extract the key damage-related features from the collected signals. In this paper, the effects of a variable thickness on guided wave propagation are numerically investigated. Different finite element modelling techniques are proposed and compared to efficiently reproduce the geometric discontinuity. The 0-order fundamental modes excited and sensed by an array of piezoelectric transducers are considered; the group velocities are thus calculated and compared to prove the effectiveness of the approaches.