Civil Engineering Departmental Seminar - Passive reconstruction of dispersion curve in a thin-plate structure via flow-induced random vibration and its application in SHM

Passive reconstruction of dispersion curve in a thin-plate structure via flow-induced random vibration and its application in SHM

The ultrasonic guided wave is an efficient tool for structural health monitoring (SHM) due to its large inspection distance and high sensitivity to structural properties. However, the active guided wave method requires a signal generator and a power amplifier, which, in many scenarios of online monitoring, reduce the structural integrity and reliability and are also a heavy burden for power consumption. Flow-induced random vibration occurs naturally during, for example, the running process of an aircraft, a vehicle, or a ship, and produces a passive ultrasonic guided wave with no need for wave excitation equipment, which thus has the potential for the online SHM. In this talk, we will show how a flow-induced passive random guided wave can be used for the reconstruction of the dispersion curve of a thin-plate structure. Some detailed but important problems, including the effect of boundary reflection and sensor placement design, are introduced. An application of ice detection using the proposed methodology is also presented.