Passive vibration control of a plate via piezoelectric shunt damping with FEM and ECM

Abstract: Two-dimensional thin plates are widely used in many aerospace, automotive and marine applications. Vibration attenuation can be achieved in these structures by attaching piezoelectric elements on to the structure integrated with shunt damping circuits. This enables a compact vibration damping method without adding significant mass and volumetric occupancy, unlike the bulky mechanical dampers. Practical implementation of shunt damping technique requires accurate modeling of the host structure, the piezoelectric… Show more

“…Initially, Erturk and Inman (2009) proposed a lumped parameter model for beam-like structures with a full piezoelectric layer. Expanding upon this work, Motlagh et al (2018) and Yoon et al (2016) developed an analytical model for plate-like structures incorporating a piezoelectric patch, which can also be adapted for partially covered panels. Additionally, (Zhou et al, 2018) focused on smart composite modeling and presented a novel approach for analyzing the vibration behavior of a composite pipe-shaped structure integrated with piezoelectric materials.…”

A new framework for optimizing energy harvesting from smart composites integrated with piezoelectric patches utilizing lamination parameters

“…Initially, Erturk and Inman (2009) proposed a lumped parameter model for beam-like structures with a full piezoelectric layer. Expanding upon this work, Motlagh et al (2018) and Yoon et al (2016) developed an analytical model for plate-like structures incorporating a piezoelectric patch, which can also be adapted for partially covered panels. Additionally, (Zhou et al, 2018) focused on smart composite modeling and presented a novel approach for analyzing the vibration behavior of a composite pipe-shaped structure integrated with piezoelectric materials.…”

A new framework for optimizing energy harvesting from smart composites integrated with piezoelectric patches utilizing lamination parameters

Analysis of smart laminated composites integrated with piezoelectric patches using spectral element method and lamination parameters