Development of the Dynamic Stiffness Method for the Out-of-Plane Natural Vibration of an Orthotropic Plate

Abstract: In this present paper, the dynamic stiffness method (DSM) was formulated to investigate the out-of-plane natural vibration of a thin orthotropic plate using the classical plate theory (CPT). Hamilton’s principle was implemented to derive the governing differential equation of motion for free vibration of the orthotropic plate for Levy-type boundary conditions. The Wittrick–Williams (W–W) algorithm was used as a solution technique to compute the natural frequencies of a thin orthotropic plate for different boun… Show more

“…In the work of [5], the dynamic stiffness method (DSM) was formulated to study the out-of-plane natural vibration of thin orthotropic plates using the classical plate theory (CPT). Hamilton's principle was implemented to derive the governing differential equation of motion for free vibration, whereas the Wittrick-Williams (W-W) algorithm was used as a solution technique to compute the natural frequencies.…”

Advances in Vibroacoustics and Aeroacustics of Marine, Aerospace and Automotive Systems

“…In the work of [5], the dynamic stiffness method (DSM) was formulated to study the out-of-plane natural vibration of thin orthotropic plates using the classical plate theory (CPT). Hamilton's principle was implemented to derive the governing differential equation of motion for free vibration, whereas the Wittrick-Williams (W-W) algorithm was used as a solution technique to compute the natural frequencies.…”

Advances in Vibroacoustics and Aeroacustics of Marine, Aerospace and Automotive Systems