Generalized integral transform solution for free vibration of orthotropic rectangular plates with free edges

Abstract: Free vibration of orthotropic rectangular thin plates of constant thickness with two opposite edges clamped and one or two edges free is analyzed by generalized integral transform technique. Numerically stable eigenfunctions in exponential function forms of Euler-Bernoulli beams with appropriate boundary conditions are adopted for each direction of the plate. The governing fourth-order partial differential equation for the mode function of free vibration is transformed into a system of linear equations, by int… Show more

“…To address the challenges outlined earlier, this paper proposes the utilization of the generalized integral transform technique (GITT) to predict the vibrational responses of an ultra-large cold-water pipe while considering various load scenarios and variable boundary conditions. The GITT, originally developed for applications in heat and fluid flow [22][23][24], has been successfully extended to the analysis of dynamic behavior in diverse engineering systems, including axially moving beams [25], axially moving Timoshenko beams [26], damaged Euler-Bernoulli beams [27], axially moving orthotropic plates [28], bending of rectangular orthotropic plates [29][30][31], and pipes conveying a two-phase flow [32]. One of the primary advantages of employing the GITT is its ability to automatically and straightforwardly control calculation errors.…”

Vibrational Responses of an Ultra-Large Cold-Water Pipe for Ocean Thermal Energy Conversion: A Numerical Approach

“…To address the challenges outlined earlier, this paper proposes the utilization of the generalized integral transform technique (GITT) to predict the vibrational responses of an ultra-large cold-water pipe while considering various load scenarios and variable boundary conditions. The GITT, originally developed for applications in heat and fluid flow [22][23][24], has been successfully extended to the analysis of dynamic behavior in diverse engineering systems, including axially moving beams [25], axially moving Timoshenko beams [26], damaged Euler-Bernoulli beams [27], axially moving orthotropic plates [28], bending of rectangular orthotropic plates [29][30][31], and pipes conveying a two-phase flow [32]. One of the primary advantages of employing the GITT is its ability to automatically and straightforwardly control calculation errors.…”

Vibrational Responses of an Ultra-Large Cold-Water Pipe for Ocean Thermal Energy Conversion: A Numerical Approach

An explicit solution for inelastic buckling of rectangular plates subjected to combined biaxial and shear loads

Buckling analysis of functionally graded plates subjected to combined in-plane loads