A refined quasi-3D model for buckling and free vibration of functionally graded saturated porous plate resting
on elastic foundation
Authors: Vu Thi Thu Trang · Nguyen Van Long · Tran Minh Tu · Le Thanh Hai
Archive of Applied Mechanics
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Publishing year: 12/2023
This study investigates the buckling and free vibration behavior of functionally graded saturated
porous (FGSP) using a refined quasi-3D theory that ensures zero transverse shear stress at the top and bottom
surfaces of the plate. The material properties depend on the porosity coefficient according to three patterns.
Hamilton’s principle and Biot’s poroelasticity theory are employed to derive the equations of motion, which
are then solved using Navier’s technique. After examining the accuracy of the suggested approach, the effect of
fluid compressibility on natural frequency and critical buckling load is investigated in the undrained condition.
Also, the effect of porosity, geometrical parameters, and elastic foundation on the vibration and buckling
response of FGSP plates are examined. The study reveals that saturating the pores with fluid leads to increased
plate stiffness. This translates to higher critical buckling loads and fundamental frequencies.
Buckling response · Vibration analysis · Saturated porous plate · Analytical solution · Quasi-3D theory
