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Static and free vibration analyses of functionally graded porous variable-thickness plates using an edge-based smoothed finite element method

Trung Thanh Tran, Quoc-Hoa Pham, T. Nguyen‐Thoi

2020Defence Technology82 citationsDOIOpen Access PDF

Abstract

The main purpose of this paper is to present numerical results of static bending and free vibration of functionally graded porous (FGP) variable-thickness plates by using an edge-based smoothed finite element method (ES-FEM) associate with the mixed interpolation of tensorial components technique for the three-node triangular element (MITC3), so-called ES-MITC3. This ES-MITC3 element is performed to eliminate the shear locking problem and to enhance the accuracy of the existing MITC3 element. In the ES-MITC3 element, the stiffness matrices are obtained by using the strain smoothing technique over the smoothing domains formed by two adjacent MITC3 triangular elements sharing an edge. Materials of the plate are FGP with a power-law index (k) and maximum porosity distributions (Ω) in the forms of cosine functions. The influences of some geometric parameters, material properties on static bending, and natural frequency of the FGP variable-thickness plates are examined in detail.

Topics & Concepts

Finite element methodSmoothingVibrationEnhanced Data Rates for GSM EvolutionTrigonometric functionsMaterials scienceInterpolation (computer graphics)BendingSmoothed finite element methodStructural engineeringMathematical analysisMathematicsGeometryComposite materialEngineeringAcousticsPhysicsBoundary knot methodMechanical engineeringFrame (networking)TelecommunicationsStatisticsBoundary element methodComposite Structure Analysis and OptimizationVibration and Dynamic AnalysisStructural Load-Bearing Analysis