SIZE-DEPENDENT BENDING, BUCKLING AND FREE VIBRATION ANALYSES OF MICROSCALE FUNCTIONALLY GRADED MINDLIN PLATES BASED ON THE STRAIN GRADIENT ELASTICITY THEORY

REZA ANSARI; EMAD HASRATI; MOSTAFA FAGHIH SHOJAEI; RAHEB GHOLAMI; VAHID MOHAMMADI; ABOLFAZL SHAHABODINI

SIZE-DEPENDENT BENDING, BUCKLING AND FREE VIBRATION ANALYSES OF MICROSCALE FUNCTIONALLY GRADED MINDLIN PLATES BASED ON THE STRAIN GRADIENT ELASTICITY THEORY

Authors

REZA ANSARI DEPARTMENT OF MECHANICAL ENGINEERING UNIVERSITY OF GUILAN, RASHT, IRAN
EMAD HASRATI DEPARTMENT OF MECHANICAL ENGINEERING UNIVERSITY OF GUILAN, RASHT, IRAN
MOSTAFA FAGHIH SHOJAEI DEPARTMENT OF MECHANICAL ENGINEERING UNIVERSITY OF GUILAN, RASHT, IRAN
RAHEB GHOLAMI DEPARTMENT OF MECHANICAL ENGINEERING UNIVERSITY OF GUILAN, RASHT, IRAN
VAHID MOHAMMADI DEPARTMENT OF MECHANICAL ENGINEERING UNIVERSITY OF GUILAN, RASHT, IRAN
ABOLFAZL SHAHABODINI DEPARTMENT OF MECHANICAL ENGINEERING UNIVERSITY OF GUILAN, RASHT, IRAN

Keywords:

BENDING, BUCKLING, FREE VIBRATION, FGM MICROPLATE, STRAIN GRADIENT THEORY, GDQ

Abstract

IN THIS PAPER, A SIZE-DEPENDENT MICROSCALE PLATE MODEL IS DEVELOPED TO DESCRIBE THE BENDING, BUCKLING AND FREE VIBRATION BEHAVIORS OF MICROPLATES MADE OF FUNCTIONALLY GRADED MATERIALS (FGMS). THE SIZE EFFECTS ARE CAPTURED BASED ON THE MODIFIED STRAIN GRADIENT THEORY (MSGT), AND THE FORMULATION OF THE PAPER IS ON THE BASIS OF MINDLIN PLATE THEORY. THE EFFECT OF THERMAL ENVIRONMENT IS ALSO CONSIDERED. THE PRESENTED MODEL ACCOMMODATES THE MODELS BASED UPON THE CLASSICAL THEORY (CT) AND THE MODIFIED COUPLE STRESS THEORY (MCST) IF ALL OR TWO SCALE PARAMETERS ARE SET TO ZERO, RESPECTIVELY. BY USING HAMILTONÂS PRINCIPLE, THE GOVERNING EQUATIONS AND RELATED BOUNDARY CONDITIONS ARE DERIVED. THE BENDING, BUCKLING AND FREE VIBRATION PROBLEMS ARE CONSIDERED AND ARE SOLVED THROUGH THE GENERALIZED DIFFERENTIAL QUADRATURE (GDQ) METHOD. A DETAILED PARAMETRIC AND COMPARATIVE STUDY IS CONDUCTED TO EVALUATE THE EFFECTS OF LENGTH SCALE PARAMETER, MATERIAL GRADIENT INDEX AND ASPECT RATIO PREDICTED BY THE CT, MCST AND MSGT ON THE DEFLECTION, CRITICAL BUCKLING LOAD AND FIRST NATURAL FREQUENCY OF THE MICROPLATE. THE NUMERICAL RESULTS INDICATE THAT THE MODEL DEVELOPED HEREIN IS SIGNIFICANTLY SIZE-DEPENDENT WHEN THE THICKNESS OF THE MICROPLATE IS ON THE ORDER OF THE MATERIAL SCALE PARAMETERS.

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Published

2016-01-05

Issue

Vol. 13 No. 4 (2016)

Section

Articles

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