4.5 Article

Instability analysis of moderately thick porous micro-plate via two-variable strain gradient theory

期刊

ARCHIVE OF APPLIED MECHANICS
卷 91, 期 11, 页码 4459-4473

出版社

SPRINGER
DOI: 10.1007/s00419-021-02021-0

关键词

Porous micro-plate; Strain gradient theory; Two-variable refined plate theory; Buckling analysis

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This study investigates the buckling analysis of moderately thick porous micro-plate using strain gradient theory and two-variable strain gradient theory. Analytical solutions are obtained, and the effects of thickness, porosity, etc., on the critical buckling load are examined. Increasing thickness shows significant differences between TV-SGT and classical theory results, and porosity has a notable influence on the critical buckling load.
In this study, the buckling analysis of moderately thick porous micro-plate is investigated to predict instability of the micro-plate using strain gradient theory and two-variable refined plate theory termed two-variable strain gradient theory (TV-SGT). The governing equations and new boundary conditions are achieved. Also, the Navier solution technique is utilized to obtain analytical solutions for the simply supported moderately thick porous rectangular micro-plates. The non-dimensionalized critical buckling load of moderately thick porous micro-plate for uniaxial and biaxial buckling loadings is obtained, and the results of the uniaxial loading show a larger threshold compared to the biaxial loading. The effects of thickness, length scale parameters, porosity, and the variation of material property through the thickness on the non-dimensionalized critical buckling load of thick porous micro-plate are investigated. Increasing thickness reflects a large difference between two-variable strain gradient theory (TV-SGT) and classical theory results. Moreover, increasing thickness affects the non-dimensionalized critical buckling load, significantly. Notably, increasing porosity presents a distinguished influence on the non-dimensionalized critical buckling load of the thick porous micro-plate.

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