4.7 Article

The computational modeling for the static analysis of axially functionally graded micro-cylindrical imperfect beam applying the computer simulation

期刊

ENGINEERING WITH COMPUTERS
卷 38, 期 SUPPL 4, 页码 3217-3235

出版社

SPRINGER
DOI: 10.1007/s00366-021-01456-x

关键词

Nonlinear analysis; Buckling analysis; Bending analysis; Non-uniform cross-section; Truncated conical tube; Imperfect functionally graded material

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This paper examines the bending and buckling analysis of microbeams with different cross-sectional shapes, using the modified couple stress theory and the homotopy perturbation technique. By considering the nonlinear and large-deflection effects, the influence of various parameters on the bending deflection and buckling of microbeams is thoroughly analyzed.
In this paper, the bending and buckling analysis of microbeam with the uniform and non-uniform cylindrical cross-section was examined based on the classical beam theory and the modified couple stress theory to model the micro-structures effects. The nonlinear effect of the Von-Karman theory is regarded to study the large-deflection effect on the buckling of microtubes. The conservation energy principle is used to derive the nonlinear equation of motion and the boundary conditions. The effect of several applicable cross-sections, including the linear, exponential, and convex function, on the static behavior of cylindrical beam is investigated, which is made by the porosity-dependent axially functionally graded material. The homotopy perturbation technique as a semi-analytical solution, coupled with the generalized differential quadrature method, is employed to obtain the nonlinear results. Eventually, the influence of various parameters such as the porosity, volume fraction index, bending load, nonlinear deflection, length-scale effect on the bending deflection, and buckling of microbeam with both clamped and pinned supported are analyzed in details.

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