Your search keyword '"Buckling"' showing total 3 results

1. Effect of boundary conditions and non-uniform edge loads on buckling characteristics of laminated composite panels with and without cutout.

Author

Rajanna, T., Banerjee, Sauvik, Desai, Yogesh M., and Prabhakara, D.L.

Subjects

MECHANICAL buckling, MECHANICAL loads, LAMINATED materials, INERTIA (Mechanics), DEFORMATIONS (Mechanics), FINITE element method

Abstract

In this work, the influence of uniaxial and biaxial nonuniform edge loads on buckling characteristics of composite laminates with and without cutout is investigated by using a finite element method. Furthermore, this investigation addresses the effects of different degree of edge restraints on buckling analysis. Regarding this, a nine node heterosis plate element has been adapted by employing the effects of shear deformation and rotary inertia. The influence of different parameters, such as ply-orientations, nonuniform edge loads, boundary conditions, and cutout sizes, has been considered and studied in detail. It is clearly illustrated that cutout sizes under different loading conditions have remarkable effects on buckling behavior of composite laminates. [ABSTRACT FROM AUTHOR]

Published

2017

2. Thermal Post-Buckling Analysis of Nanoscale Films Based on a Non-Classical Finite Element Approach.

Author

Ansari, R., Mohammadi, V., Faghih Shojaei, M., and Rouhi, H.

Subjects

*THERMAL stresses, *MECHANICAL loads, *FINITE element method, *DEFORMATIONS (Mechanics), *BOUNDARY value problems, *EQUATIONS, *NANOFILMS, *ELASTICITY

Abstract

A size-dependent finite element (FE) formulation including surface free energy effect is developed in this article to study the post-buckling behavior of nanofilms under the action of thermal loads. The Gurtin-Murdoch surface elasticity theory is utilized to consider the surface effects. Moreover, the principle of virtual work is used so as to derive the equilibrium equations. The proposed FE formulation is based on the first-order shear deformation theory (FSDT). The von Kármán nonlinear relations are also employed to take the geometric nonlinearity into account. After deriving the FE equations, the resulting set of parameterized non-linear equations is solved using the pseudo arc-length continuation algorithm, and bifurcation diagrams of nanofilms are obtained. Selected numerical results are presented for the influences of surface stress on the thermal post-buckling characteristics of nanofilms subject to different types of boundary conditions. [ABSTRACT FROM PUBLISHER]

Published

2015

3. Effect of Preloading-induced Deformation and Stress on Vibration of Circular Plates.

Author

Liu, Chorng-Fuh and Chen, Ting-Jung

Subjects

STRUCTURAL plates, MECHANICAL loads, DEFORMATIONS (Mechanics), STRAINS & stresses (Mechanics), VIBRATION (Mechanics), ELASTICITY, APPROXIMATION theory, FINITE element method

Abstract

The present study presents the effect of deformation and stress due to preloading on vibration of circular plates. The preloadings may be applied in the radial direction on edge or in the transverse direction on plate surface. The research features that, first, a unified displacement field for circular plates is employed; second, the formulation is based on elasticity and has fewer approximations or assumptions than plate theories; third and most noticeable, the analysis takes into account the deformation due to preloading, in addition to the stresses and shows that such deformation has significant effect on vibration of circular plates for some cases. [ABSTRACT FROM AUTHOR]

Published

2011