Finite element model of efficient zig-zag theory for static analysis of hybrid piezoelectric beams |
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Authors: | Email author" target="_blank">S?KapuriaEmail author P C?Dumir A?Ahmed N?Alam |
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Affiliation: | (1) Applied Mechanics Department, Indian Institute of Technology Delhi, New Delhi, 110016, India |
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Abstract: | Finite element model is presented for the analysis of hybrid piezoelectric beams under static electromechanical load, using the one-dimensional (1D) coupled zig-zag theory developed recently by the authors. Two noded elements are used with cubic Hermite interpolation for deflection and electric potentials at the sub-layers and with linear interpolation for axial displacement and shear rotation. The expressions for the variationally consistent stiffness matrix and load vector are derived and evaluated in closed form using exact integration. The formulation is validated by comparison with the analytical solution for simply-supported beam. The finite element model is free of shear locking. The present zig-zag finite element results for cantilever beams are compared with the 2D finite element results using ABAQUS to establish the accuracy of the zig-zag theory for these boundary conditions.S. Kapuria is grateful to Department of Science and Technology, Government of India, for providing financial assistance for this work. |
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Keywords: | Finite element model Zig-zag theory Hybrid beams Statics Piezoelectricity |
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