An efficient finite element with layerwise mechanics for smart piezoelectric composite and sandwich shallow shells

Yaqoob Yasin, M. ; Kapuria, S. (2014) An efficient finite element with layerwise mechanics for smart piezoelectric composite and sandwich shallow shells Computational Mechanics, 53 (1). pp. 101-124. ISSN 0178-7675

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Official URL: https://link.springer.com/article/10.1007/s00466-0...

Related URL: http://dx.doi.org/10.1007/s00466-013-0896-x

Abstract

In this work, we present a new efficient four-node finite element for shallow multilayered piezoelectric shells, considering layerwise mechanics and electromechanical coupling. The laminate mechanics is based on the zigzag theory that has only seven kinematic degrees of freedom per node. The normal deformation of the piezoelectric layers under the electric field is accounted for without introducing any additional deflection variables. A consistent quadratic variation of the electric potential across the piezoelectric layers with the provision of satisfying the equipotential condition of electroded surfaces is adopted. The performance of the new element is demonstrated for the static response under mechanical and electric potential loads, and for free vibration response of smart shells under different boundary conditions. The predictions are found to be very close to the three dimensional piezoelasticity solutions for hybrid shells made of not only single-material composite substrates, but also sandwich substrates with a soft core for which the equivalent single layer (ESL) theories perform very badly.

Item Type:Article
Source:Copyright of this article belongs to Springer Verlag.
Keywords:Zigzag Theory; Finite Element; Shallow Shell; Smart Composite; Sandwich; Electric Node
ID Code:108929
Deposited On:31 Jan 2018 10:45
Last Modified:31 Jan 2018 10:45

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