M. Lezgy-Nazargah scite author profile

A three-nodded beam finite element is developed for the analysis of compositelaminated beams with distributed piezoelectric sensor/actuator layers. The mechanical part of the proposed element is based on the refined sinus model. This element does not require shear correction factor and ensures continuity conditions for displacements, transverse shear stresses as well as boundary conditions on the upper and lower surfaces of the beam. This conforming finite element is totally free of shear locking, and the number of mechanical unknowns is independent of the number of layers. For each piezoelectric layer, a high-order electrical potential field is considered. The virtual work principle leads to a derivation that could include dynamic analysis. However, in this study, only static problems have been considered. Comparison of numerical results obtained from this formulation with previous works shows that the present finite element is suitable for predicting fully coupled behaviors of both thick and thin smart-laminated beams under mechanical and electrical loadings.

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A coupled refined high-order global-local theory and finite element model for static electromechanical response of smart multilayered/sandwich beams

Beheshti-Aval

Lezgy-Nazargah

2012

Arch Appl Mech

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A refined high-order global-local theory for finite element bending and vibration analyses of laminated composite beams

2010

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M. Lezgy-Nazargah

An efficient finite element model for static and dynamic analyses of functionally graded piezoelectric beams

Fully coupled thermo-mechanical analysis of bi-directional FGM beams using NURBS isogeometric finite element approach

A Refined Sinus Finite Element Model for the Analysis of Piezoelectric-Laminated Beams

A coupled refined high-order global-local theory and finite element model for static electromechanical response of smart multilayered/sandwich beams

A refined high-order global-local theory for finite element bending and vibration analyses of laminated composite beams

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