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Geometrical Nonlinearity for a Timoshenko Beam with Flexoelectricity

The Timoshenko beam model is applied to the analysis of the flexoelectric effect for a cantilever beam under large deformations. The geometric nonlinearity with von Kármán strains is considered. The nonlinear system of ordinary differential equations (ODE) for beam deflection and rotation are derived. Moreover, this nonlinear system is linearized for each load increment, where it is solved iteratively. For the vanishing flexoelectric coefficient, the governing equations lead to the classical Timoshenko beam model. Furthermore, the influence of the flexoelectricity coefficient and the microstructural length-scale parameter on the beam deflection and the induced electric intensity is investigated.

MDPI AG

Miroslav Repka Jan Sladek Vladimir Sladek

Nanomaterials

2021

Title: Geometrical Nonlinearity for a Timoshenko Beam with Flexoelectricity

Description:

The Timoshenko beam model is applied to the analysis of the flexoelectric effect for a cantilever beam under large deformations.

The geometric nonlinearity with von Kármán strains is considered.

The nonlinear system of ordinary differential equations (ODE) for beam deflection and rotation are derived.

Moreover, this nonlinear system is linearized for each load increment, where it is solved iteratively.

For the vanishing flexoelectric coefficient, the governing equations lead to the classical Timoshenko beam model.

Furthermore, the influence of the flexoelectricity coefficient and the microstructural length-scale parameter on the beam deflection and the induced electric intensity is investigated.

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Geometrical Nonlinearity for a Timoshenko Beam with Flexoelectricity

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