Bhavani V. Sankar scite author profile

This paper presents an analytical two-port, lumped-element model of a piezoelectric composite circular plate. In particular, the individual components of a piezoelectric unimorph transducer are modeled as lumped elements of an equivalent electrical circuit using conjugate power variables. The transverse static deflection field as a function of pressure and voltage loading is determined to synthesize the two-port dynamic model. Classical laminated plate theory is used to derive the equations of equilibrium for clamped circular laminated plates containing one or more piezoelectric layers. A closed-form solution is obtained for a unimorph device in which the diameter of the piezoelectric layer is less than that of the shim. Methods to estimate the model parameters are discussed, and model verification via finite-element analyses and experiments is presented. The results indicate that the resulting lumpedelement model provides a reasonable prediction (within 3%) of the measured response to voltage loading and the natural frequency, thus enabling design optimization of unimorph piezoelectric transducers.

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Mechanical properties of hybrid composites using finite element method based micromechanics

Banerjee¹,

Sankar²

2014

Composites Part B: Engineering

131

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Analytical method for micromechanics of textile composites

Sankar

Marrey

1997

Composites Science and Technology

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(Student Paper) Analysis and Design of Corrugated-Core Sandwich Panels for Thermal Protection Systems of Space Vehicles

Bapanapalli¹,

Martínez²,

Gogu³

et al. 2006

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Bhavani V. Sankar

An elasticity solution for functionally graded beams

Analytical Electroacoustic Model of a Piezoelectric Composite Circular Plate

Mechanical properties of hybrid composites using finite element method based micromechanics

Analytical method for micromechanics of textile composites

(Student Paper) Analysis and Design of Corrugated-Core Sandwich Panels for Thermal Protection Systems of Space Vehicles

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