Litcius/Paper detail

Response analysis of functionally graded piezoelectric plate resting on elastic foundation under thermo-electro environment

Pawan Kumar, S. P. Harsha

2022Journal of Composite Materials18 citationsDOI

Abstract

The paper investigates the static, bending and vibration responses of the functionally graded piezoelectric plate (FGPP) resting on the two/three-parameter foundation under a thermo-electro environment. Hamilton’s principles are used with first-order shear deformation theory to obtain the governing equations. They are solved using nine noded interpolation functions with 63 degrees of freedom (DOFs) per element. It is observed that the two-parameter foundation has a shear layer dominant, and the three-parameter foundation has an additional layer of spring that plays a significant role in the static bending and vibrational behavior of the CB/UCB conditions FGPP. The applied electrical voltage and the temperature change affect the static bending, and vibrational results as the rise in temperature lead to the plate’s softening. An increase in voltage leads to a reduction in the stiffness of the plate. Also, Sg-law significantly influences the dimensionless frequency, center deflection, and axial stress compared to other laws.

Topics & Concepts

Materials sciencePiezoelectricityPlate theoryDimensionless quantityDeflection (physics)VibrationStructural engineeringBending of platesStiffnessMechanicsBending stiffnessComposite materialBendingFinite element methodClassical mechanicsAcousticsPhysicsEngineeringComposite Structure Analysis and OptimizationStructural Load-Bearing AnalysisAcoustic Wave Phenomena Research