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is studied using a four-node quadrilateral shallow shell element based on a fully coupled , accurate and efficient layerwise (zigzag) theory. The shell element uses the concept of electric nodes to satisfy ...
element method–based formulations are derived using the plate element , taking into consideration the electro-mechanical coupling effect. The reduced-order model is represented by the state-space form ...
. An efficient finite element model with advanced laminate kinematics and full electromechanical coupling is developed for this purpose. The nonlinearity is modeled using a rotationally invariant quadratic ...
step functions, which addresses discontinuous displacement fields, is used for modeling the actuator debonding. General finite element procedures are developed to derive the governing equation taking ...
to failure. A piezoceramic actuator is used to provide activation load and to force the structure to change its stability state from one to another. A non-linear finite element model based on the layerwise ...
. C. and Ahmed A. , “ An Efficient Coupled Layerwise Theory for Dynamic Analysis of Piezoelectric Composite Beams ,” Journal of Sound and Vibration , 261 , pp. 927 – 944 ( 2003 ). Google Scholar ...
technique to solve the transient coupled equations of thermoelasticity. Shakeriaski, Ghodrat, Escobedo-Diaz, and Behnia (2020) employed Hermite finite elements to find the response of a generalized ...
activity in the cortex as probabilistic inference via sampling, which has gained ample experimental [1–3] and theoretical [4–8] support over the last decade. Mathematically, these models are closely related ...
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