期刊
INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES
卷 180, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.ijmecsci.2020.105692
关键词
Porous plate; Graphene nanoplatelets; Piezoelectric material; Bezier extraction; Nonlinear dynamic; Active control
资金
- NRF (National Research Foundation of Korea) - MEST (Ministry of Education and Science Technology). of Korean government [NRF-2018R1A2A1A05018287]
- RISE-project BESTOFRAC H2020 [734370]
In this paper, we propose an effective computational approach to analyze and active control of geometrically nonlinear responses of functionally graded (FG) porous plates with graphene nanoplatelets (GPLs) reinforcement integrated with piezoelectric layers. The key concept behind this work is to utilize isogeometric analysis (IGA) based on Bezier extraction technique and C-0-type higher-order shear deformation theory (C-0-HSDT). By applying Bezier extraction, the original Non-Uniform Rational B-Spline (NURBS) control meshes can be transformed into Bezier elements which allow us to inherit the standard numerical procedure like the standard finite element method (FEM). In this scenario, the approximation of mechanical displacement field is calculated via C-0-HSDT whilst the electric potential field is considered as a linear function across the thickness of each piezoelectric sublayer. The FG plate includes internal pores and GPLs dispersed into metal matrix either uniformly or non-uniformly along plate's thickness. To control responses of structures, the top and bottom surfaces of FG plate are firmly bonded with piezoelectric layers which are considered as sensor and actuator layers. The geometrically nonlinear equations are solved by Newton-Raphson iterative procedure and Newmark's integration. The influence of porosity coefficient, weight fraction of GPLs as well as external electrical voltage on the geometrically nonlinear behaviors of plate structures with various distributions of porosity and GPLs are thoroughly investigated. A constant displacement and velocity feedback control approaches are then adopted to actively control geometrically nonlinear static and dynamic responses, where structural damping effect is taken into account, based on a closed-loop control with sensor and actuator layers.
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