期刊
INTERNATIONAL JOURNAL OF MECHANICAL SCIENCES
卷 194, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.ijmecsci.2020.106195
关键词
Smart shell; Multifield shell element; Piezoelectric transducers; Zigzag theory; Delamination; Partial debonding; Electromechanical coupling
资金
- Science & Engineering Research Board, Department of Science and Technology, Government of India through J. C. Bose National Fellowship [JCB/2018/000025]
This paper presents a computationally efficient multifield finite element model for accurate analysis of smart composite and sandwich shells with multiple delaminations and transducer debonding. The model shows excellent accuracy in comparison with full-field 3D FE solutions, making it useful for designing active vibration control and structural health monitoring strategies.
This paper presents a computationally efficient multifield finite element (FE) model for accurate analysis of smart composite and sandwich shells equipped with piezoelectric patch actuators and sensors, featuring multiple delaminations and transducer debonding. It employs a facet shell element with four physical nodes and one electric node, based on the third order zigzag theory approximations for displacements and a piecewise quadratic through-thickness variation for the electric potential. A hybrid point-least squares method recently proposed by the authors is extended to impose the condition of continuity of the nonlinear displacement field at the delamination, debonding, and patch fronts. The methodology is generic for multiple patch transducers, delaminations, and debonding, occurring at any arbitrary interface and in-plane locations. The model shows excellent accuracy in comparison with the coupled full-field 3D FE solutions, for the natural frequencies and complex global, local and hybrid mode shapes of delaminated smart composite shells and soft-core sandwich plates, with partially debonded actuators and sensors. The developed model will be of immense use for the design of active vibration control and structural health monitoring strategies for smart laminated shell-type structures featuring such damages.
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