Static and dynamic analysis of functionally graded magneto-electro-elastic plates and shells

Functionally graded magneto-electro-elastic (FG-MEE) plates and shells have great application potential in smart structures for vibration control, shape control and health monitoring. The precise modeling technique for multi-physics coupled problems is a big challenge. This paper develops a finite e...

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Published in:Composite structures Vol. 281; p. 114950
Main Authors: Zhang, Shun-Qi, Zhao, Ya-Fei, Wang, Xiang, Chen, Min, Schmidt, Rüdiger
Format: Journal Article
Language:English
Published: Elsevier Ltd 01.02.2022
Subjects:
Functionally graded
Magneto-electro-elastic
Plates and shells
Smart structures
Smart structures
Magneto-electro-elastic
Plates and shells
Functionally graded
ISSN:0263-8223, 1879-1085
Online Access:Get full text
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Abstract Functionally graded magneto-electro-elastic (FG-MEE) plates and shells have great application potential in smart structures for vibration control, shape control and health monitoring. The precise modeling technique for multi-physics coupled problems is a big challenge. This paper develops a finite element (FE) model coupled with magneto-electro-elastic fields for static and dynamic analysis of FG-MEE plates and shells. The FE model is derived by using the first-order shear deformation hypothesis with consideration of linear multi-physics coupled constitutive equations. Eight-node quadrilateral plate/shell elements are proposed for FG-MEE structures, including five mechanical DOFs at each node, one electric and magnetic DOF at each MEE layer of elements. The model is first validated by MEE laminated plates and shells, later applied to parametric study of FG-MEE structures with functionally graded electric and magnetic properties.
AbstractList Functionally graded magneto-electro-elastic (FG-MEE) plates and shells have great application potential in smart structures for vibration control, shape control and health monitoring. The precise modeling technique for multi-physics coupled problems is a big challenge. This paper develops a finite element (FE) model coupled with magneto-electro-elastic fields for static and dynamic analysis of FG-MEE plates and shells. The FE model is derived by using the first-order shear deformation hypothesis with consideration of linear multi-physics coupled constitutive equations. Eight-node quadrilateral plate/shell elements are proposed for FG-MEE structures, including five mechanical DOFs at each node, one electric and magnetic DOF at each MEE layer of elements. The model is first validated by MEE laminated plates and shells, later applied to parametric study of FG-MEE structures with functionally graded electric and magnetic properties.
ArticleNumber 114950
Author Wang, Xiang
Chen, Min
Zhang, Shun-Qi
Schmidt, Rüdiger
Zhao, Ya-Fei
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  givenname: Ya-Fei
  surname: Zhao
  fullname: Zhao, Ya-Fei
  organization: School of Mechatronic Engineering and Automation, Shanghai University, Shanghai 200444, PR China
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  givenname: Xiang
  surname: Wang
  fullname: Wang, Xiang
  organization: School of Mechatronic Engineering and Automation, Shanghai University, Shanghai 200444, PR China
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  givenname: Min
  surname: Chen
  fullname: Chen, Min
  organization: School of Advanced Technology, Xian Jiaotong-Liverpool University, Suzhou, 215123, PR China
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  givenname: Rüdiger
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  fullname: Schmidt, Rüdiger
  organization: Institute of Structural Mechanics and Lightweight Design, RWTH Aachen University, Aachen 52062, Germany
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Magneto-electro-elastic
Plates and shells
Functionally graded
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Snippet Functionally graded magneto-electro-elastic (FG-MEE) plates and shells have great application potential in smart structures for vibration control, shape...
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StartPage 114950
SubjectTerms Functionally graded
Magneto-electro-elastic
Plates and shells
Smart structures
Title Static and dynamic analysis of functionally graded magneto-electro-elastic plates and shells
URI https://dx.doi.org/10.1016/j.compstruct.2021.114950
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