Geometrically nonlinear electro-thermo-static analysis of piezoelectric/ CNT/GPL/fibre/polymer sandwich panels with double curvature resting on elastic foundation

Emadi Sirous; Badarloo Baitollah; Tayebikhorami SamanSalehipour HamzehCivalek Omer

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Geometrically nonlinear electro-thermo-static analysis of piezoelectric/ CNT/GPL/fibre/polymer sandwich panels with double curvature resting on elastic foundation

机译：Geometrically nonlinear electro-thermo-static analysis of piezoelectric/ CNT/GPL/fibre/polymer sandwich panels with double curvature resting on elastic foundation

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摘要

Evaluation of the electro-thermo-static behaviour of the shell panels of double curvature using an analytical method is carried out in this paper. The proposed panels are made of a hybrid composite, and considered to be rested on the Winkler-Pasternak elastic foundation. The hybrid composite shell contains two thin piezoelectric sheets at its bottom and top surfaces, and some plies made of carbon fibres and polymeric resin which is reinforced by the randomly oriented nanocomposites. The employed nanocomposites for some layers are carbon nanotubes (CNTs) and for some other are graphene nanoplatelets (GPLs). The governing nonlinear system of differential equations of orthotropic doubly-curved shell panels are developed based on the first-order transverse shear deformation theory (FSDT) which incorporates moderately thick and also thin shells. The Gauss Quadrature method is applied to obtain the forces and moments due to the thermo-electrical loads, and the Galerkin method is employed to solve the developed system of equations which leads to a closed-form load-deformation relationship (equilibrium path of the shell). The novelty of the present study can be expressed in the solution and employed hybrid composite materials. First, by employing the proposed closed-form solution no time consuming computations are required. On the other hand, the effects of the piezoelectric and two different nanocomposite materials on the thermo-electro-mechanical nonlinear static behaviour of the hybrid composite shells can be evaluated. The accuracy of the present method is validated by comparing the achieved results for the some benchmark problems with those are existent in the literature. The impacts of various electro-thermo-mechanical and geometrical characteristics of the proposed shells on their equilibrium paths are also considered by carrying out an extended parametric study.

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来源
《Composite structures》 |2022年第9期|115844.1-115844.19|共19页
作者
Emadi Sirous; Badarloo Baitollah; Tayebikhorami SamanSalehipour HamzehCivalek Omer;
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作者单位

Amirkabir Univ Technol;

Qom Univ Technol QUT;

Univ HormozganIlam UnivChina Med Univ||Akdeniz Univ;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种英语
中图分类
关键词
Panels of double curvature; Geometrical nonlinear; Fibre; Carbon nanotube (CNT); Graphene nanoplatelet (GPL); Piezoelectric sheets; Electro-thermo-static analysis; Analytical method;

Geometrically nonlinear electro-thermo-static analysis of piezoelectric/ CNT/GPL/fibre/polymer sandwich panels with double curvature resting on elastic foundation

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