Static bending of graded sandwich plate based on quas-3D shear deformation theory and Q4 element


Nguyen Van Chinh 1, Pham Vu Nam 2,3,Nguyen Dinh Kien 3,4
2 - Le Quy Don University, 236 Hoang Quoc Viet, Hanoi
2 - ThuyLoi University, 175 Tay Son, Dong Da, Hanoi
3 - Graduate University of Science and Technology, VAST, 18 Hoang Quoc Viet
4 - Institute of Mechanics, VAST, 18 Hoang Quoc Viet, Hanoi
Email: [email protected]
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In this paper, the quasi-3D shear deformation theory is adopted to study static bending of a functionally graded sandwich (FGSW) plate. The plate is composed of a homogeneous core and two power-law functionally graded skin layers. A Q4 element with nine degrees of freedom per node is derived and employed in computing the response of the plate under uniform and sinusoidal distributed load. The accuracy of the present finite element formulation is confirmed by comparing the numerical data of present work with the published data. The influence of the power-law index, the layer thickness ration on the deflections and stress distribution of the plate is studied and discussed.

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Static bending of graded sandwich plate based on quas-3D shear deformation theory and Q4 element Report description: In this paper, the quasi-3D shear deformation theory is adopted to study static bending of a functionally graded sandwich (FGSW) plate. The plate is composed of a homogeneous core and two power-law functionally graded skin layers. A Q4 element with nine degrees of freedom per node is derived and employed in computing the response of the plate under uniform and sinusoidal distributed load. The accuracy of the present finite element formulation is confirmed by comparing the numerical data of present work with the published data. The influence of the power-law index, the layer thickness ration on the deflections and stress distribution of the plate is studied and discussed.


Static bending of graded sandwich plate based on quas-3D shear deformation theory and Q4 element


In this paper, the quasi-3D shear deformation theory is adopted to study static bending of a functionally graded sandwich (FGSW) plate. The plate is composed of a homogeneous core and two power-law functionally graded skin layers. A Q4 element with nine degrees of freedom per node is derived and employed in computing the response of the plate under uniform and sinusoidal distributed load. The accuracy of the present finite element formulation is confirmed by comparing the numerical data of present work with the published data. The influence of the power-law index, the layer thickness ration on the deflections and stress distribution of the plate is studied and discussed.
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