Nonlinear buckling of higher deformable S-FGM thick circular cylindrical shells with metal-ceramic-metal layers surrounded on elastic foundations in thermal environment
An analytical approach on the nonlinear response of thick functionally
graded circular cylindrical shells with temperature independent material
property surrounded on elastic foundations subjected to mechanical and
thermal loads is presented. Material properties are graded in the
thickness direction according to a Sigmoid power law distribution in
terms of the volume fractions of constituents (S-FGM). The formulations
are based on the third order shear deformation shell theory taking into
account von Karman nonlinearity, initial geometrical imperfection and
Pasternak type elastic foundation. By applying Galerkin method and using
stress function, explicit relations of thermal load-deflection curves
of the S-FGM shells are determined. Detailed parametric studies are
carried out to investigate effects of volume fraction index, material
properties and geometrical shapes, axial compressions and thermal load,
foundation stiffness and imperfection on nonlinear buckling behaviors of
S-FGM thick circular cylindrical shells. The present analysis is
validated by comparing results with other publications
Title:
| Nonlinear buckling of higher deformable S-FGM thick circular cylindrical shells with metal-ceramic-metal layers surrounded on elastic foundations in thermal environment | |
| Authors: | Nguyen, Dinh Duc Pham, Toan Thang Nguyen, Trong Dao Hoang, Van Tac |
| Keywords: | Biological organs Shear deformation shell theories Nonlinear buckling Elastic foundation Ceramic materials Materials properties |
| Issue Date: | 2015 |
| Publisher: | Elsevier Ltd |
| Citation: | Scopus |
| Abstract: | An analytical approach on the nonlinear response of thick functionally graded circular cylindrical shells with temperature independent material property surrounded on elastic foundations subjected to mechanical and thermal loads is presented. Material properties are graded in the thickness direction according to a Sigmoid power law distribution in terms of the volume fractions of constituents (S-FGM). The formulations are based on the third order shear deformation shell theory taking into account von Karman nonlinearity, initial geometrical imperfection and Pasternak type elastic foundation. By applying Galerkin method and using stress function, explicit relations of thermal load-deflection curves of the S-FGM shells are determined. Detailed parametric studies are carried out to investigate effects of volume fraction index, material properties and geometrical shapes, axial compressions and thermal load, foundation stiffness and imperfection on nonlinear buckling behaviors of S-FGM thick circular cylindrical shells. The present analysis is validated by comparing results with other publications |
| Description: | Composite Structures, Volume 121, March 01, 2015, Pages 134-141 |
| URI: | http://www.sciencedirect.com/science/article/pii/S0263822314005789 http://repository.vnu.edu.vn/handle/VNU_123/32522 |
| ISSN: | 02638223 |
| Appears in Collections: | Bài báo của ĐHQGHN trong Scopus |
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