Thermo-mechanical stability analysis of functionally graded shells
•The thermo-elastic nonlinear analysis of various Functionally Graded shell is studied.•The Voigt’s model is adopted to define the Functionally Graded material properties.•A six-noded isoparanetric triangular shell element is presented.•The Euler-Rodrigues formulations and the first-order shear defo...
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| Published in | Engineering structures Vol. 178; pp. 1 - 11 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
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01.01.2019
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| Abstract | •The thermo-elastic nonlinear analysis of various Functionally Graded shell is studied.•The Voigt’s model is adopted to define the Functionally Graded material properties.•A six-noded isoparanetric triangular shell element is presented.•The Euler-Rodrigues formulations and the first-order shear deformation theory are employed.•Thermo-mechanical buckling of FG shell is predicted.•Both the pre-buckling and post-buckling equilibrium paths are traced.
In this paper, the thermo-elastic nonlinear analysis of various Functionally Graded (FG) shells under different loading conditions is studied. A second-order isoparametric triangular shell element is presented for this purpose. The element is six-noded, and each node has all six independent degrees of freedom in space. It should be added, the first-order shear deformation theory is induced. Furthermore, Voigt’s model is adopted to define the FG material properties, which are considered to change gradually from one surface to another. The critical temperature is predicted. Both the pre-buckling and post-buckling equilibrium paths are traced. Since the linear eigenvalue analysis leads to wrong responses in the problems with strong nonlinearity, the suggested procedure is performed based on the FEM and more exact estimations are achieved using equilibrium path. |
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| AbstractList | In this paper, the thermo-elastic nonlinear analysis of various Functionally Graded (FG) shells under different loading conditions is studied. A second-order isoparametric triangular shell element is presented for this purpose. The element is six-noded, and each node has all six independent degrees of freedom in space. It should be added, the first-order shear deformation theory is induced. Furthermore, Voigt’s model is adopted to define the FG material properties, which are considered to change gradually from one surface to another. The critical temperature is predicted. Both the pre-buckling and post-buckling equilibrium paths are traced. Since the linear eigenvalue analysis leads to wrong responses in the problems with strong nonlinearity, the suggested procedure is performed based on the FEM and more exact estimations are achieved using equilibrium path. •The thermo-elastic nonlinear analysis of various Functionally Graded shell is studied.•The Voigt’s model is adopted to define the Functionally Graded material properties.•A six-noded isoparanetric triangular shell element is presented.•The Euler-Rodrigues formulations and the first-order shear deformation theory are employed.•Thermo-mechanical buckling of FG shell is predicted.•Both the pre-buckling and post-buckling equilibrium paths are traced. In this paper, the thermo-elastic nonlinear analysis of various Functionally Graded (FG) shells under different loading conditions is studied. A second-order isoparametric triangular shell element is presented for this purpose. The element is six-noded, and each node has all six independent degrees of freedom in space. It should be added, the first-order shear deformation theory is induced. Furthermore, Voigt’s model is adopted to define the FG material properties, which are considered to change gradually from one surface to another. The critical temperature is predicted. Both the pre-buckling and post-buckling equilibrium paths are traced. Since the linear eigenvalue analysis leads to wrong responses in the problems with strong nonlinearity, the suggested procedure is performed based on the FEM and more exact estimations are achieved using equilibrium path. |
| Author | Arabi, E. Pourhekmat, D. Rezaiee-Pajand, M. |
| Author_xml | – sequence: 1 givenname: M. surname: Rezaiee-Pajand fullname: Rezaiee-Pajand, M. email: rezaiee@um.ac.ir – sequence: 2 givenname: D. surname: Pourhekmat fullname: Pourhekmat, D. – sequence: 3 givenname: E. surname: Arabi fullname: Arabi, E. |
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| CitedBy_id | crossref_primary_10_1016_j_engstruct_2022_113963 crossref_primary_10_1016_j_ast_2019_02_017 crossref_primary_10_3390_nano9020271 crossref_primary_10_1016_j_oceaneng_2023_113649 crossref_primary_10_1080_15397734_2024_2318735 |
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| Keywords | Thermo-mechanical loading Triangular element Functionally graded materials Buckling and post-buckling Nonlinear analysis |
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| Snippet | •The thermo-elastic nonlinear analysis of various Functionally Graded shell is studied.•The Voigt’s model is adopted to define the Functionally Graded material... In this paper, the thermo-elastic nonlinear analysis of various Functionally Graded (FG) shells under different loading conditions is studied. A second-order... |
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| SubjectTerms | Buckling Buckling and post-buckling Critical temperature Eigenvalues Elastic analysis Finite element analysis Functionally graded materials Functionally gradient materials Material properties Nonlinear analysis Nonlinear systems Nonlinearity Postbuckling Shear deformation Shear strength Shell stability Shells Stability analysis Systems stability Thermo-mechanical loading Thermomechanical analysis Triangular element |
| Title | Thermo-mechanical stability analysis of functionally graded shells |
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