A review of theories for the modeling and analysis of functionally graded plates and shells
In this paper, a comprehensive review of various theories for the modeling and analysis of
functionally graded plates and shells is presented. The review is devoted to theoretical …
functionally graded plates and shells is presented. The review is devoted to theoretical …
A critical review of stress and vibration analyses of functionally graded shell structures
Design of structures has followed an evolutionary pattern, where progressive developments
have been made simultaneously on materials, geometries and design approaches. With the …
have been made simultaneously on materials, geometries and design approaches. With the …
Analysis of functionally graded sandwich and laminated shells using a layerwise theory and a differential quadrature finite element method
A layerwise shear deformation theory for functionally graded (FGM) sandwich shells and
laminated composite shells is discretized using a differential quadrature finite element …
laminated composite shells is discretized using a differential quadrature finite element …
Novel approach-based sparsity for damage localization in functionally graded material
Model-based approaches have been widely employed in damage detection and localization
studies. However, alternative techniques, such as built-in online detection methods, hold …
studies. However, alternative techniques, such as built-in online detection methods, hold …
Free vibration of non-Lévy-type functionally graded doubly curved shallow shells: New analytic solutions
Analytic solutions are of great significance to serve as benchmarks for validating numerical
methods and to guide efficient preliminary structural designs. In this paper, we concentrate …
methods and to guide efficient preliminary structural designs. In this paper, we concentrate …
Nonlinear analysis of cylindrical sandwich shells with porous core and CNT reinforced face-sheets by higher-order thickness and shear deformation theory
This paper presents the nonlinear static analysis of circular cylindrical sandwich shells using
a higher-order thickness and shear deformation theory with nine kinematic parameters. The …
a higher-order thickness and shear deformation theory with nine kinematic parameters. The …
Bending, free and forced vibration of functionally graded deep curved beams in thermal environment using an efficient layerwise theory
In this work, an efficient layerwise theory has been presented for static, free and forced
vibration analysis of functionally graded material (FGM) circular curved beams having deep …
vibration analysis of functionally graded material (FGM) circular curved beams having deep …
Nonlinear vibration characteristics of shear deformable functionally graded curved panels with porosity including temperature effects
In this study, nonlinear thermo-elastic vibration characteristics of shear deformable
functionally graded (FG) curved porous panels have been analyzed using the finite element …
functionally graded (FG) curved porous panels have been analyzed using the finite element …
Elastodynamic analysis of quadrilateral CNT-reinforced functionally graded composite plates using FSDT element-free method
An elastodynamic analysis of quadrilateral carbon nanotube (CNT) reinforced functionally
graded composite plates subjected to a transverse sudden dynamic load is studied. Based …
graded composite plates subjected to a transverse sudden dynamic load is studied. Based …
Free vibration of functionally graded sandwich shallow shells in thermal environments by a differential quadrature hierarchical finite element method
B Liu, M Guo, C Liu, Y Xing - Composite Structures, 2019 - Elsevier
This paper presents a differential quadrature hierarchical finite element method (DQHFEM)
for dynamic analyses of functionally graded material (FGM) sandwich shallow shells in …
for dynamic analyses of functionally graded material (FGM) sandwich shallow shells in …