Three-dimensional transient analysis of functionally graded truncated conical shells with variable thickness subjected to an asymmetric dynamic pressure

“…Static analysis of FGM truncated conical shells subjected to meridian, circumferential and normal uniform loadings was conducted by Viola et al (2014), using a third-order shear-deformation theory, GDQ method, and the stress recovery approach. A hybrid method composed of the layerwise theory, DQM, and Fourier series expansion was developed by Selahi et al (2014) for transient analysis of FGM truncated conical shells with variable thickness, under asymmetric dynamic pressures. Tornabene et al (2015) investigated recovery of the static transverse normal and shear stresses in FGM doubly-curved sandwich shells of revolution using Carrera's unified formulation and the DQM.…”

Analytical Bending and Stress Analysis of Variable Thickness FGM Auxetic Conical/Cylindrical Shells with General Tractions

“…Static analysis of FGM truncated conical shells subjected to meridian, circumferential and normal uniform loadings was conducted by Viola et al (2014), using a third-order shear-deformation theory, GDQ method, and the stress recovery approach. A hybrid method composed of the layerwise theory, DQM, and Fourier series expansion was developed by Selahi et al (2014) for transient analysis of FGM truncated conical shells with variable thickness, under asymmetric dynamic pressures. Tornabene et al (2015) investigated recovery of the static transverse normal and shear stresses in FGM doubly-curved sandwich shells of revolution using Carrera's unified formulation and the DQM.…”

Analytical Bending and Stress Analysis of Variable Thickness FGM Auxetic Conical/Cylindrical Shells with General Tractions

“…Selahi et al [47] presented three-dimensional transient analysis of functionally graded truncated conical shells with variable thickness subjected to an asymmetric dynamic pressure based on FSDT using DQM.…”

On the vibration and stability of shear deformable FGM truncated conical shells subjected to an axial load

“…26 Selahi et al developed a hybrid method based on 3D elasticity theory for transient analysis of FG truncated conical shell with variable thickness. 27 Also, Mehdi et al conducted a thermo-elastic analysis of axially functionally graded rotating thick truncated conical shells with varying thickness using multi-layer method (MLM). 28 This study investigates free vibration of antisymmetric angle-ply conical shells with linear and exponential variation in thickness under first order shear deformation theory (FSDT).…”

Free Vibration of Angle-ply Laminated Conical Shell Frusta with Linear and Exponential Thickness Variations