NURBS-augmented finite element method for stability analysis of arbitrary thin plates

“…But the exact solutions of those deflection problems are very difficult to be solve.So, many methods have been used to solve those problems such as Yun et al [1] used the homotopy perturbation method to solve a problem of large deflection of circular plate; Wang et al [2] used the modified iteration method for a problem of large deflection of circular plate. Duan [3] used least-squares finite element method for the thin plate problem under clamped, simply supported and free boundary conditions; Abd Elhady et al [4] analyzed stress and strain concentration factors for plate with small notch subjected to biaxial loading by using three dimensional finite element method; Sladek [5] used mesh-free methods for simple boundary value problems for circular plate; Alkhayal [6] considered the von Karman equations in the case of a simply supported thin plate via nonlinear Gauss-Seidel fixed point scheme; Man et al [7] analysed high-order plate bending based on the scaled boundary finite element method; Mishra and Barik [8] used augmented finite element method for stability problem of arbitrary thin plates augmented finite element method for stability problem of thin plates; Assari et al [9,10] proposed the local thin plate splines for solving logarithmic Fredholm integral equation and Vol terra integral equation; Kosmodamianskii [11] used small parameter method for problems of the strain of thin plates and so on. In this paper, we will use the Adomian decomposition method to consider circular plates of variable thickness with fixed edge under uniform load as Fig.…”

Deflection problem of circular plates of variable thickness with fixed edges under uniform loaded

“…But the exact solutions of those deflection problems are very difficult to be solve.So, many methods have been used to solve those problems such as Yun et al [1] used the homotopy perturbation method to solve a problem of large deflection of circular plate; Wang et al [2] used the modified iteration method for a problem of large deflection of circular plate. Duan [3] used least-squares finite element method for the thin plate problem under clamped, simply supported and free boundary conditions; Abd Elhady et al [4] analyzed stress and strain concentration factors for plate with small notch subjected to biaxial loading by using three dimensional finite element method; Sladek [5] used mesh-free methods for simple boundary value problems for circular plate; Alkhayal [6] considered the von Karman equations in the case of a simply supported thin plate via nonlinear Gauss-Seidel fixed point scheme; Man et al [7] analysed high-order plate bending based on the scaled boundary finite element method; Mishra and Barik [8] used augmented finite element method for stability problem of arbitrary thin plates augmented finite element method for stability problem of thin plates; Assari et al [9,10] proposed the local thin plate splines for solving logarithmic Fredholm integral equation and Vol terra integral equation; Kosmodamianskii [11] used small parameter method for problems of the strain of thin plates and so on. In this paper, we will use the Adomian decomposition method to consider circular plates of variable thickness with fixed edge under uniform load as Fig.…”

Deflection problem of circular plates of variable thickness with fixed edges under uniform loaded

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