Hygrothermoelastic Analysis of Orthotropic Cylindrical Shells

Ali, Jaffar Syed Mohamed; Alsubari, Saleh; Aminanda, Yulfian

doi:10.1590/1679-78252249

Cited by 18 publications

(5 citation statements)

References 28 publications

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“…Alsubari et al [26] studied on the bending behavior of simply supported anisotropic cylindrical shells under the influence of moisture and temperature. The bending of simply supported orthotropic cylindrical shells under hygrothermoelasticity was demonstrated by Mohamed et al [27]. Hosseini and Ghadiri [28] discussed two-dimensional problems in a coupled hygrothermoelastic medium.…”

Section: Introductionmentioning

confidence: 95%

One-dimensional thermal shock problem for a semi-infinite hygrothermoelastic rod

AILAWALIA,

KUMAR

2023

International Journal of Applied Mechanics and Engineering

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The present research article deals with the study of a boundary value problem of a one-dimensional semi-infinite hygro-thermoelastic rod of length l. The deformation of the rod is under consideration when the left boundary of the hygro-thermoelastic rod is subjected to a sudden heat source. The solutions of the considered variables are decomposed in terms of normal modes. Analytical expressions of displacement, moisture concentration, temperature field, and stresses are obtained and presented graphically for different periods. By studying the one-dimensional thermal shock problem for a semi-infinite hygrothermoelastic rod, the authors aim to gain insights into the fundamental behavior of materials subjected to rapid temperature changes and moisture effects.

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Section: Introductionmentioning

confidence: 95%

One-dimensional thermal shock problem for a semi-infinite hygrothermoelastic rod

AILAWALIA,

KUMAR

2023

International Journal of Applied Mechanics and Engineering

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“…where: Therefore, in order to determine the necessary boundary conditions at the skew edge, edge displacements in the local coordinates should be used. For this purpose, the matrix of elements corresponding to the global axis shall be transformed into a local one [30] f skew shells are not parallel to the global axis, it is not possible displacements u0,w0,v0 etc. (Fig.…”

Section: Skew Transformationsmentioning

confidence: 99%

“…x y z should be used. For this purpose, the matrix of elements corresponding to the global axis shall be transformed into a local one [30] (21).…”

Section: Skew Transformationsmentioning

confidence: 99%

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Temperature and moisture effect on laminated rhombic hyperbolic paraboloid

Chaubey¹,

Kumar²,

Grzegorczyk-Frańczak

et al. 2020

Bud-Arch

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The current work presents a hygrothermal analysis of laminated composite rhombic hyperbolic paraboloids. The cubic variation in displacement field together with cross curvature effects of the shell were used to solve the hygrothermal problem. Because of the parabolic variation of the transverse shear deformation, the shear correction factor was not necessary in this paper. In the mathematical model, the zero conditions of the transverse shear stress at the bottom and top of the shell were applied. The nine-noded curved isoparametric element with seven unknowns in each node was used to implement the present realistic mathematical model. The implementation of the finite element C0 (FE) of the present mathematical model was coded and performed in FORTRAN. The skew hyperbolic paraboloid on which the hygrothermal analysis was conducted had various temperatures, ply orientation, curvatures, moisture concentration, boundary conditions and thickness ratio. The paper shows that with the increase of the skew angle, the non-dimensional deflection decreases, and with the increase of moisture concentration, hygrothermal load and curvature ratio, the deflection increases. The results of the model presented in the paper were compared with other results published in the literature and were found to be consistent with them.

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“…In the framework of the Carrera’s unified formulation, a refined 2D model was proposed by Brischetto [25] for the bending analysis of multilayered composite and sandwich shells under hygrothermal and mechanical loadings. Ali et al [26,27] performed the hygrothermal analysis of cylindrical shells using HSDT. An experimental and a numerical study based on FSDT was presented by Biswal et al [28] for the dynamic analysis of laminated shallow shells under hygrothermal conditions.…”

Section: Introductionmentioning

confidence: 99%

Hygrothermal Analysis of Laminated Composite Skew Conoids

et al. 2019

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The present paper is the first study on the hygrothermal analysis (i.e., effect of temperature and moisture loadings) of laminated composite skew conoids with reasonable depth and thickness. In order to solve the hygrothermal problem of laminated composite skew conoids, the cubic variation in displacement field, along with cross curvature effects of the shell, were considered. In the present analysis, the shear correction factor is not needed due to the parabolic variation of transverse shear strain. The zero transverse shear stress conditions at the top and bottom of the shell were imposed in the mathematical model. The novelty of our model is reflected by the simultaneous addition of twist curvature in the strain field, as well as the curvature in the displacement field allowing the reasonably thick and deep laminated composite rhombic conoid. The conoid behavior differs from the usual shells, like cylindrical or spherical ones, due to its inherent twist curvature with the complex geometry and different location of maximum deflection. The finite element (FE) implementation of the present realistic mathematical model was carried out using a nine-noded curved isoparametric element with seven unknowns at each node. The C0 FE implementation of the present mathematical model was done and coded in FORTRAN. The present model results were compared and found in good agreement with other solutions published in the literature. Hygrothermal analysis was performed for skew conoids having a different skew angle, temperature, moisture concentration, curvatures, ply orientation, thickness ratio, and boundary conditions.

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Hygrothermoelastic Analysis of Orthotropic Cylindrical Shells

Cited by 18 publications

References 28 publications

One-dimensional thermal shock problem for a semi-infinite hygrothermoelastic rod

One-dimensional thermal shock problem for a semi-infinite hygrothermoelastic rod

Temperature and moisture effect on laminated rhombic hyperbolic paraboloid

Hygrothermal Analysis of Laminated Composite Skew Conoids

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