Time fractional thermoelastic problem of a thick cylinder with non homogeneous material properties

Thakare, Shivcharan; Warbhe, M. S.

doi:10.1088/1757-899x/1033/1/012077

Cited by 3 publications

(1 citation statement)

References 44 publications

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“…Isotropic inhomogeneity alludes to contrasts in material properties in the environment, which can have profound impacts on heat and stress distribution. The utilization of cylindrical calculation further complicates the problem of the bent surface and its interaction with various boundary conditions [3] . Researchers have recently concentrated on thermoelectricity in various contexts, for example, orthotropic cavities, magneto thermoelastic stresses, and phase-lag generalized thermoelastic models.…”

Section: Introductionmentioning

confidence: 99%

Exploring thermoelastic phenomena: Insights from isotropic inhomogeneity in cylindrical geometries

Mahata,

Keshri,

Mahato

2024

Int. J. Adv. Biochem. Res.

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This abstract of the research is isotropic inhomogeneity in a thermoelastic medium containing infinite space with cylindrical math. The proposed model of thermoelastic research is for a homogeneous isotropic cylinder exposed to various boundary conditions. The analytical model includes coupled and uncoupled arrangements with graphical representation using software like MATLAB 2023. To advance interdisciplinary collaboration and advance excellent research on boundary value problems. The research's significance lies in its practical applications in geophysics, optics, acoustics, geomagnetic overviews, and oil exploration. It investigates what time and inhomogeneity mean for the radial displacement, temperature, and stress parts. This research expands on existing information in the field of thermoelectricity gives valuable insights to experimental researchers and assists with bettering understanding of complex thermoelastic phenomena.

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Section: Introductionmentioning

confidence: 99%

Exploring thermoelastic phenomena: Insights from isotropic inhomogeneity in cylindrical geometries

Mahata,

Keshri,

Mahato

2024

Int. J. Adv. Biochem. Res.

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Investigation of thermo-elastic characteristics in functionally graded rotating disk using finite element method

Sharma¹,

Kaur

Sharma³

2021

Nonlinear Engineering

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In this research paper, displacement, stresses and strains are presented for rotating FGM disk with variable thickness by using finite element method (FEM). Thermo-elastic material properties and thickness of FGM disk continuously vary as exponential and power law function in radial direction along radius of disk. The value of Poisson's ratio is taken as constant. The problem of thermo-elasticity is converted into second order governing differential equation in terms of radial coordinate. This conversion is based upon equilibrium equation for disk and stress-strain relationship. The influence of variable thickness, angular velocity and functionally graded materials is discussed on thermo-elastic characteristics of rotating disk for exponential variation of material properties. Further, these thermo-elastic characteristics of disk are plotted for various values of non-homogeneity parameter under power law distribution of material properties. Thus, the investigations done in this research paper may be useful for industrial area in construction an appropriate FGM disk by controlling above mentioned parameters.

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Finite element method for stress and strain analysis of FGM hollow cylinder under effect of temperature profiles and inhomogeneity parameter

Sharma¹,

Kaur

Sandhir³

et al. 2021

Nonlinear Engineering

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This study represents a numerical analysis of stress and strain in the functionally graded material (FGM) hollow cylinder subjected to two different temperature profiles and inhomogeneity parameter. The thermo-mechanical properties of a cylinder are assumed to vary continuously as power law function along the radial coordinate of a cylinder. Based on equilibrium equation, Hooke's law, stress-strain relationship in the cylinders, and other theories from mechanics second order differential equation is obtained that represents the thermoelastic field in hollow FGM cylinder. To find a numerical solution of governing differential equation, the finite element method (FEM) with standard discretization approach is used. The analysis of numerical results reveals that stress and strain in the FGM cylinder are significantly depend upon variation made in temperature profile and inhomogeneity parameter n. The results show good agreement with results available in the literature. It is shown that thermoelastic characteristics of the FGM cylinder are controlled by controlling the value of the above discussed parameters. Moreover, these results are very useful in various fields of engineering and science as FGM cylinders have a wide range of applications in these fields.

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Time fractional thermoelastic problem of a thick cylinder with non homogeneous material properties

Cited by 3 publications

References 44 publications

Exploring thermoelastic phenomena: Insights from isotropic inhomogeneity in cylindrical geometries

Exploring thermoelastic phenomena: Insights from isotropic inhomogeneity in cylindrical geometries

Investigation of thermo-elastic characteristics in functionally graded rotating disk using finite element method

Finite element method for stress and strain analysis of FGM hollow cylinder under effect of temperature profiles and inhomogeneity parameter

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