Abstract
In this study, nonlinear transient thermo-elastic analysis for a thick hollow 1D-FGM (functionally graded material) axisymmetric cylinder with finite length is investigated using higher-order graded finite element method. The material property gradations are along the radial direction and the power-law volume fraction and simple rule of mixture scheme are utilized to perform the effective material properties. As the cylinder exposed to high temperature, the temperature dependency of material properties is considered. So it led to nonlinear thermal conduction equation and in spite of the material distribution along one-direction by changing the temperature, the material properties are varied along two-direction with time. The nonlinear heat equation leads to 2D-temperature distribution for an axisymmetric cylinder. Also the thermal stress field would be different from an infinite cylinder which has been studied before. The temperatures, displacements and stresses for different values of volume fraction exponents along radial direction are investigated. It is revealed that the stresses and temperature in FGM cylinder are lower than the ceramic rich one. In other words, functionally graded cylinder wall gives better results in both stress and temperature cases than non-FGM cylinder.
Notes
Finite element method.
Multi-frontal massively parallel sparse direct solver.
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Najibi, A., Alizadeh, P. & Ghazifard, P. Transient thermal stress analysis for a short thick hollow FGM cylinder with nonlinear temperature-dependent material properties. J Therm Anal Calorim 146, 1971–1982 (2021). https://doi.org/10.1007/s10973-020-10442-2
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DOI: https://doi.org/10.1007/s10973-020-10442-2