A. M. Eldeeb scite author profile

In this paper, the thermo-elastoplastic behaviors of rotating sandwich nonuniform thickness annular discs made of functionally graded materials are evaluated using the numerical finite difference method. The sandwich disc is composed of number of equal width layers, and each layer has its own volume fraction. The temperature dependency of the constituent materials is considered; hence, the thermomechanical properties are functions of both position and temperature. The plasticity analysis is accomplished based on the modified Tamura-Tomota-Ozawa model and von Mises yielding criterion. The effects of angular speed, number of layers, thickness profile, and boundary conditions on the stresses and displacements are investigated. Since failure may occur at the interface between the successive layers, the circumferential stress-jumps at the interfaces are also considered. Results ascertain that the temperature dependency of the properties highly influences the disc behaviors. In addition, better disc performance is obtained by increasing the number of layers and/or decreasing the angular speed.

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Thermoelastic stresses alleviation for two-dimensional functionally graded cylinders under asymmetric loading

Eldeeb

Shabana

El-Sayed

et al. 2022

Journal of Thermal Stresses

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A. M. Eldeeb

Influences of angular deceleration on the thermoelastoplastic behaviors of nonuniform thickness multilayer FGM discs

Investigation of the thermoelastoplastic behaviors of multilayer FGM cylinders

Thermo-elastoplastic behavior of a rotating sandwich disc made of temperature-dependent functionally graded materials

Thermoelastic stresses alleviation for two-dimensional functionally graded cylinders under asymmetric loading

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