On transverse vibrations of functionally graded isotropic linearly elastic rotating solid disks
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Modelling creep response of a functionally graded rotating disc with exponential reinforcement gradient
2019, Materials Today: ProceedingsDynamics comparison of rotating flexible annular disk under different edge boundary conditions
2018, International Journal of Mechanical SciencesCitation Excerpt :Khorasany and Hutton [9] investigated the transverse linear vibration of a flexible annular disk rotating at a constant angular speed and free to have rigid body transverse translation. For the functionally graded rotating disks, the transverse vibrations of isotropic linear elastic rotating solid disk (circular plate) was studied by Güven and Çelik [10], and the in-plane stress analysis was carried out for a non-uniform thickness disk rotating at variable angular velocity by Zheng et al. [11]. With a circumferential open crack, Bahaloo et al. [12] investigated the transverse vibration and stability of a rotating annular disk under inner fixed and outer free edge boundary conditions.
Transverse vibration and stability of a functionally graded rotating annular disk with a circumferential crack
2016, International Journal of Mechanical SciencesCitation Excerpt :From the above discussion it is clear that in contrast to the in-plane behavior of FG disks and the transverse vibration of regular un-cracked and cracked rotating disks, the transverse vibration of rotating FG disks is barely touched in the literature. To the best knowledge of authors, the only study, which investigated the transverse vibrations of the FG rotating disk, is that by Güven and Çelik [44]. They considered a disk with a varying modulus of elasticity in radial direction, applied the Rayleigh–Ritz method to solve the equations of motion, and showed that the variation of elastic modulus plays a significant role in disk vibrational behavior.
A three-dimensional elasticity solution for functionally graded rotating disks
2010, Composite StructuresEffects of radially varying moduli on stress distribution of nonhomogeneous anisotropic cylindrical bodies
2005, International Journal of Solids and StructuresElastic analysis of internally pressurized thick-walled spherical pressure vessels of functionally graded materials
2005, International Journal of Pressure Vessels and Piping