## What is/are Graded Hollow?

Graded Hollow - A closed-form solution for transient thermal stress analysis of functionally graded hollow cylinder exposed to high-temperature difference is obtained under the influence of periodic rotation.^{[1]}It is shown that the state-vector formalism and Legendre polynomial hybrid approach is a powerful tool in solving wave motions in FGM elastic cylinder, which lays a theoretical foundation for the non-destructive evaluation and quantitative characterization of the gradient structure characteristics of functionally graded hollow cylinder.

^{[2]}This paper provides a solution for a functionally graded hollow cylinder by using a novel numerical solution technique.

^{[3]}Thermal stresses of a functionally graded hollow thick cylinder due to non-uniform internal heat generation are studied in this paper.

^{[4]}Then, the guided wave phase velocity dispersion curves, attenuation curves, displacement and temperature distributions for functionally graded hollow cylinders with different fractional orders, flexural orders, radius-thickness ratios and gradient fields are analyzed.

^{[5]}

## Functionally Graded Hollow

A closed-form solution for transient thermal stress analysis of functionally graded hollow cylinder exposed to high-temperature difference is obtained under the influence of periodic rotation.^{[1]}It is shown that the state-vector formalism and Legendre polynomial hybrid approach is a powerful tool in solving wave motions in FGM elastic cylinder, which lays a theoretical foundation for the non-destructive evaluation and quantitative characterization of the gradient structure characteristics of functionally graded hollow cylinder.

^{[2]}This paper provides a solution for a functionally graded hollow cylinder by using a novel numerical solution technique.

^{[3]}Thermal stresses of a functionally graded hollow thick cylinder due to non-uniform internal heat generation are studied in this paper.

^{[4]}Then, the guided wave phase velocity dispersion curves, attenuation curves, displacement and temperature distributions for functionally graded hollow cylinders with different fractional orders, flexural orders, radius-thickness ratios and gradient fields are analyzed.

^{[5]}

## graded hollow cylinder

A closed-form solution for transient thermal stress analysis of functionally graded hollow cylinder exposed to high-temperature difference is obtained under the influence of periodic rotation.^{[1]}It is shown that the state-vector formalism and Legendre polynomial hybrid approach is a powerful tool in solving wave motions in FGM elastic cylinder, which lays a theoretical foundation for the non-destructive evaluation and quantitative characterization of the gradient structure characteristics of functionally graded hollow cylinder.

^{[2]}This paper provides a solution for a functionally graded hollow cylinder by using a novel numerical solution technique.

^{[3]}Then, the guided wave phase velocity dispersion curves, attenuation curves, displacement and temperature distributions for functionally graded hollow cylinders with different fractional orders, flexural orders, radius-thickness ratios and gradient fields are analyzed.

^{[4]}