Exact two-dimensional solutions for in-plane natural frequencies of laminated circular arches

Temperature-dependent in-plane vibration of functionally graded (FGM) circular arches based on the two-dimensional theory of elasticity is investigated. An analytical solution using the state space formulation and Fourier series expansion is obtained for a simply supported circular arch. For such fu

The in-plane free vibrational analysis of symmetric cross-ply laminated circular arches is studied using both the Timoshenko and Bernoulli}Euler beam theories. The free vibration equations are derived based on the distributed parameter model. The transfer matrix method is used in the analysis. The n

In this paper, the in-plane free vibration analysis of functionally graded (FG) thick circular arches subjected to initial stresses due to thermal environment is studied. The formulations are based on the two-dimensional elasticity theory. The material properties are assumed to be temperature-depend

A systematic and straightforward approach to obtain accurate transient responses of circular arches subjected to point loading and support motions is presented. The Laplace transform is applied to the time variable. Then, an analytical solution is formulated in the s-domain. Finally, an efficient an