ABSTRACT
This study aims to extend the spectral element technique to the three-dimensional (3D) mechanical response of the multi-layered transversely isotropic structure under a moving vehicular load and improve the pavement structural design framework. Details of the mathematical derivation and implementation of the analytical solution were presented. It shall be noted that, neither purely longitudinal nor purely transverse waves exist in the transversely isotropic medium which adds complexity to tackle this problem during analysis of trafficked pavement structures. Therefore, the current study decoupled the governing equations into out-of-plane motion and in-plane motion by using a space-decoupling technique. Numerical results indicated that the proposed spectral element model is reliable, accurate and efficient. Moreover, the interlayer condition between adjacent layers, the load speed, frequency, and the transversely isotropic property of finite and infinite layers significantly affect the flexible pavement structure's dynamic responses.
Disclosure statement
No potential conflict of interest was reported by the author(s).
Data availability statement
MATLAB program codes for processing dynamic response of pavement structures with various working cases in the current study are available from the first author or the corresponding author upon reasonable request.