Abstract
This study focused on the development of a three-dimensional Finite Element Model of an asphalt concrete overlaid on a jointed plain concrete pavement to assess the mechanical behaviour of the pavement under traffic load. The objective of this study was to determine the influence of different asphalt concrete thickness, asphalt concrete modulus, the interface bond between the asphalt concrete and the Portland cement concrete layer, Portland cement concrete modulus, and joint width on the tensile strain at the bottom of the asphalt overlay. The results showed that changes in the pavement parameters result in a large range of variations on the magnitude of pavement responses. The magnitude of the longitudinal tensile strain at the bottom of the overlay varied between 25 με and 460 με. Asphalt concrete thickness, interface contact condition, and asphalt concrete modulus parameters had the most influence on the pavement responses. The interface bonding condition was significant, regardless of the thickness of the surface layer.
Highlights
Portland cement concrete (PCC) pavement is known for its longlasting durability service life with regular maintenance
A 3D Finite Element model (3D Finite Element Model (FEM)) able to simulate the responses of an asphalt concrete (AC) overlaid on an existing jointed plain concrete pavement (JPCP) with various parameters under traffic axle loading was created to accomplish the study objectives
As this study focused on analysis rather than design, a typical fourlayer pavement structure consisting of an AC overlaid on an existing JPCP resting on an aggregate base, and a subgrade was adopted (Figure1)
Summary
Portland cement concrete (PCC) pavement is known for its longlasting durability service life with regular maintenance. The good performance of this method of rigid pavement rehabilitation is affected negatively by the apparition of cracks knows as “reflective cracking”. These cracks are the results of high strain concentration in the asphalt overlay due to the bending and shearing movements of the underlying slabs at the joints or cracks present in the old structure, caused by temperature changes, moisture cycles, and traffic loads (Lytton, 1989; Lytton, Tsai, Lee, Luo, Hu, & Zhou, 2010; Nunn, 1989). Reflected crack leads to premature failure of the overlaid pavement, and it severely impacts the performance and the serviceability of the road (Francois, Larson, Pennsylvania, Borchert, Braun, Dustin, & Manheim, 1982)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
