Abstract
Rutting has a significant impact on the pavements' performance. Rutting depth is often used as a parameter to assess the quality of pavements. The Asphalt Institute (AI) design method prescribes a maximum allowable rutting depth of 13mm, whereas the AASHTO design method stipulates a critical serviceability index of 2.5 which is equivalent to an average rutting depth of 15mm. In this research, static and repeated compression tests were performed to evaluate the permanent strain based on (1) the relationship between mix properties (asphalt content and type), and (2) testing temperature. The results indicated that the accumulated plastic strain was higher during the repeated load test than that during the static load tests. Notably, temperature played a major role. The power-law model was used to describe the relationship between the accumulated permanent strain and the number of load repetitions. Furthermore, graphical analysis was performed using VESYS 5W to predict the rut depth for the asphalt concrete layer. The α and µ parameters affected the predicted rut depth significantly. The results show a substantial difference between the two tests, indicating that the repeated load test is more adequate, useful, and accurate when compared with the static load test for the evaluation of the rut depth.
Highlights
Rutting is a distress mechanism in flexible pavements
The accumulated strain at the flow number increased for the Repeated Load Test (RLT) and exhibited the opposite behavior for the Static Load Test (SLT)
The results indicated that the accumulated plastic strain for the repeated load test was higher than that of the static load test for various mixture properties and climatic conditions
Summary
Rutting is a distress mechanism in flexible pavements. Due to the increased truck tire pressures and the lack of maintenance that result in roadway deterioration [1], rutting has become the predominant mode of flexible pavement failures. Rutting is primarily caused by the accumulation of permanent deformations in the pavement or its layers. A major portion of rutting in the surface layer of flexible pavements is subjected to high tire pressures and heavy axle loads. High tire pressures decrease the contact area between the tire and the pavement, producing high stress, which aggravates deformation in flexible pavements. Environmental conditions affect significantly the surface layer of the pavements [2]
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