Abstract
Thermal stresses are leading factors that influence low-temperature cracking behavior of asphalt pavements. During winter, when the temperature drops to significantly low values, tensile thermal stresses develop as a result of pavement contraction. Creep test methods can be suitable for the assessment of low-temperature properties of asphalt mixtures. To evaluate the influence of creep test methods on the obtained low-temperature properties of asphalt mixtures, three point bending and uniaxial tensile creep tests were applied and the master curves of stiffness modulus were analyzed. On the basis of creep test results, rheological parameters describing elastic and viscous properties of the asphalt mixtures were determined. Thermal stresses were calculated and compared to the tensile strength of the material to obtain the failure temperature of the analyzed asphalt mixtures. It was noted that lower strain values of creep curves were obtained for the Tensile Creep Test (TCT) than for the Bending Beam Creep Test (BBCT), especially at lower temperatures. Results of thermal stress calculations indicated that higher reliability was obtained for the viscoelastic Monismith method based on the TCT results than for the simple quasi-elastic solution of Hills and Brien. The highest agreement with the TSRST results was also obtained for the Monismith method based on the TCT results. No clear relationships were noted between the predicted failure temperature and different methods of thermal stress calculations.
Highlights
IntroductionLow-temperature cracking of asphalt pavements can be a serious problem in regions where the temperature drops to extremely low values, such as −20 ◦ C or lower
The main objective of the paper is to assess the influence of creep test methods on the obtained results of low-temperature properties of asphalt mixtures, especially the thermal stresses induced in asphalt pavement by a decrease in temperature during winter
This paper presents the study of low-temperature creep properties of asphalt mixtures and the methods of thermal stress assessment
Summary
Low-temperature cracking of asphalt pavements can be a serious problem in regions where the temperature drops to extremely low values, such as −20 ◦ C or lower. When the pavement is cooled to a temperature significantly lower than 0 ◦ C, tensile stresses develop in the asphalt layer as a result of the pavement’s tendency to contract. Low-temperature cracks develop at the surface of the pavement when tensile thermal stress induced in the asphalt layer during cooling equals and exceeds the tensile strength of the material [1,2,3,4,5,6]. The existence of transverse cracks caused by extremely low temperature leads to degradation of the pavement structure by water entering through the cracks. The addition of additives such as sulfur [7], bio-agents [8], rubber-bitumen granulate [9] or composition of polymer-rubber modified bitumen [10]
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