Influence of high temperature on the stability performance of high density polyethylene and crumb rubber powder modified HMA mixture

Purpose - In high-temperature regions (tropical regions) temperatures rises in summer, which affects the performance of asphalt pavement. Therefore, we must consider the conditions of asphalt pavement, especially in these regions. This study aims to investigate the influence of high temperature on the stability performance of high-density polyethylene (HDPE) and crumb rubber powder (CRP) modified hot mix asphalt (HMA) using Marshall design parameters and rutting test. Design/methodology/approach - In this study, three HMA mixtures with 4 per cent HDPE and 15 per cent CRP, 5 per cent HDPE and 10 per cent CRP, and 6 per cent HDPE and 5 per cent CRP concentrations were used for the Marshall stability test and dynamic stability (rutting test) at 60-75 degrees C, and water stability test at 60 degrees C. Findings - The results showed that when test temperature was increased from 60 degrees C to 75 degrees C, the Marshall stability and dynamic stability of three HDPE-and CRP-modified HMA mixtures decreased, and these three HDPE-and CRP-modified HMA mixtures have a good moisture damage resistance. Of the three HMA mixtures with different HDPE and CRP concentrations, HMA mixtures with 5 per cent HDPE and 10 per cent CRP concentration exhibit optimal Marshall stability, dynamic stability and water stability. Originality/value - This study showed the effects of high-temperatures changes on the stability performance of HDPE-and CRP-modified HMA mixtures.