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Performance Study of Waste PE-Modified High-Grade Asphalt
Summary
This study tests how adding waste polyethylene plastic to road asphalt affects its performance, finding that a 5% blend significantly improves resistance to heat-related deformation while slightly worsening cold-temperature flexibility. While focused on road engineering, the research is relevant to microplastics because plastic-modified asphalt can release polyethylene particles through wear, contributing to road-related microplastic pollution.
In this work, waste polyethylene (PE)-modified 90# asphalt was made in order to investigate the performance of waste polyethylene-modified high-grade asphalt and the optimal blending quantity. Dynamic Shear Rheology (DSR) and Bending Beam Rheometer (BBR) tests were used to evaluate the high- and low-temperature performance of modified 90# PE-modified asphalt. Infrared spectroscopy and fluorescence microscopy were used to investigate the modification process and distribution status of waste PE in 90# asphalt. The DSR and BBR tests revealed that waste PE enhanced the high-temperature performance of 90# base asphalt and that 5% was the best blending rate. However, the change affects asphalt's low-temperature performance, and the negative effect on asphalt's low-temperature performance was minimized at 1% dosing. The incorporation of waste PE absorbed the light components of asphalt, while waste PE can form a reticulated structure in asphalt, which improves its high-temperature performance but degrades its low-temperature performance, according to the results of infrared spectroscopy and fluorescence microscopy.
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