Rheological properties of warm mixed high viscosity asphalt at high and low temperatures

Lei, Jun’an and Zheng, Nanxiang and Wang, Yuanyuan and Su, Haicheng and Ren, Xiaofeng and Zhao, Fujing and Yao, Hui (2024) Rheological properties of warm mixed high viscosity asphalt at high and low temperatures. PLOS ONE, 19 (3). e0301138. ISSN 1932-6203

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Abstract

The rheological properties of asphalt can well reflect its road performance, but the rheological properties of warm mix high viscosity asphalt (HVA) are unclear. In order to study the effect of warm mixing agent on rheological properties of HVA, two kinds of warm mixing agent EC120 (EC) and Evotherm M1 (M1) were selected to prepare warm mix HVA. The rheological properties of warm mix HVA at high temperature (135~195°C), medium temperature (0~80°C) and low temperature (-6~18°C) were studied by Brinell rotary viscosity test, dynamic shear rheological test (including temperature scanning, frequency scanning, linear amplitude scanning) and bending beam rheological test. The test results show that both EC and M1 have good viscosity reduction effect on HVA at high temperature, and can effectively reduce the construction temperature. At medium temperature, M1 can effectively improve the fatigue resistance of HVA, and the fatigue life can be increased by about 30% when the dosage is 0.6%. EC can increase the rutting factor of HVA and improve its resistance to deformation, but it will reduce its fatigue performance. When the dosage is 4%, the fatigue life will be reduced by about 9%. At low temperature, M1 can reduce the creep stiffness S, increase the creep rate m, and improve the low temperature performance of HVA, while EC has the opposite effect, weakening the low temperature performance of HVA. The results are helpful to understand the rheological properties of warm mix HVA and promote its application.

Item Type: Article
Subjects: European Repository > Biological Science
Depositing User: Managing Editor
Date Deposited: 05 Apr 2024 10:27
Last Modified: 05 Apr 2024 10:27
URI: http://go7publish.com/id/eprint/4280

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