期刊
JOURNAL OF MATERIALS IN CIVIL ENGINEERING
卷 34, 期 11, 页码 -出版社
ASCE-AMER SOC CIVIL ENGINEERS
DOI: 10.1061/(ASCE)MT.1943-5533.0004467
关键词
Neat asphalt; Asphalt aging; Asphalt rejuvenation; Rheological properties; Gray entropy correlation analysis (GECA); Linear regression model
资金
- Postgraduate Scientific Research Innovation Project of Hunan Province [CX20190642]
- research on green recycling technology of asphalt mixture [20192khx111]
The study investigates the correlation between the chemical composition and theological properties of neat asphalt after aging and rejuvenation. The results show that the rheological properties of the asphalt change with aging, but can be reversed by the addition of a regenerating agent. The study also discovers linear relationships among several rheological parameters through correlation analysis.
To study the correlation between the chemical composition and theological properties of neat asphalt after aging and rejuvenation, the neat asphalt with different aging time was prepared, and its theological properties were tested by dynamic shear rheology (DSR) and bending beam rheology (BBR). The functional groups were tested by the Fourier transform infrared (FfIR). Based on the gray entropy correlation analysis (GECA), the correlation of test parameters was analyzed linearly. The results show that with the aging of asphalt, the complex modulus (G*), phase angle (delta), and creep rate (m) decrease, while the creep stiffness (S), carbonyl index (CI), and sulfoxide index (SI) increase. After the addition of regenerating agent, the theological performance indexes and the content changes of characteristic functional groups of recycled asphalt are opposite to those of aging asphalt. The gray entropy correlation degrees among the SI/CI, delta, and G*, and among the rutting factor (G*/sin delta), creep stiffness S (-12 degrees C, -18 degrees C, and -24 degrees C) and creep rate m (-12 degrees C, -18 degrees C, and -24 degrees C) are more than 0.96; the theological parameters delta, G*, G*/ sin delta, and S (-18 degrees C and -24 degrees C) of asphalt have a unary linear relationship with the SI/CI, and its rheological parameters delta, G*, G*/sin delta, S (-18 degrees C and -24 degrees C), and m (-24 degrees C) have a binary linear relationship with the composite index (AI) (SI+CI). These findings are of great significance to understanding the evolution law of theological properties of neat asphalt after aging and rejuvenation. (C) 2022 American Society of Civil Engineers.
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