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Self-healing performance and prediction model of microcapsule asphalt
•HI of microcapsule SBS modified asphalt were higher than neat asphalt.•HI of microcapsule asphalt has a good linear relationship with th0.25.•Models could predict HI values of microcapsule asphalt accurately. Asphalt is a kind of material with self-healing ability, but the rate of self-healing can...
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Published in: | Construction & building materials 2022-05, Vol.330, p.127085, Article 127085 |
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Main Authors: | , , , , , , |
Format: | Article |
Language: | English |
Subjects: | |
Citations: | Items that this one cites Items that cite this one |
Online Access: | Get full text |
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Summary: | •HI of microcapsule SBS modified asphalt were higher than neat asphalt.•HI of microcapsule asphalt has a good linear relationship with th0.25.•Models could predict HI values of microcapsule asphalt accurately.
Asphalt is a kind of material with self-healing ability, but the rate of self-healing can not repair the damage under real load in time. Microcapsule technology is considered to be an effective technology to improve the self-healing ability of asphalt. Clarifying the self-healing behavior of microcapsule asphalt and quantitatively evaluating the improvement effect are the premise of further practical application of microcapsule technology. In this study, a fatigue-healing-fatigue test was performed using a dynamic shear rheometer. The ratio of dynamic modulus decay rate before and after asphalt healing (HI) was employed to evaluate the self-healing performance of microcapsule asphalt. In addition, the fatigue-healing-fatigue tests of microcapsule asphalt with different damage degree, microcapsule content and asphalt type were carried out under different rest time and healing temperature conditions; The test results showed that HI increased nonlinearly with the increase of rest time, healing temperature and microcapsule content, and HI decreased nonlinearly with the increase of damage degree. Then, based on the polymer self-healing theory, a macro self-healing behavior model of microcapsule asphalt considering two-stage healing process was established, which can accurately predict the macro healing ability of microcapsule asphalt. Finally, the micro mechanism of repairing asphalt microcracks by microcapsules was obversed via fluorescence microcopy. |
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ISSN: | 0950-0618 1879-0526 |
DOI: | 10.1016/j.conbuildmat.2022.127085 |