A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Performance evaluation of waterborne epoxy resin modified emulsified asphalt mixtures for asphalt pavement pothole repair
Highlights Two waterborne epoxy resins and three doses were used to prepare cold patching mixtures for pothole repair. The mixing time and storage properties of cold asphalt emulsion mixtures of two waterborne epoxy resins satisfied the operation at the site. Cold patch mixtures prepared with waterborne epoxy resin could shorten the curing time for opening traffic compared with conventional asphalt emulsion mixtures. The addition of waterborne epoxy resin would improve the high-temperature stability and moisture stability of cold patch mixtures.
Abstract Many measures have been developed for improving the mechanical properties of cold asphalt emulsion mixtures. Utilizing the waterborne epoxy resin (WER) to enhance the performance of cold patch mixtures is interesting for some researchers. In the present study, the objective was to conduct a series of investigations of cold patch mixtures prepared with WER modified asphalt emulsion. The conventional testing procedures including consistency test, cohesion test, storage characteristic test, mechanical property test, high and low temperature test, and moisture susceptibility test were employed to determine the influences of WER on the construction properties and pavement performance of cold patch mixtures. The experimental scheme included two WERs and three doses. The test results indicated that the cold patch mixtures produced by WER modified asphalt emulsion was feasible and the WER type and dose affected the construction properties and performance. In addition, the use of WER would improve the early strength and shorten the curing time, while the loose cold patch mixtures still had good storage characteristics after a certain time interval. Meanwhile, the high-temperature stability and moisture stability of the cold patch mixtures increased as the dose of WER increased, but low-temperature characteristic exhibited adverse trends.
Performance evaluation of waterborne epoxy resin modified emulsified asphalt mixtures for asphalt pavement pothole repair
Highlights Two waterborne epoxy resins and three doses were used to prepare cold patching mixtures for pothole repair. The mixing time and storage properties of cold asphalt emulsion mixtures of two waterborne epoxy resins satisfied the operation at the site. Cold patch mixtures prepared with waterborne epoxy resin could shorten the curing time for opening traffic compared with conventional asphalt emulsion mixtures. The addition of waterborne epoxy resin would improve the high-temperature stability and moisture stability of cold patch mixtures.
Abstract Many measures have been developed for improving the mechanical properties of cold asphalt emulsion mixtures. Utilizing the waterborne epoxy resin (WER) to enhance the performance of cold patch mixtures is interesting for some researchers. In the present study, the objective was to conduct a series of investigations of cold patch mixtures prepared with WER modified asphalt emulsion. The conventional testing procedures including consistency test, cohesion test, storage characteristic test, mechanical property test, high and low temperature test, and moisture susceptibility test were employed to determine the influences of WER on the construction properties and pavement performance of cold patch mixtures. The experimental scheme included two WERs and three doses. The test results indicated that the cold patch mixtures produced by WER modified asphalt emulsion was feasible and the WER type and dose affected the construction properties and performance. In addition, the use of WER would improve the early strength and shorten the curing time, while the loose cold patch mixtures still had good storage characteristics after a certain time interval. Meanwhile, the high-temperature stability and moisture stability of the cold patch mixtures increased as the dose of WER increased, but low-temperature characteristic exhibited adverse trends.
Performance evaluation of waterborne epoxy resin modified emulsified asphalt mixtures for asphalt pavement pothole repair
Xu, Ouming (author) / Li, Yang (author) / Xu, Rentao (author) / Liu, Yamin (author) / Dong, Yuming (author)
2022-01-31
Article (Journal)
Electronic Resource
English
Asphalt pavement , Pothole , Waterborne epoxy resin , Cold patch mixtures , Mixing time , Cohesion torque , Marshall stability , Dynamic stability , Flexural strain , Tensile strength ratio , WER , CAEM , Cold asphalt emulsion mixture , WEREA , Waterborne epoxy resin emulsified asphalt , SBR , Styrene butadiene rubber , OGFC , Open graded friction course , WCA , Waterborne curing agent