Application of Fog-Seal Technology with Waterborne Thermosetting Additive in Asphalt Pavement

AbstractAs the most important infrastructure of the airport system, airfield pavement is exposed to the challenges with heavy aircraft loads and increased flight frequency. Therefore, its preservation and maintenance has been imperative. Fog seal was one of the most cost-effective approaches to solv...

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Veröffentlicht in:	Journal of materials in civil engineering 2022-08, Vol.34 (8)
Hauptverfasser:	Xu, Ling, Jiang, Changshan, Xiao, Feipeng
Format:	Artikel
Sprache:	eng
Schlagworte:	Abrasion resistance Adhesive strength Aircraft maintenance Airports Asphalt pavements Bonding strength Building materials Chemical reactions Civil engineering Emulsions Fourier transforms Impact analysis Permeability Permeability tests Preventive maintenance Service life Skid resistance Statistical analysis Storage stability Technical Papers
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creator	Xu, Ling Jiang, Changshan Xiao, Feipeng
description	AbstractAs the most important infrastructure of the airport system, airfield pavement is exposed to the challenges with heavy aircraft loads and increased flight frequency. Therefore, its preservation and maintenance has been imperative. Fog seal was one of the most cost-effective approaches to solve the problem of early-stage damage and extend the service life of airport pavement. However, the traditional emulsified asphalt tended to present inadequate mechanical strength and would cause a temporary friction loss on pavement, even if polymer modification had been conducted. In this research, the application of thermosetting materials with modified asphalt emulsion, including waterborne epoxy and acrylate, was investigated as a preventive maintenance material for airport pavement. First, the storage stability was tested to study the compatibility. Then, the chemical reactions during the curing process of thermosetting materials in asphalt emulsion were observed by Fourier transform infrared (FTIR). The binder bond strength (BBS) test was conducted to evaluate the adhesion strength evolution of asphalt emulsions. The British Pendulum and pavement permeability tests were carried out to analyze the impact of waterborne additive on pavement skid resistance and permeability in terms of different sand contents. The abrasion resistance was measured by wet track abrasion tests. The thermosetting structures in residues were observed with the fluorescence microscope, and statistical analysis was conducted finally. The results revealed that waterborne epoxy and acrylate, as waterborne thermosetting modifiers, had high potential to be applied in fog seal technology for airport pavement.
doi_str_mv	10.1061/(ASCE)MT.1943-5533.0004288
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Therefore, its preservation and maintenance has been imperative. Fog seal was one of the most cost-effective approaches to solve the problem of early-stage damage and extend the service life of airport pavement. However, the traditional emulsified asphalt tended to present inadequate mechanical strength and would cause a temporary friction loss on pavement, even if polymer modification had been conducted. In this research, the application of thermosetting materials with modified asphalt emulsion, including waterborne epoxy and acrylate, was investigated as a preventive maintenance material for airport pavement. First, the storage stability was tested to study the compatibility. Then, the chemical reactions during the curing process of thermosetting materials in asphalt emulsion were observed by Fourier transform infrared (FTIR). The binder bond strength (BBS) test was conducted to evaluate the adhesion strength evolution of asphalt emulsions. The British Pendulum and pavement permeability tests were carried out to analyze the impact of waterborne additive on pavement skid resistance and permeability in terms of different sand contents. The abrasion resistance was measured by wet track abrasion tests. The thermosetting structures in residues were observed with the fluorescence microscope, and statistical analysis was conducted finally. 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Therefore, its preservation and maintenance has been imperative. Fog seal was one of the most cost-effective approaches to solve the problem of early-stage damage and extend the service life of airport pavement. However, the traditional emulsified asphalt tended to present inadequate mechanical strength and would cause a temporary friction loss on pavement, even if polymer modification had been conducted. In this research, the application of thermosetting materials with modified asphalt emulsion, including waterborne epoxy and acrylate, was investigated as a preventive maintenance material for airport pavement. First, the storage stability was tested to study the compatibility. Then, the chemical reactions during the curing process of thermosetting materials in asphalt emulsion were observed by Fourier transform infrared (FTIR). The binder bond strength (BBS) test was conducted to evaluate the adhesion strength evolution of asphalt emulsions. The British Pendulum and pavement permeability tests were carried out to analyze the impact of waterborne additive on pavement skid resistance and permeability in terms of different sand contents. The abrasion resistance was measured by wet track abrasion tests. The thermosetting structures in residues were observed with the fluorescence microscope, and statistical analysis was conducted finally. 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Therefore, its preservation and maintenance has been imperative. Fog seal was one of the most cost-effective approaches to solve the problem of early-stage damage and extend the service life of airport pavement. However, the traditional emulsified asphalt tended to present inadequate mechanical strength and would cause a temporary friction loss on pavement, even if polymer modification had been conducted. In this research, the application of thermosetting materials with modified asphalt emulsion, including waterborne epoxy and acrylate, was investigated as a preventive maintenance material for airport pavement. First, the storage stability was tested to study the compatibility. Then, the chemical reactions during the curing process of thermosetting materials in asphalt emulsion were observed by Fourier transform infrared (FTIR). The binder bond strength (BBS) test was conducted to evaluate the adhesion strength evolution of asphalt emulsions. The British Pendulum and pavement permeability tests were carried out to analyze the impact of waterborne additive on pavement skid resistance and permeability in terms of different sand contents. The abrasion resistance was measured by wet track abrasion tests. The thermosetting structures in residues were observed with the fluorescence microscope, and statistical analysis was conducted finally. The results revealed that waterborne epoxy and acrylate, as waterborne thermosetting modifiers, had high potential to be applied in fog seal technology for airport pavement.</abstract><cop>New York</cop><pub>American Society of Civil Engineers</pub><doi>10.1061/(ASCE)MT.1943-5533.0004288</doi></addata></record>
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subjects	Abrasion resistance Adhesive strength Aircraft maintenance Airports Asphalt pavements Bonding strength Building materials Chemical reactions Civil engineering Emulsions Fourier transforms Impact analysis Permeability Permeability tests Preventive maintenance Service life Skid resistance Statistical analysis Storage stability Technical Papers
title	Application of Fog-Seal Technology with Waterborne Thermosetting Additive in Asphalt Pavement
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