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Blending Issues of Hot and Warm Mix Asphalt Containing Recycled Asphalt Pavement and Recycled Asphalt Shingle

Blending Issues of Hot and Warm Mix Asphalt Containing Recycled Asphalt Pavement and Recycled Asphalt Shingle
Author: Sheng Zhao (Writer on pavements)
Publisher:
Total Pages: 212
Release: 2014
Genre: Asphalt
ISBN:
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The current tendency in paving industry is to increase the use of recycled asphalt pavement (RAP) and recycled asphalt shingle (RAS). However, one of the reasons that limit the high recycled amount is the unknown blending between virgin and RAP/RAS binders. A series of studies were conducted in this dissertation to address blending issues in warm mix asphalt (WMA) and hot mix asphalt (HMA) containing RAP and RAS, in terms of evaluation of recycled binder mobilization, binder homogeneity and WMA effects on blending. Partial blending was observed in RAS mixtures and the most efficient blending occurred at approximately 5% RAS by weight. Increasing time led to a better RAS binder mobilization, while aggregate size and temperature in a certain range showed limited effects. A new parameter derived from gel permeation chromatography (GPC), large molecular size percentage [LMS(%)] related to binder molecular weight distribution, was developed to differentiate virgin and RAP/RAS binders as well as their blends, based on which a method was developed to quantify the recycled binder mobilization rate. A two-layer model based on atomic force microscopy (AFM) scanning was developed to evaluate RAS and virgin binder blending. The two binders were found to be “mixing” but not “blending” in a mixing zone of 25 to 30 micrometer. Staged extraction method used to evaluate asphalt binder homogeneity was validated with trichloroethylene (TCE) as the most effective solvent. A non-equal-time staged extraction method was proposed, in conjunction with LMS(%), to quantify binder homogenization after mechanical mixing and diffusion. Different blending scenarios of RAP/RAS mixes were proposed and validated. It was found that diffusion could be accomplished within mixture storage time for both WMA and HMA containing RAP, while blending in RAS mix was limited. WMA additives yielded mixes with higher blending ratios than control mix produced at 135oC, but lower than hot mix produced at 165oC. Laboratory foaming yielded a higher blending ratio, indicating foamed WMA may improve blending. Rutting might still be a concern for WMA-high RAP mixtures while fatigue concern may not exist. WMA-high RAP mixtures showed satisfactory moisture resistance. Blending effects on performance still needs further investigation.

Blending and Diffusion of Recycled Asphalt Pavement and New Approach to Recycling Asphalt Shingle

Blending and Diffusion of Recycled Asphalt Pavement and New Approach to Recycling Asphalt Shingle
Author: Yongjie Ding
Publisher:
Total Pages: 174
Release: 2018
Genre: Asphalt
ISBN:
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This study proposed a series of methods to investigate the blending and diffusion process of recycled asphalt mixtures using Fourier-transform infrared spectroscopy (FTIR), fluorescence microscopy and molecular dynamic simulation. A new approach to recycling asphalt shingles in which RAS binder was extracted by a mixed solvent with certain polarity and used as common asphalt binder was also developed. A new parameter, mean grey value (MGV), was derived from the fluorescence image and used to differentiate between recycled and virgin binders as well as their blends. The mobilization rate of plant-produced RAP mixtures was calculated on the basis of surface area proportion of aggregates with different size. Three types of asphalt mixtures, including one warm mix with foaming technology, two hot mixes with or without rejuvenator, were used to validate the proposed method. Two asphaltic models with three components including asphaltenes, resin, and oil were built with different components ratio to investigate the diffusion between virgin and aged binders. In an inter-diffusion model of virgin and aged binders, the diffusion coefficients of binders were not only determined by the diffusion ability itself, but also influenced by the properties of the diffusion acceptor. A new method was proposed to utilize fluorescence microscopy to determine the diffusion coefficient of aged RAP binder in recycled mixtures. The diffusion coefficient was determined by fitting the analytical solution to the laboratory concentration measurements. Comparison of the diffusion coefficient by the proposed method and that using the dynamic shear rheometer (DSR) method shows that the diffusion coefficient determined by fluorescence microscopy was of the same magnitude to, but slightly lower than that by DSR method. The RAS binder was extracted by a mixed solvent with certain polarity and used as common asphalt binder. The use of the mixed solvent of heptane and TCE with a certain proportion through the proposed method could prepare asphalt binder with desired properties. Results indicate that soft asphalt could not dissolve RAS binder at 170 °C. The binder blend of RAS binder and rejuvenator had a potential antiaging problem because an obvious loss of rejuvenator existed during the aging process.

Superpave Mix Design

Superpave Mix Design
Author: Asphalt Institute
Publisher:
Total Pages: 102
Release: 2001-01-01
Genre: Asphalt
ISBN: 9781934154175
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Use of Waste Materials in Hot-mix Asphalt

Use of Waste Materials in Hot-mix Asphalt
Author: H. Fred Waller
Publisher: ASTM International
Total Pages: 304
Release: 1993
Genre: Asphalt emulsion mixtures
ISBN: 0803118813
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In light of requirements that rubber be mixed with any asphalt used in projects receiving federal aid beginning in 1994, and the general increase in the problem of what to do with waste material, 17 papers from a December 1992 symposium in Miami discuss some of the technical and economic considerati

Bituminous Mixtures and Pavements VIII

Bituminous Mixtures and Pavements VIII
Author: A.F. Nikolaides
Publisher: CRC Press
Total Pages: 999
Release: 2024-06-21
Genre: Technology & Engineering
ISBN: 1040147089
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Bituminous Mixtures and Pavements VIII contains 114 papers as presented at the 8th International Conference ‘Bituminous Mixtures and Pavements’ (8th ICONFBMP, 12-14 June 2024, Thessaloniki, Greece). The contributions reflect the research and practical experience of academics and practicing engineers from thirty-four (34) different countries, and cover a wide range of topics: Session I: Bitumen, Modified binders, Aggregates, and Subgrade Session II: Bituminous mixtures (Design, Construction, Testing, Performance) Session III: Pavements (Design, Construction, Maintenance, Sustainability, Energy and Environmental consideration) Session IV: Pavement management and Geosynthetics Session V: Pavement recycling Session VI: Pavement surface characteristics, Pavement performance monitoring, Safety Session VII: Biomaterials in pavement engineering Session VIII: Prediction models of pavement performance Bituminous Mixtures and Pavements VIII covers recent advances in highway materials technology and pavement engineering, and will be of interest to scientists and professionals involved or interested in these areas. The ICONFBMP-conferences have been organized every four years since 1992. This 8th conference was jointly organized by: Laboratory of Highway Engineering, Aristotle University of Thessaloniki, Greece; Built Environment Research Institute (BERI), University of Ulster, UK; University of Texas San Antonio (UTSA), USA; Laboratory for Advanced Construction Technology (LACT), Technological Institute of Iowa, USA; Technological University of Delft (TUDelft), The Netherlands, and University of Antwerp, (UA), Belgium.

Recycling Materials for Highways

Recycling Materials for Highways
Author: National Research Council (U.S.). Transportation Research Board
Publisher: Transportation Research Board National Research
Total Pages: 64
Release: 1978
Genre: Nature
ISBN:
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"This synthesis will be of special interest and usefulness to design engineers, materials technologists, and others seeking information on the potential use of recycled materials in design, construction, rehabilitation, and maintenance of pavements, bases, and other components of the highway system. Detailed information is presented on procedures for pavement recycling."--Avant-propos.

Special Mixture Design Considerations and Methods for Warm Mix Asphalt

Special Mixture Design Considerations and Methods for Warm Mix Asphalt
Author:
Publisher: Transportation Research Board
Total Pages: 53
Release: 2012
Genre: Science
ISBN: 0309213738
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TRB's National Cooperative Highway Research Program (NCHRP) Report 714: Special Mixture Design Considerations and Methods for Warm-Mix Asphalt: A Supplement to NCHRP Report 673: A Manual for Design of Hot-Mix Asphalt with Commentary presents special mixture design considerations and methods used with warm-mix asphalt. NCHRP Report 714 is a supplement to NCHRP Report 673: A Manual for Design of Hot-Mix Asphalt. All references to chapters in NCHRP Report 714 refer to the corresponding chapters in NCHRP Report 673.