A framework for characterizing RAP clustering in asphalt concrete mixtures

•Definition of a Clustering Index to quantify the RAP clusters formation.•Development of Response Surface Model to describe the RAP clustering phenomenon.•RAP clusters formation depends on the sizes and percentages of RAP grains.•RAP clusters formation depends on the quality and quantity of the virg...

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Bibliographic Details
Published inConstruction & building materials Vol. 106; pp. 564 - 574
Main Authors Bressi, Sara, Pittet, M., Dumont, A.G., Partl, M.N.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.03.2016
Elsevier B.V
Subjects
Analysis
Blend
Cluster analysis
Clusters
Complex modulus
Dohelert design
Pavements, Asphalt
Properties
RAP binder
Response surfaces (Statistics)
RSM
Virgin binder
Waste management
Switzerland
Dohelert design
Blend
Complex modulus
Clusters
RAP binder
Virgin binder
RSM
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Summary:•Definition of a Clustering Index to quantify the RAP clusters formation.•Development of Response Surface Model to describe the RAP clustering phenomenon.•RAP clusters formation depends on the sizes and percentages of RAP grains.•RAP clusters formation depends on the quality and quantity of the virgin aggregates. Recycled Asphalt Pavement (RAP) is commonly used in asphalt for road rehabilitation or new constructions. Nevertheless, some physical and chemical phenomena that occur during production, laying and compaction of mixtures containing RAP are not yet completely explored. One of the main aspects is represented by the interaction between the aged bitumen from RAP and the virgin bitumen added to the mixture as well as the creation of clusters among small-size RAP particles. In this paper several combinations of mixtures are studied, varying the amount of RAP, the type of new binder and the testing temperature in order to obtain a suitable data set for the development of a framework for characterizing clustering of RAP during mixing hot recycled asphalt concrete based on the parameters mentioned above. For analyzing the experiments, the Response Surface Methodology (RSM) was applied. The set of points (combinations tested) for calibration of the models was selected using the Dohelert network, which is a design optimization strategy that allows the effective estimation of the models coefficients. The agglomeration of RAP particles is investigated for all virgin binders used and for all the percentages of RAP. It was shown that the quantity and the quality of virgin aggregates play a significant role in the clusters formation. Moreover, this experimental work suggested that revised formula for the calculation of the bitumen film thickness is needed, in order to include the combined effect of bitumen penetration and fabrication temperature.
ISSN:0950-0618
1879-0526
DOI:10.1016/j.conbuildmat.2015.12.132