Binder distribution model for asphalt mixtures based on packing of the primary structure

Binder distribution model for asphalt mixtures based on packing of the primary structure

Film thickness describes the coating around aggregate particles on asphalt mixtures. The standard method of calculating film thickness has proven to present several limitations, such as assuming an average thickness independent of particle size, being completely independent to the porosity of the mi...

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Bibliographic Details
Published in:The international journal of pavement engineering Vol. 16; no. 2; pp. 144 - 156
Main Authors: Lira, Bernardita, Jelagin, Denis, Birgisson, Björn
Format: Journal Article
Language:English
Published: Abingdon Taylor & Francis 07-02-2015
Taylor & Francis LLC
Subjects:
Aggregates
Asphalt
Asphalt mixture
Binder distribution
Binders
Coating
Film thickness
Mathematical models
Moisture
Moisture damage
Porosity
Primary Structure
Rutting
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Summary:Film thickness describes the coating around aggregate particles on asphalt mixtures. The standard method of calculating film thickness has proven to present several limitations, such as assuming an average thickness independent of particle size, being completely independent to the porosity of the mixture and considering only one mineral type. In this paper, a binder distribution model is developed for aggregates according to size and role in the structure. The aggregates are separated into two different structures: primary structure, the load bearing one, and secondary structure, smaller material that provides stability to the skeleton. A coating thickness for these two structures is calculated from a geometrical consideration that includes the packing arrangement of particles and the effect of overlapping as the film grows. The results were compared with known rutting performance of field mixtures and moisture conditioned laboratory mixtures, showing a good correlation between film thickness and resistance to failure.
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ISSN:1029-8436
1477-268X
1477-268X
DOI:10.1080/10298436.2014.937713