Quantification of Stone-On-Stone Contact in Permeable Friction Course Mixtures Based on Image Analysis
The main features that differentiate permeable friction course (PFC) mixtures from dense-graded asphalt mixtures are the high total air voids content—18 to 22%—and stone-on-stone contact condition in the coarse-aggregate fraction of the PFC mixtures. The main purpose of ensuring these features is providing improved functional properties to the PFC mixtures, including high drainability, surface texture, and noise reduction capacity. In this context, the research objective was to evaluate the PFC mixture internal structure, in terms of the quantification of stone-on-stone contact based on the analysis of digital images. PFC mixtures fabricated with both asphalt rubber and polymer-modified asphalt were characterized. Corresponding analyses of the relationship between the microstructure- and macroscopic-parameters used to characterize the stone-on-stone contact supported the importance of verifying both the voids in the coarse aggregate ratio and Cantabro loss to properly screening the PFC mixture performance. In addition, controlling the compaction process is required to fully develop the stone-on-stone contact condition and consequently ensure adequate resistance to both mixture disintegration and permanent deformation.
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Availability:
- Find a library where document is available. Order URL: http://worldcat.org/issn/09500618
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Supplemental Notes:
- Abstract reprinted with permission of Elsevier.
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Authors:
- Alvarez, Allex E
- Mora, Juan C
- Espinosa, Leidy V
- Publication Date: 2018-3-20
Language
- English
Media Info
- Media Type: Web
- Features: Figures; References; Tables;
- Pagination: pp 462-471
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Serial:
- Construction and Building Materials
- Volume: 165
- Issue Number: 0
- Publisher: Elsevier
- ISSN: 0950-0618
- Serial URL: http://www.sciencedirect.com/science/journal/09500618?sdc=1
Subject/Index Terms
- TRT Terms: Aggregates, rock and stone; Air voids; Coarse aggregates; Friction course; Image analysis; Open graded aggregates; Permeability; Stone
- Subject Areas: Highways; Materials; Pavements;
Filing Info
- Accession Number: 01667267
- Record Type: Publication
- Files: TRIS
- Created Date: Apr 25 2018 11:15AM