Long-term behavior of the micro-texture of aggregates used on roads subjected to extreme climate conditions and winter maintenance operations

The micro-texture of fine and coarse aggregates used on roads is one of the main factors responsible for the skid resistance of asphalt pavements. However, the long-term behavior of this property regarding the effects of traffic and climate conditions has been poorly studied. Therefore, in this pape...

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Bibliographic Details
Published in:Wear 2021-06, Vol.474-475, p.203757, Article 203757
Main Authors: Pérez-Fortes, A.P., Varas-Muriel, M.J., Castiñeiras, P.
Format: Article
Language:English
Subjects:
Aggregates
Asphalt pavements
Climate
Extreme climate
Extreme values
Fluorescence
Laboratories
Microtexture
Resistance factors
Road maintenance
Schist
Skid resistance
Stress cycles
Surface roughness
Thermal stress
Traffic
Weather
Winter
Winter maintenance
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Summary:The micro-texture of fine and coarse aggregates used on roads is one of the main factors responsible for the skid resistance of asphalt pavements. However, the long-term behavior of this property regarding the effects of traffic and climate conditions has been poorly studied. Therefore, in this paper, two types of aggregates, schist and amphibolite, commonly used on roads that are subjected to winter maintenance actions and high temperatures in summer have been studied. The micro-texture of the aggregates has been characterized with an optical roughness tester, fluorescence microscopy and the Polished Stone Value test. The extreme climate conditions have been simulated in a laboratory with durability tests (freeze-thawing and thermal stress cycles) including the NaCl used as deicer during winter maintenance operations. Results have shown that the wearing mechanisms of the aggregates’ surfaces are different regarding their composition and internal texture. On schist aggregates, weather conditions applied do not significantly deteriorate their micro-texture. However, the combined effect of traffic and extreme climate conditions with NaCl, double the decrease of the surface roughness measured when these aggregates are subjected to extreme climate conditions in the laboratory, improving, in some cases, their skid resistance. Conversely, the external factors considered have the same effect on the micro-texture of the analyzed amphibolite aggregate. •Optical surface roughness tester differentiates the evolution of the micro-texture of the aggregates when they are in use.•The wearing and disintegration of the surface of the aggregates depends on their mineralogy, texture and porosity.•The skid resistance increases after the PSV and durability tests due to the generation of new surface asperities.•Current PSV standard test is not able to estimate the skid resistance of the aggregates when they are in use.
ISSN:0043-1648
1873-2577
DOI:10.1016/j.wear.2021.203757