Evaluating pavement performance through smart monitoring - effects of soil moisture, temperature and traffic

This paper presents the findings from a research conducted to investigate the effects of moisture and environmental conditions on the mechanical behaviour of granular pavements. Analysis was conducted on data collected from state-of-the-art instrumentation on two field pavement sites located in Suns...

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Published in:Road materials and pavement design 2018-01, Vol.19 (1), p.71-86
Main Authors: Kodippily, Sachi, Tighe, Susan L., Henning, Theunis F.P., Yeaman, John
Format: Article
Language:English
Subjects:
Environmental monitoring
flexible pavements
Mechanical properties
moisture
Pavements
performance monitoring
Soil moisture
strain
temperature
Traffic volume
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description This paper presents the findings from a research conducted to investigate the effects of moisture and environmental conditions on the mechanical behaviour of granular pavements. Analysis was conducted on data collected from state-of-the-art instrumentation on two field pavement sites located in Sunshine Coast, Australia. The sites were monitored over three years, and daily temperature, moisture and strain values were analysed. Large tensile strains in the basecourse occurred when moisture increased and temperature decreased at the end of day. This result indicated that the change in soil pore pressure due to moisture and temperature variations was causing the strains in the pavement. Heavy traffic volume had a minor effect on basecourse strain in comparison to moisture and temperature although, it was concluded that the combined effect of soil moisture, temperature and heavy traffic loading was a cause for large vertical strains in the pavement.
doi_str_mv 10.1080/14680629.2016.1235507
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source Taylor and Francis Science and Technology Collection
subjects Environmental monitoring
flexible pavements
Mechanical properties
moisture
Pavements
performance monitoring
Soil moisture
strain
temperature
Traffic volume
title Evaluating pavement performance through smart monitoring - effects of soil moisture, temperature and traffic
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