Abstract
Road Surface Texture Depth (STD) is a critical aspect of a road surface. A typical STD range is between 2.0-0.8 mm. Roads with STD less than the lower threshold are more prone to traffic accidents due to aquaplaning or drop in skid resistance. Roads with STD more than the upper threshold are prone to fretting and pothole formation. In this study, a simple method to predict STD has been developed. The method utilises previous STD measurements collected by the Surface Condition Assessment for the National Network of Roads (SCANNER) method to quantify STD deterioration rate, which is the amount of increase or decrease in STD over time. The deterioration rates are then converted into Texture Deterioration Master Curves (TDMCs) which can be used in predicting STD. To demonstrate the application of this method, SCANNER data covering around 400 km of class A roads in Nottinghamshire collected between 2014 and 2018 were analysed and used to build TDMCs. STD data in 2020 were then predicted and compared to the measured STD data for validation. The results show that the developed method is simple and reliable, which makes it a valuable management tool for highway authorities enabling them predicting the STD on their road networks and assessing the risks of high or low STD on the condition and operation of their road networks.
Original language | English |
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Number of pages | 16 |
Publication status | Unpublished - 28 Feb 2024 |
Event | The 21st LJMU International Conference on Highways and Airport, Asphalt Technology and Infrastructure: The 21st LJMU International Conference on Highways and Airport, Asphalt Technology and Infrastructure - Liverpool JM University, Liverpool, United Kingdom Duration: 28 Feb 2022 → 29 Feb 2024 Conference number: 21st https://www.ljmu.ac.uk/about-us/faculties/faculty-of-engineering-and-technology/school-of-civil-engineering-and-built-environment/events/asphalt-pavement-engineering-and-infrastructure-conference |
Conference
Conference | The 21st LJMU International Conference on Highways and Airport, Asphalt Technology and Infrastructure |
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Country/Territory | United Kingdom |
City | Liverpool |
Period | 28/02/22 → 29/02/24 |
Internet address |