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Evaluation of the effect of various surficial pollutants and environmental condition on surface friction performance of road pavement

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Skip resistance of asphalt is an important parameter that can influence the safety of drivers on roads. Although there is a linear relationship between slipping on road surfaces and accidents, the impacts of pollutants for decreasing friction of roads is clear to researchers. Moisture and temperature influence friction and safety. In this research in SMA samples, three different gradations with the maximum nominal sizes of 19, 12.5 and 9.5, based on international standards were used. For polluting the surface, five materials that are found on roads were used, including fine-grained soil, sand, oil, soot and rubber powder. To measure the skip resistance, the British pendulum tester was used and for analysing macro-texture, the sand patch method was used. The results of this research showed that by increasing the maximum nominal size of aggregates, the depth of macro-texture in surfaces are grown and this is due to the decrease of fine aggregates in larger gradations. Because of the higher flexibility of pure bitumen, the applied compression pressure on rigid aggregates can cause indentations in the substrate and result in declining the roughness height of aggregates in the mixed surface. This leads to declining the hysteresis part of friction by increasing temperature.
Rocznik
Tom
Strony
99--111
Opis fizyczny
Bibliogr. 20 poz.
Twórcy
  • Civil Engineering Department, Yazd University, Safaeiah, Pazhoohesh Cross, 8915818411, Yazd, Iran
  • Civil Engineering Department, Yazd University, Safaeiah, Pazhoohesh Cross, 8915818411, Yazd, Iran
  • Civil Engineering Department, Yazd University, Safaeiah, Pazhoohesh Cross, 8915818411, Yazd, Iran
Bibliografia
  • 1. Ibrahim M. Asi. 2007. „Evaluating skid Resistance of different asphalt concrete mixes”. Building and Environment 42: 325-329. DOI: https://doi.org/10.1016/j.buildenv.2005.08.020.
  • 2. Farooq Danish, Janos Juhasz. 2020. „Statistical Evaluation of Risky Driver Behavior Factors that Influence Road Safety based on Drivers Age and Driving Experience in Budapest and Islamabad”. European Transport \ Trasporti Europei 80(2): 1-18. ISSN: 1825-3997. DOI: https://doi.org/10.48295/ET.2020.80.2.
  • 3. Mohanty Malaya, Partha Pratim Dey, Bhagyashree Panda. 2020. „Assessment of traffic safety at median openings using surrogate safety measures: a case study in India”. European Transport \ Trasporti Europei 80(3): 1-12. ISSN: 1825-3997. DOI: https://doi.org/10.48295/ET.2020.80.3.
  • 4. Hichim Majid Farag, Ahmed Shany Khusheef, Saddam Hasan Raheemah. 2020. “The Effects of Driver Age and Gender on Vehicle Stopping Distance Under Different Speeds”. European Transport \ Trasporti Europei 80(1): 1-11. ISSN 1825-3997. DOI: https://doi.org/10.48295/ET.2020.80.1.
  • 5. Staniek M., P. Czech. 2016. “Self-correcting neural network in road pavement diagnostics”. Automation in Construction 96: 75-87. DOI: 10.1016/j.autcon.2018.09.001.
  • 6. Reginald B. Kogbara, Eyad A. Masad, Emad Kassem, A. Tom Scarpas, Kumar Anupam. 2016. „A state-of-the-art review of parameters influencing measurement and modeling of skid resistance of asphalt pa vements”. Construction and Building Materials 114: 602-617. DOI: https://doi.org/10.1016/j.conbuildmat.2016.04.002.
  • 7. Lubis A.S, Z.A Muis, E.M. Gultom. 2018. „The effect of contaminant on skid resistance of pavement surface”. In: IOP Conference Series: Earth and Environmental Science 126. DOI: doi:10.1088/1755-1315/126/1/012040.
  • 8. Eisenberg Daniel. 2004. „The mixed effects of precipitation on traffic crashes”. Accident analysis & prevention 36(4): 637-647. DOI: https://doi.org/10.1016/S0001-4575(03)00085-X.
  • 9. Persson B.N.J, U. Tartaglino, O. Albohr, E. Tosatti. 2005. „Rubber friction on wet and dry road surfaces: The sealing effect”. Physical Review B 71(3): 035428. DOI: https://doi.org/10.1103/PhysRevB.71.035428.
  • 10. Hichri Yosra, Veronique Cerezo, Minh Tan Do. 2017. „Effect of dry deposited particles on the tire/road friction”. Wear 376-377: 1437-1449. DOI: https://doi.org/10.1016/j.wear.2017.01.037.
  • 11. Wilson Douglas James. 2006. „An analysis of the seasonal and short-term variation of road pavement skid resistance”. PhD thesis. The University of Auckland.
  • 12. Kulakowski B., D. Harwood, U. Kreßel. 1990. “Effect of water-film thickness on tire-pavement friction”. In: Surface characteristics of roadways: international research and technologies. Edited by W. Meyer and J. Reicher. P. 50-60. ASTM International. ISBN: 978-0-8031-5110-9.
  • 13. Lambourn R.F., H.E. Viner. 2006. Friction tests on contaminated road surfaces. Transport Research Laboratory (TRL). Transport Research Laboratory. ISBN: 1-84608-935-2.
  • 14. Way Li Kai, Fanxing Meng, Wei Zhang. 2014. „Friction between footwear and floor covered with solid particles under dry and wet conditions”. International Journal of Occupational Safety and Ergonomics 20(1): 43-53. DOI: 10.1080/10803548.2014.11077027.
  • 15. Mills R., R.S. Dwyer-Joyce, M. Loo-Morrey. 2009. „ The mechanisms of pedestrian slip on flooring contaminated with solid particles”. Tribology International 42(3): 403-412. DOI: https://doi.org/10.1016/j.triboint.2008.07.013.
  • 16. Heshmat Hooshang. 1993. „Wear reduction systems for coal-fueled diesel engines II. Experimental results and hydrodynamic model of powder lubrication”. Wear 16: 518-528. DOI: https://doi.org/10.1016/0043-1648(93)90537-V.
  • 17. Yosra Hichri, Cerezo Véronique, Do Minh-Tan. 2018. „Effect of fine particles on road skid resistance”. In: 8th Symposium on Pavement Surface Characteristics (SURF) 16: 518-528. 2-4 May 2018. Brisbane, Queensland, Australia.
  • 18. Davari Mohammad. 2019. „Determining the appropriate asphalt pavement in areas with dust from the point of view of surface friction”. Master’s thesis. Iran: Yazd University.
  • 19. ASTM E965-15:2019. Standard Test method for measuring pavement Macrotexture Depth using a volumetric Technique. West conshohocken: ASTM International.
  • 20. Elger Donald F., Barbara A. Lebret, Clayton T. Crowe, John A. Roberson. 2020. Engineering fluid mechanics. Washington State Uninercity. ISBN: 978-1-119-72350-9.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-601115ea-27e3-47bf-944d-d2ad7001c061
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