Effects of Rolling Tire of Vehicles on Skid Resistance and Noise Pollution on Asphalt Pavement
Subject Areas :
nosie
Amir Esmael Forouhid
1
,
Ali Mansour Khaki
2
1 - استادیار، گروه مهندسی عمران، واحد پرند، دانشگاه آزاد اسلامی، پرند، ایران
2 - Professor of Civil Department, School of Civil Engineering, Iran University of Science & Technology, Narmak, Tehran, Iran
Received: 2015-11-13
Accepted : 2015-12-21
Published : 2019-08-23
Keywords:
hydrodynamics,
Hormuz,
change,
Khorkhoran,
mangroves,
Abstract :
Background and Objective: Noise pollution caused by vehicle traffic is one the important problems in the urban areas. As the cost of construction and installation of acoustic walls to prevent the noise pollution is high, dealing with this problem needs to follow the techniques that will increase the cost of the implementation on roads. Improving the pavement texture of the superstructure is one of the methods which is very effective in order to reduce the noise of tire and road surfaces and reduce sound reflection from the surface of the asphalt. Method: For the evaluation of asphalt resistance test is in accordance with ASTM English standard pendulum E303-74 in wet conditions on the different parts of the asphalt. Findings: The number of friction road surfaces with a coefficient of negative noise level compared with the amount of 0.1469, i.e. by increasing the number of friction road surfaces will reduce the amount of created noise level. As well as the depth of the texture of the road surfaces that form the superstructure materials fitted size is designated with a direct proportion with the amount of pollution 0.2810 which is coefficient for the sound created and any size from fine-grained materials will increase the amount of sound level. Discussion and Conclusion: According to the results of the estimated coefficients from the equation, it can be found that in the hands of the preparation of road surfaces with high friction number can release the noise pollution level including the noise of moving vehicles, especially in urban areas and sensitive areas. It is therefore advisable the sensitive areas to be in the process of preparation of the superstructure and maintain the order adopting the proper resistance of road surfaces and the coarser materials.
References:
Reference
Henry, J.J, 2000.Evaluation of Pavement Friction Characteristics. NCHRP Synthesis 291. Transportation Research Board. Washington DC.
Huang, Y. H., 2004. Pavement Analysis and Design, 2nd ed., University of Kentucky, second edition, pp 256- 259.
Jamieson, N., Dravitzki, V., 2006. Management of skid resistance under icy conditions on New Zealand roads, Land Rransport New Zealand Research report 293, pp 68.
Jeffrey S. Kuttesch, 2004. Quantifying the relationship between skid resistance and wet weather accidents of Virginia data, blachsburg, Virginia, pp 154-165.
Haas, R., W.R. Hudson, and J.P. Zaniewski, 1994. Modern Pavement Management, Krieger Press, Malamar, Florida, pp 115- 126.
Jalili, sh, Sanati Fard, S, 2004. Porous Asphalt, 11th conference of civil engineers and students, Hormozgan University. (In Persian).
Malekzadeh , M., Rahimi, H, 2007. A Parametric Study on the Steady State Rolling Behaviour of a Steel-belted Radial Tyre, Iranian Polymer Journal volume 3 , pp 56-58.
Gerardo W. Flintsch Kevin K McGhee, 2012. The Little Book of Tire Pavement Friction, Version 1.0, Submitted for Review and Comment Pavement Surface Properties Consortium.
Ameri, M, Afandi zadeh, Sh, Miraee Moghadam, M.H, 2009, The methods for measuring skid resistance in the road surface, 11th conference of civil engineer s and students, Hormozgan University. (In Persian).
International standard ISO 11819-1. ، ERC 2004، Methods for evaluation of road noise, pp 21-28.
Asi.I.M, 2007. Evaluating Skid Resistance of Different Asphalt Concrete Mix, Building and Environment, volume 42, pp 325-329.
American Society for Testing and Materials, 2000.Test Method for Measuring Frictional Properties Using the British Pendulum tester, Philadelphia, U.S.A, ASTM, E 303 – 93.
Sakhaeifar , M., Heitzman, M, 2014.The effects of pavement surface characteristics on tire/pavement noise, Landscape and Urban Planning, elsevier, pp 1300-1305.
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Reference
Henry, J.J, 2000.Evaluation of Pavement Friction Characteristics. NCHRP Synthesis 291. Transportation Research Board. Washington DC.
Huang, Y. H., 2004. Pavement Analysis and Design, 2nd ed., University of Kentucky, second edition, pp 256- 259.
Jamieson, N., Dravitzki, V., 2006. Management of skid resistance under icy conditions on New Zealand roads, Land Rransport New Zealand Research report 293, pp 68.
Jeffrey S. Kuttesch, 2004. Quantifying the relationship between skid resistance and wet weather accidents of Virginia data, blachsburg, Virginia, pp 154-165.
Haas, R., W.R. Hudson, and J.P. Zaniewski, 1994. Modern Pavement Management, Krieger Press, Malamar, Florida, pp 115- 126.
Jalili, sh, Sanati Fard, S, 2004. Porous Asphalt, 11th conference of civil engineers and students, Hormozgan University. (In Persian).
Malekzadeh , M., Rahimi, H, 2007. A Parametric Study on the Steady State Rolling Behaviour of a Steel-belted Radial Tyre, Iranian Polymer Journal volume 3 , pp 56-58.
Gerardo W. Flintsch Kevin K McGhee, 2012. The Little Book of Tire Pavement Friction, Version 1.0, Submitted for Review and Comment Pavement Surface Properties Consortium.
Ameri, M, Afandi zadeh, Sh, Miraee Moghadam, M.H, 2009, The methods for measuring skid resistance in the road surface, 11th conference of civil engineer s and students, Hormozgan University. (In Persian).
International standard ISO 11819-1. ، ERC 2004، Methods for evaluation of road noise, pp 21-28.
Asi.I.M, 2007. Evaluating Skid Resistance of Different Asphalt Concrete Mix, Building and Environment, volume 42, pp 325-329.
American Society for Testing and Materials, 2000.Test Method for Measuring Frictional Properties Using the British Pendulum tester, Philadelphia, U.S.A, ASTM, E 303 – 93.
Sakhaeifar , M., Heitzman, M, 2014.The effects of pavement surface characteristics on tire/pavement noise, Landscape and Urban Planning, elsevier, pp 1300-1305.
