On the Study of Polishing of Road Surface under Traffic Load
Publication: Journal of Transportation Engineering
Volume 136, Issue 1
Abstract
This study presents both a laboratory test and a model for simulating the polishing phenomenon of road surfaces when subjected to traffic. In laboratory tests a machine called “Wehner-Schulze machine” is used which performs polishing and friction measurements on road specimens. The tests are done inside the laboratory and try to reproduce the variation of road friction when it is subjected to traffic. On the other hand, the presented model shows the possibility of computing the Wehner-Schulz polishing effect on the microtexture. The model itself uses an approach which mixes the calculation of contact parameters and some characteristic of the used aggregates. The here used aggregate characteristic is the capability to resist wear and is measured by another world wide used device different then the Wehner-Schulz machine. The model remains to be improved because of some assumptions, but this approach provides encouraging results regarding the ability to predict the evolution of road microtexture due to the polishing effect of traffic.
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References
Boning, D., Lee, B., Oji, C., Ouma, D., Park, T., Smith, T., and Tugbawa, T. (1999). “Pattern dependent modeling for CMP optimization and control.” Proc., Materials Research Society Spring Meeting; Proc., Symp. P: Chemical Mechanical Polishing, San Francisco, 1–13.
Chekina, O. G., Keer, L. M., and Liang, H. (1998). J. Electrochem. Soc., 145, 2100–2106.
Cook, L. M. (1990). “Chemical process in glass polishing.” J. Non-Cryst. Solids, 120, 152–171.
Do, M. T., Tang, Z., Kane, M., and De Larrard, F. (2007). “Pavement polishing—Development of a dedicated test and its correlation with road results.” Wear, 263, 36–42.
Dupont, P., and Tourenq, C. (1993). “Granulats et microrugosité.” Bulletin de liaison des Laboratoires des Ponts et Chaussées, 185, 145–151.
Fwa, T. F., Choo, Y. S., and Lui, Y. (2003). “Effect of aggregate spacing on skid resistance of asphalt pavement.” J. Transp. Eng., 129(4), 420–426.
Huschek, S. (2004). “Experience with skid resistance prediction based on traffic simulation.” SURF2004, 5th Symp. on Pavement Surface Characteristics, Roads and Airports, Toronto.
Johnson, K. L. (1985). Contact mechanics, Cambridge University Press, Cambridge, U.K., 472.
Kaufman, F. B., et al. (1991). “Chemical-mechanical polishing for fabricating patterned W metal features as chip interconnects.” J. Electrochem. Soc., 138(11), 3460–3465.
Mahmoud, M., and Eyad, M. (2007). “Experimental methods for the evaluation of aggregate resistance to polishing, abrasion, and breakage.” J. Mater. Civ. Eng., 19(11), 977–985.
Nitta, N., Saito, K., and Isozaki, S. (1990). “Evaluating the polishing properties of aggregates and bituminous pavement surfaces by means of the Penn State reciprocating polishing machine.” Symp. Surface Characteristics of Roadways: International Research and Technologies, ASTM STP1031, ASTM, West Conshohocken, Pa., 113–126.
Preston, F. W. (1927). “The theory and design of plate glass polishing machines.” J. Soc. Glass Technol., 11, 214–256.
Tourenq, C., and Fourmaintraux, D. (1971). “Propriétés des granulats et glissance routière.” Bulletin de liaison des Laboratoires des Ponts et Chaussées, 51, 61–69.
Wieland, M. (2000). “Wavelength-dependent measurement and evaluation of surface topographies: Application of a new concept of window roughness and surface transfer function.” Wear, 237, 231–252.
Woodward, D., Woodside, A., and Jellie, J. (2004). “Improved prediction of aggregate skid resistance using modified PSV tests.” Proc., 8th Int. Conf. on Applications of Advanced Technologies in Transportation Engineering 2004, Beijing, Paper No. 144, ASCE, 86.
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© 2010 ASCE.
History
Received: Jan 16, 2008
Accepted: Aug 24, 2009
Published online: Dec 15, 2009
Published in print: Jan 2010
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