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Research article
First published January 2004

Precision of Locked-Wheel Testers for Measurement of Roadway Surface Friction Characteristics

Bouzid Choubane, Charles R. Holzschuher, and Salil GokhaleView all authors and affiliations
Volume 1869, Issue 1
https://doi.org/10.3141/1869-17

Abstract

The present state-of-the-art locked-wheel testers for roadway surface friction evaluation are fully automated. As with any testing using subjectdriven instrumented devices, the major concerns of the end usefulness of the resulting data are accuracy and precision. Although a level of uncertainty is always inherent in any measurement process, it must also be appropriately quantified or assessed. Therefore, the Florida Department of Transportation (FDOT) initiated a field study to assess the level of precision of its own locked-wheel testers for field measurements. Friction measurements were acquired by using four friction locked-wheel testers concurrently on a number of asphalt section sites. These test sections were randomly selected to include both open- and dense-graded surface mixtures. The collected friction data were first analyzed to determine the friction characteristics at each test location, in terms of a friction number at 40 mph with a standard ribbed test tire (FN40R). The results were then used as a basis for an evaluation of the repeatability and reproducibility of the friction units. In addition, the effects of pavement surface texture on friction measurements were assessed. A description of the testing program, the data collection effort, and the subsequent analyses and findings is presented.

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References

1. Smith L. L., and Fuller S. L. Florida Skid Correlation Study of 1967-Skid Testing with Trailers. ASTM STP-456. 1969.
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2. Henry J. J. NCHRP Synthesis of Highway Practice 291: Evaluation of Pavement Friction Characteristics. TRB, National Research Council, Washington, D.C., 2000.
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3. Zimmer R. A., Choubane B., and Holzschuher C. R. Friction Testing Method for Open-Grated Steel Bridge Decks. In Transportation Research Record: Journal of the Transportation Research Board, No. 1860, TRB, National Research Council, Washington, D.C., 2003, pp. 137–143.
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Published In

Volume 1869, Issue 1
Pages: 145 - 151
Article first published: January 2004
Issue published: January 2004

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© 2004 National Academy of Sciences.
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Authors

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Bouzid Choubane
Florida Department of Transportation, State Materials Office, 5007 N.E. 39th Avenue, Gainesville, FL 32609
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Charles R. Holzschuher
Florida Department of Transportation, State Materials Office, 5007 N.E. 39th Avenue, Gainesville, FL 32609
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Salil Gokhale
ERES Consultants Division, Applied Research Associates, Inc., 5007 N.E. 39th Avenue, Gainesville, FL 32609
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