Mechanistic Roughness Model Based on Vehicle-Pavement Interaction
Abstract
A mechanistic roughness performance model that takes into account vehicle dynamics was developed for use in flexible pavement design and evaluation. The model was developed in the form of a relation between roughness and number of load repetitions, axle load, and asphalt layer thickness. The model is completely mechanistic and uses vehicle dynamics analysis to estimate the dynamic force profile and finite element structural analysis to estimate the change of pavement surface roughness for each load repetition. The model makes use of the fact that pavement roughness changes the magnitude of the vehicle dynamic forces applied on the pavement and that the dynamic forces change the road roughness. The developed mechanistic roughness performance model can be used to estimate the 80-kN (18-kip) equivalent single-axle load for mixed traffic. The model can also be used to design pavement so that it will last for a certain number of load repetitions before reaching a predetermined roughness level. Performance-based specifications can be developed using the methodology presented in this study. The model has been calibrated and verified with field data elsewhere.
Get full access to this article
View all access and purchase options for this article.
References
1. Huang Y. Pavement Analysis and Design. Prentice-Hall, Englewood Cliffs, N.J., 1993.
2. Haas R., Hudson W. R., and Zaniewski J. P. Modern Pavement Management. Krieger Publishing Company, Melbourne, Fla., 1994.
3. Mamlouk M. S. Rational Look at Truck Axle Weight. In Transportation Research Record 1307, TRB, National Research Council, Washington, D.C., 1991, pp. 8–19.
4. Cebon D., and Winkler C. B. A Study of Road Damage Due to Dynamic Wheel Loads Using a Load Measuring Mat. Report SHRP-ID/UFR-91-518. Strategic Highway Research Program, TRB, National Research Council, Washington, D.C., 1991.
5. Gillespie T. D., Karamihas S. M., Sayers M. W., Nasim M. A., Hanson W., Ehsan N., and Cebon D. NCHRP Report 353: Effects of Heavy Vehicle Characteristics on Pavement Response and Performance. TRB, National Research Council, Washington, D.C., 1993.
6. Mikhail M. Y., and Mamlouk M. S. Effect of Vehicle-Pavement Interaction on Pavement Response. In Transportation Research Record 1570, TRB, National Research Council, Washington, D.C., 1997, pp. 78–88.
7. Mikhail M. Y., and Mamlouk M. S. Effect of Traffic Loads on Pavement Serviceability. STP 1348. ASTM, Philadelphia, Pa., 1998.
8. Mamlouk M. S., and Mikhail M. Y. Concept for Mechanistic-Based Performance Model for Flexible Pavements. In Transportation Research Record 1629, TRB, National Research Council, Washington, D.C., 1998, pp. 149–158.
9. Sweatman P. F. A Study of Dynamic Wheel Forces in Axle Group Suspensions of Heavy Vehicles. Special Report 27. Australian Road Research Board, June 1983.
10. Fernando E. G., et al. The Florida Comprehensive Pavement Analysis System (COMPAS), Vol. 1. Texas Transportation Institute, Texas A&M University, 1991.
11. Fernando E. G., and Lytton R. L. A System for Evaluation of the Impact of Truck Characteristics and Use on Flexible Pavement Performance and Life-Cycle Costs. Proc., Seventh International Conference on Asphalt Pavements, Nottingham, U.K., 1992.
12. Gillespie T. D. Everything You Always Wanted to Know about the IRI, But Were Afraid to Ask. Presented at Road Profile Users Group Meeting, Lincoln, Nebraska, Sept. 1992.
13. ABAQUS, Finite Element Computer Program. Theory Manual, Version 5.4. Hibbitt, Karlsson and Sorensen, Inc., Pawtucket, R.I., 1995.
14. RoadRuf Software for Analyzing Road Profiles. Transportation Research Institute, University of Michigan, Ann Arbor, 1996.
15. Design-Expert 5. Stat-Ease Corporation, Minneapolis, Minn., 1996.
16. Ali H. A., and Tayabji S. D. Mechanistic Evaluation of Test Data from LTPP Flexible Pavement Test Sections. FHWA, U.S. Department of Transportation, May 1997.
17. Saleh M. F., and Mamlouk M. S. Calibration and Verification of a Pavement Roughness Performance Model. Journal of Transportation Engineering, ASCE (to be published).
Cite article
Cite article
Cite article
OR
Download to reference manager
If you have citation software installed, you can download article citation data to the citation manager of your choice
Information, rights and permissions
Information
Published In
Article first published: January 2000
Issue published: January 2000
Authors
Metrics and citations
Metrics
Journals metrics
This article was published in Transportation Research Record: Journal of the Transportation Research Board.
VIEW ALL JOURNAL METRICSArticle usage*
Total views and downloads: 54
*Article usage tracking started in December 2016
Altmetric
See the impact this article is making through the number of times it’s been read, and the Altmetric Score.
Learn more about the Altmetric Scores
Articles citing this one
Receive email alerts when this article is cited
Web of Science: 0
Crossref: 13
- Parametric investigation of the dynamic response of a circular plate e...
- Dynamic Strain Response of Hot-Recycled Asphalt Pavement under Dual-Ax...
- A critical review of vehicle-pavement interaction mechanism in evaluat...
- Pavement asset management systems and technologies: A review
- Effect of Pavement Roughness and Transverse Slope on the Magnitude of ...
- Application of a Machine Learning Method to Evaluate Road Roughness fr...
- Backpropagation Neural Network to estimate pavement performance: deali...
- Field validation of road roughness evaluation using in-pavement strain...
- Thornthwaite Moisture Index Modeling to Estimate the Implication of Cl...
- Travel demand modeling to simulate traffic loads for pavement deterior...
- Road roughness evaluation using in-pavement strain sensors
- The Pavement Performance Modeling: Deterministic vs. Stochastic Approa...
- Discrete Element Modeling of Pavement-Wheel Frictional Force
Figures and tables
Figures & Media
Tables
View Options
Get access
Access options
If you have access to journal content via a personal subscription, university, library, employer or society, select from the options below:
loading institutional access options
Alternatively, view purchase options below:
Purchase 24 hour online access to view and download content.
Access journal content via a DeepDyve subscription or find out more about this option.
