U.S. Department of Transportation
Federal Highway Administration
1200 New Jersey Avenue, SE
Washington, DC 20590
Federal Highway Administration Research and Technology
Coordinating, Developing, and Delivering Highway Transportation Innovations
|This report is an archived publication and may contain dated technical, contact, and link information|
Publication Number: FHWA-RD-02-088
Date: May 2003
Byrum. (2001). Personal Communication
Crovetti, J.A. (1994). "Design and Evaluation of Jointed Concrete Pavement Systems Incorporating Open-Graded Permeable Bases," Ph.D. Dissertation, University of Illinois at Urbana-Champaign.
Darter, M.I. (1977). "Design of Zero-Maintenance Plain Jointed Concrete Pavement:
Vol. I -Development of Design Procedures," Federal Highway Administration, Report No. FHWA -RD-77-111, Washington, D.C., June.
Davids, W.G., G.M. Turkiyyah, and J. Mahoney (1998). "EverFEA New Rigid Pavement Finite Element Analysis Tool," Transportation Research Record, National Research Council, Washington, DC,: National Research Council, pp. 69-78.
Friberg, B. F. (1940). ""Design of Dowels in Transverse Joints of Concrete Pavements,"" Transactions, ASCE. Vol.ume 105.
Guo H, J.A. Sherwowod, and M.B. Snyder (19956). "Component Dowel-Bar Model for Load-Transfer Systems in PCC Pavements," Journal of Transportation Engineering, Vol. 121, pp. 289-298.
Ioannides, I.M, E.J. Barenberg, and J.A. Lary (1989). "Interpretation of Falling Weight Deflectometer Results Using Principles of Dimensional Analysis," Proceedings, TFourthird International Cconference on Concrete Pavement Design and Rehabilitation, Purdue University, W. Lafayette, IN, April 18-20, pp. 231-247.
Ioannides, A.M., and G.T. Korovesis (1990). "Aggregate Interlock: A Pure-Shear Load Transfer Mechanism,." Transportation Research Record 1286,. Transportation Research Board, Washington, DC.: Transportation Research Board.
Ioannides, A.M., and G.T. Korovesis (1992). "Analysis and Design of Doweled Slab-On-Grade Pavement Systems,." Journal of Transportation Engineering, American Society of Civil Engineers, Vol. 118, No. 6, New York, NY, pp. 745-768.
Ioannides, A.M., D.R. Alexander, M.I. Hammons, and C.M. Davis (1996). "Application of Artificial Neural Networks to Concrete Pavement Joint Evaluation," Transportation Research Record 1540, . Transportation Research Board, Washington, DC,: Transportation Research Board, pp. 54-640.
Khazanovich, L., H.T. Yu, S. Rao, K. Galasova, E. Shats, and R. Jones. (2000). ISLAB2000Finite Element Analysis Program for Rigid and Composite Pavements. User's Guide,. ERES Consultants, Champaign, IL: ERES Consultants.
Khazanovich, L., N. Buch, and A. Gotlif (2001). "Mechanistic Evaluation of Vertical Misalignment of Dowel Bars and their Effect on Joint Performance," Proceedings, Seventh International Conference on Concrete Pavement, September 9-13, Lake Buena Vista, FL, pp. 525-538.
Khazanovich, L., S. Tayabji, and M. Darter (2001). "Backcalculation of Layer Parameters for Long Term Pavement Performance (LTPP) Test Sections, Volume I: Slab oOn Elastic Solid and Slab on Dense-Liquid Foundation Analysis of Rigid Pavements,." Federal Highway Administration, FHWA-RD-00-086, Washington, DC.: Federal Highway Administration
Parson. I.D., I. Eom, and K.D. Hjelmstad (1997). "Numerical Simulations of Load Transfer between Doweled Pavement Slabs," Proceedings, American Society of Civil Engineers Specialty Conference on Aircraft/Pavement Technology iIn the Midst of Change, Seattle, WashingtonWA, pp. 166-177.
Scarpas, A., E. Ehrola, and J. Judycki (1994). "Simulation of Load Transfer Across Joints in RC Pavements," Proceedings, Third International Workshop on the Design and Evaluation of Concrete Pavements, Krumbach, Austria, pp. 113-122.
Shoukry S.N., and G. William (1998). "3D FEM Analysis of Load Transfer Efficiency," Proceedings of the National Symposium on 3D FEM for Pavement Analysis and Design, Charleston, WV..
Tabatabie, A.M. and E.J Barenberg, E.J (1980). "Structural Analysis of Concrete Pavement Systems," ASCE, Transportation Engineering Journal,. American Society of Civil Engineers, Vol. 106, No. 5, pp. 493-506.
Wu, C.L. and S.D. Tayabji (2002). "Variability of Concrete Pavement Load Transfer Efficiency Data," TRB Paper No. 02-2448, Presented at the January 2002 Annual Meeting of the Transportation Research Board.
Zollinger, D.G. and J. Soares. (1999). "Performance of Continuously Reinforced Concrete Pavements: Volume VII: Summary," Final Report, Federal Highway Administration, FHWA-RD-98-102, PCS/Law Engineering.