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Publication Number: FHWA-04-122
Date: February 2005

Computer-Based Guidelines for Concrete Pavements Volume II

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  1. McCullough, B.F. and Rasmussen, R., Fast-Track Paving: Concrete Temperature Control and Traffic Opening Criteria for Bonded Concrete Overlays, Volume I: Final Report, FHWA-RD-98-167, Federal Highway Administration, Washington, DC, 191 pp., October 1999.
  2. McCullough, B.F., Abou-Ayyash, A., Hudson, W.R. and Randall J.P., Design of Continuously Reinforced Concrete Pavements for Highways, Research Project NCHRP 1-15, Center for Highway Research, The University of Texas at Austin, Austin, TX, August 1975.
  3. Suh, Y.C., Hankins K., and McCullough, B.F., Early-Age Behavior of Continuously Reinforced Concrete Pavement and Calibration of the Failure Prediction Model in the CRCP-7 Program, Research Report 1244-3, Center for Transportation Research, The University of Texas at Austin, Austin, TX, March 1992.
  4. Maekawa, K., Chaube, R., and Kishi, T., Modeling of Concrete Performance, Hydration, Microstructure Formation, and Mass Transport, E & FN Spon, London and New York, NY, 1999.
  5. Burrows, R.W., "The Visible and Invisible Cracking of Concrete," Monograph No. 11, American Concrete Institute, 1998.
  6. Kosmatka, S.H. and Panarese, W.C., Design and Control of Concrete Mixtures, Thirteenth Edition, Portland Cement Association, Skokie, IL, 1990.
  7. Aïtcin, P.C., Neville, A.M., and Acker, P., "Integrated View of Shrinkage Deformation," Vol. 19, No. 9, Concrete International, September 1997, pp. 35-41.
  8. Aïtcin, P.C., "Demystifying Autogenous Shrinkage," Vol. 21, No. 11, Concrete International, November 1999, pp. 54-56.
  9. Neville, A., Properties of Concrete, Fourth Edition, John Wiley & Sons Inc., New York, NY, 535 pp., 1999.
  10. Byfors, J., Plain Concrete at Early Ages, Research 3:80, Swedish Cement and Concrete Research Institute, Cement och Betong Institutet (CBI), Stockholm, Sweden, 1980.
  11. Emborg, M., "Thermal Stress in Concrete Structures at Early Ages," Doctoral Thesis, Luleå University of Technology, Division of Structural Engineering, 285 pp., 1989.
  12. Poblete, M., Valenzuela, R., and Salsilli R., Load Transfer in Undoweled Transverse Joints of PCC Pavements, Transportation Research Record 1207, Washington DC, 1988.
  13. Nowlen, W.J., Influence of Aggregate Properties on Effectiveness of Interlock Joints in Concrete Pavements, Bulletin D139, Vol. 10, No. 2, Portland Cement Association, 1968.
  14. Hansen, W., Jensen, E., Mohr, P., Jensen, K., Pane, I., and Mohamed, A., The Effects of Higher Strength and Associated Concrete Properties on Pavement Performance, FHWA-RD-00-161, June 2001.
  15. Huang, Y.H., Pavement Analysis and Design, Prentice Hall, Englewood Cliffs, NJ, 1993.
  16. McCullough, B.F., Dossey, T., and Zollinger, D., Evaluation of the Performance of Texas Pavements Made with Different Coarse Aggregates, Texas Department of Transportation, Report No. TX-01/7-3925-1, October 2000.
  17. AASHTO Guide for Design of Pavement Structures 1993, American Association of State Highway and Transportation Officials, Washington, DC, 1993.
  18. Zollinger, D.G., Buch, N., Xin, D., and Soares, J., Performance of CRC Pavements Volume 6-CRC Pavement Design, Construction and Performance, FHWA-RD-97-151, Federal Highway Administration, Washington, DC, 1997.
  19. Otero, M.A., McCullough, B.F., and Hankins, K., Monitoring of Siliceous River Gravel and Limestone Continuously Reinforced Concrete Pavement Test Sections in Houston 2 Years After Placement, and Development of a Crack Width Model for the CRCP-7 Program, Research Report 1244-4, Center for Transportation Research, The University of Texas at Austin, Austin, TX, March 1992.
  20. McCullough, B.F., Ma, J.C.M., and Noble, C.S., Limiting Criteria for the Design of CRCP, Research Report 177-17, Center for Transportation Research, The University of Texas at Austin, Austin, TX, August 1979.
  21. Elfino, M., Ozyildirim, C., and Steele, R., "CRCP in Virginia, Lessons Learned," CD Proceedings of the 7th International Conference on Concrete Pavements, Orlando, FL, September 91-3, 2001.
  22. Yu, H.T., Khazanovich, L., Darter, M., and Ardani, A., "Analysis of Concrete Pavement Responses to Temperature and Wheel Loads Measured from Instrumented Slabs," Transportation Research Board, 77th Annual Meeting, Washington, DC, January 11-15, 1998.
  23. Uno, P.J., "Plastic Shrinkage Cracking and Evaporation Formulas," ACI Materials Journal, American Concrete Institute, Vol. 95, No. 4, July-August 1998.
  24. Poole, T.S., Curing of Portland Cement Concrete Pavements, Interim Report, Report prepared for FHWA by U.S. Army Corps of Engineers Research and Development Center, February 7, 2000.
  25. Practitioner's Guide to Hot Weather Concreting, American Concrete Institute, PP-2, 1998.
  26. Smith, K.D., Wade, M.J., Peshkin, D.G., Khazanovich, L., Yu, H.T., and Darter M.I., Performance of Concrete Pavements, Volume II: Evaluation of Inservice Concrete Pavements, FHWA-RD-95-110, Federal Highway Administration, Washington, DC, June 1998.
  27. Hansen, E.C., Johannesen, R., and Armaghani, J.M., "Field Effects of Water Pumping Beneath Concrete Pavement Slabs," Journal of Transportation Engineering, Vol. 117, No. 6, November-December 1991.
  28. Richter, C., "LTPP Data Analysis: Frequently Asked Questions about Joint Faulting with Answers from LTPP," TechBrief, FHWA-RD-97-101, Federal Highway Administration, Washington, DC, 1997.
  29. VanWijk, A.J. and Lovell, C.W., "Prediction of Subbase Erosion Caused by Pavement Pumping," Transportation Research Record 1099, pp. 45-57, 1987.
  30. Simpson, A.L., Rauhut, J.B., Jordahl, P.R., Owusu-Antwi, E., Darter, M.I., Ahmad, R., Pendleton, O.J., and Lee, Y.-H., Sensitivity Analyses for Selected Pavement Distresses, Strategic Highway Research Program, SHRP-P-393, Washington, DC, 1994.
  31. Bendana, L.J. and Yang, W.-S., "Rehabilitation Procedures for Faulted Pavement," Transportation Research Record 1388, pp. 200-210, 1993.
  32. Bustos, M., de-Solminhac, H.E., Darter, M.I., Caroca, A., and Covarrubias, J.P., "Calibration of Performance Models for Jointed Concrete Pavements Using Long-Term Pavement Database," Transportation Research Record 1629, pp. 108-116, 1998.
  33. Titus-Glover, L., Owusu-Antwi, E.B., Hoener, T., and Darter, M.I., Design and Construction of PCC Pavements, Volume II: Design Features and Practices that Influence Performance of Pavements, FHWA-RD-98-127, Federal Highway Administration, Washington, DC, October 1998.
  34. Ioannides, A.M., Lee, Y., and Darter, M.I., "Control of Faulting through Joint Load Transfer Design," Transportation Research Record 1286, National Research Council, Washington DC, pp. 49-56, 1990.
  35. Titus-Glover, L., Owusu-Antwi, E.B., and Darter, M.I., Design and Construction of PCC Pavements. Volume III: Improved PCC Performance Models, FHWA-RD-98-113, Federal Highway Administration, Washington, DC, January 1999.
  36. Sargaand, S.M., Performance of Dowel Bars and Rigid Pavement, Ohio Department of Transportation, FHWA/HWY-01/2001, June 2001.
  37. Smith, K.D., Mueller, A.L., Darter, M.I., and Peshkin, D.G., Performance of Jointed Concrete Pavements. Volume II-Evaluation and Modification of Concrete Pavement Design and Analysis Models, FHWA-RD-89-137, Federal Highway Administration, Washington, DC, July 1990.
  38. Smith, K.D., Peshkin, D.G., Darter, M.I., Mueller, A.L., and Carpenter, S.H., Performance of Jointed Concrete Pavements. Volume V-Appendix B Data Collection and Analysis Procedures, FHWA-RD-89-140, Federal Highway Administration, Washington, DC, March 1990.
  39. Yu, H.T., Smith, K.D., Darter, M.I., Jiang, J., and Khazanovich, L., Performance of Concrete Pavements Volume III-Improving Concrete Pavement Performance, FHWA-RD-95-111, Federal Highway Administration, McLean, VA, 1995.
  40. Moody, E.D., "Transverse Cracking Distress in Long-Term Pavement Performance of Jointed Concrete Pavement Sections," Transportation Research Record 1629, Texas Transportation Institute, Texas A&M University, College Station, TX, pp. 6-12, 1998.
  41. Ramsamooj, D.V., "Stresses in Jointed Rigid Pavements," Journal of Transportation Engineering, pp. 101-108, March-April 1999.
  42. Rollings, R.S., "Joint Spalling in Newly Constructed Concrete Pavements," Journal of Performance of Constructed Facilities, pp. 137-144, August 1998.
  43. Senadheera, S.P. and Zollinger, D.G., Influence of Coarse Aggregate in Portland Cement Concrete on Spalling of Concrete Pavements, Research Report 1244-11, Texas Transportation Institute, The Texas A&M University System, College Station, TX, 1994.
  44. Zollinger, D.G. and Senadheera, S.P., "Spalling of Continuously Reinforced Concrete Pavements," Journal of Transportation Engineering, Vol. 120, No. 3, May-June 1994.
  45. Merritt, D.K., McCullough, B.F., and Burns, N.H., "Texas Tests Precast for Speed and Usability," Public Roads, Vol. 66, No. 1, Federal Highway Administration, Washington, DC, July-August 2002.
  46. Won, M., Hankins, K., and McCullough, B.F., Mechanistic Analysis of Continuously Reinforced Concrete Pavements Considering Material Characteristics, Variability and Fatigue, Research Report 1169-2, Center for Transportation Research, The University of Texas at Austin, Austin, TX, March 1991.
  47. Colley, B.E. and Humphrey, H.A., "Aggregate Interlock at Joints in Concrete Pavements," Proceedings of the Highway Research Board 46th Annual Meeting, Report HRR 189, pp. 1-18, Washington, DC, 1967.
  48. Bayasi, Z., Effects of Fly Ash on the Properties of Silica-Fume Concrete, Mineral Admixtures, American Concrete Institute, Compilation 22, 1993.
  49. Nawy, E.G., Concrete Construction Engineering Handbook, CRC Press, Boca Raton, FL, 1997.
  50. ASTM C 1074-98 Standard Practice for Estimating Concrete Strength by the Maturity Method, American Society for Testing and Materials, 1998.
  51. Yoder, E.J. and Witczak, M.W., Principles of Pavement Design, John Wiley & Sons, Inc., 1975.
  52. Packard, R.G., Design of Concrete Airport Pavement, Engineering Bulletin 050.03P, Portland Cement Association, 1973.
  53. Okamoto, P.A, Naussbaum, P.J., Smith, K.D., Darter, M.I., Wilson, T.P., Wu, C.L., and Tayabji, S.D., Guidelines for Timing Contraction Joint Sawing and Earliest Loading for Concrete Pavements, Volume 1: Final Report, FHWA-RD-91-079, Federal Highway Administration, Washington, DC, February 1994.
  54. Ioannides, A.M. and Korovesis, G.T., "Analysis and Design of Doweled Slab-on-Grade Pavement Systems," Journal of Transportation Engineering, Vol. 118, No. 6, pp. 745-768, November-December 1992.
  55. Robert, O.R. and Rozycki, D.K., "Characterization and Modeling of Axial Slab-Support Restraint," Transportation Research Record No. 1778, Transportation Research Board, National Research Council, Washington, DC, 2001.


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