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Pavements

Construction of a Precast Prestressed Concrete Pavement Demonstration Project on Interstate 57 Near Sikeston, Missouri

References

  1. Merritt, David K., B. Frank McCullough, Ned H. Burns, and Anton K. Schindler. The Feasibility of Using Precast Concrete Panels to Expedite Highway Pavement Construction, Research Report No. 1517-1, Center for Transportation Research, University of Texas at Austin, February 2000.
  2. Merritt, David K., B. F. McCullough, and Ned H. Burns, Construction and Preliminary Monitoring of the Georgetown, Texas Precast Prestressed Concrete Pavement, Research Report 1517-01-IMP, Center for Transportation Research, University of Texas at Austin, December 2002.
  3. Merritt, David K., B. F. McCullough, and Ned H. Burns. "Design-Construction of a Precast, Prestressed Concrete Pavement for Interstate 10, El Monte, California." PCI Journal, vol. 50, no. 2. March/April 2005.
  4. Merritt, David K., Kirsten Stahl, Samuel S. Tyson, and B. F. McCullough. "Expedited Construction Using Precast Prestressed Concrete Pavement in California." Proceedings, 8th International Conference on Concrete Pavements. Colorado Springs, Colorado. August 2005, pp. 808-823.
  5. Merritt, David K., and Samuel S. Tyson. "Precast Prestressed Concrete Pavement-A Long-life Approach for Rapid Repair and Rehabilitation." Proceedings, International Conference on Long-Life Concrete Pavements. Chicago, IL. October 2006, pp. 497-512.
  6. Mendoza Diaz, Alberto, B. Frank McCullough, and Ned H. Burns. Design of the Texas Prestressed Concrete Pavement Overlays in Cooke and McLennan Counties and Construction of the McLennan County Project, Research Report No. 555/556-1, Center for Transportation Research, University of Texas at Austin, February 1986.
  7. Wesevich, James W., B. F. McCullough, and Ned H. Burns. Stabilized Subbase Friction Study for Concrete Pavements, Research Report 459-1, Center for Transportation Research, University of Texas at Austin, April 1987.
  8. Cable, Neil D., B. F. McCullough, and N. H. Burns. New Concepts in Prestressed Concrete Pavement. Research Report 401-2. Center for Transportation Research, University of Texas at Austin, December 1985.
  9. Mendoza Diaz, A., B. F. McCullough, and Ned H. Burns. Behavior of Long Prestressed Pavement Slabs and Design Methodology, Research Report 401-3, Center for Transportation Research, University of Texas at Austin, September 1986.
  10. Tena-Colunga, Jose A., B. Frank McCullough, and Ned H. Burns. Analysis of Curling Movements and Calibration of PCP Program, Research Report No. 556-3, Center for Transportation Research, University of Texas at Austin, November 1989.
  11. "Pavement Structure Design." MoDOT Project Development Manual. Chapter VI, Section 6-03. Missouri Department of Transportation, Jefferson City, 2004.
  12. AASHTO Guide for Design of Pavement Structures. American Association of State Highway and Transportation Officials, Washington, DC, 1993.
  13. Whiteoak, C. D. "Analytical Pavement Design Using Programs for Personal Computers," Highways and Transportation, vol. 37, no. 8, August 1990, pp. 31-35.
  14. ACI 318-95-Building Code Requirements for Structural Concrete and Commentary. American Concrete Institute, Farmington Hills, MI, 1995.
  15. Standard Specifications for Highway Bridges, 17th Edition. American Association of State Highway and Transportation Officials, Washington, DC. 2002.
  16. Davis, Brent M. Evaluation of Prestress Losses in an Innovative Prestressed Precast Pavement System. Master's Thesis. University of Missouri-Columbia, December 2006.
  17. PCI Design Handbook for Precast and Prestressed Concrete. Precast/Prestressed Concrete Institute. Chicago, IL, 5th ed., 1999.
  18. Luckenbill, Grant. Pending Master's thesis (Anticipated 2008). University of Missouri-Columbia, December 2006.
  19. ASTM C939-02-Standard Test Method for Flow of Grout for Preplaced-Aggregate Concrete (Flow Cone Method). ASTM International, West Conshohocken, PA, 2002.
  20. Dailey, Cody L. Instrumentation and Early Performance of an Innovative Prestressed Precast Pavement System. Master's Thesis. University of Missouri-Columbia, December 2006.
  21. Mandel, Elliott, Jose Tena-Colunga, Kenneth Hankins, Ned H. Burns, and B. Frank McCullough. The Performance of a Prestressed Concrete Pavement, Research Report No. 556-4F, Center for Transportation Research, University of Texas at Austin, November 1989.
  22. Personal correspondence with Dr. Tommy Nantung, P.E., Indiana Department of Transportation, September 6, 2006.
  23. ASTM C1202-05-Standard Test Method for Electrical Indication of Concrete's Ability to Resist Chloride Ion Penetration. ASTM International, West Conshohocken, PA, 2005.
  24. ASTM C666/C666M-03-Standard Test Method for Resistance of Concrete to Rapid Freezing and Thawing. ASTM International, West Conshohocken, PA, 2003.
Updated: 04/07/2011
 

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