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Publication Number: FHWA-HRT-06-115
Date: August 2006

Index, Structural Behavior of Ultra-High Performance Concrete Prestressed I-Girders

REFERENCES

  1. Association Française de Génie Civil, Interim Recommendations for Ultra High Performance Fibre-Reinforced Concretes, 2002.
  2. Graybeal, B.A., Material Property Characterization of Ultra-High Performance Concrete, FHWA-HRT-06-103, Federal Highway Administration, U.S. Department of Transportation, 2006.
  3. Hajar, Z., A. Simon, D. Lecointre, and J. Petitjean, "Construction of the First Road Bridges Made of Ultra-High-Performance Concrete," Proceedings, 2003 International Symposium on High Performance Concrete, Orlando, FL, October 2003, 18 pp.
  4. Cavill, B., and G. Chirgwin, "The World's First RPC Road Bridge at Shepherds Gully Creek, NSW," Proceedings of the Fifth Austroads Bridge Conference, Hobart, Australia, May 2004.
  5. Blais, P.Y., and M. Couture, "Precast, Prestressed Pedestrian Bridge-World's First Reactive Powder Concrete Structure," PCI Journal, September-October 1999, pp. 60-71.
  6. Behloul, M., K.C. Lee, and D. Etienne, "Seonyu Ductal® Footbridge," In Concrete Structures: The Challenge of Creativity, FIB Symposium 2004 Proceedings, April 26-28, Avignon, France: Association Française de Génie Civil, 6 pp.
  7. Semioli, W.J., "The New Concrete Technology," Concrete International, Nov. 2001, pp. 75-79.
  8. Acker, P., and M. Behloul, "Ductal® Technology: A Large Spectrum of Properties, A Wide Range of Applications," Proceedings of the International Symposium on Ultra High Performance Concrete, Kassel, Germany, September 13-15, 2004, pp. 11-23.
  9. Buitelaar, P., "Heavy Reinforced Ultra High Performance Concrete," Proceedings of the International Symposium on Ultra High Performance Concrete, Kassel, Germany, September 13-15, 2004, pp. 25-35.
  10. Steinberg, E., and A. Lubbers, "Bond of Prestressing Strands in UHPC," Proceedings, 2003 International Symposium on High Performance Concrete, Orlando, FL, October 2003, 15 pp.
  11. Tawfiq, K., "Cracking and Shear Capacity of High Strength Concrete Bridge Girders," FL/DOT/RMC/612(1)-4269, Jan. 1995, 145 pp.
  12. Tawfiq, K., "Cracking and Shear Capacity of High Strength Concrete Bridge Girders Under Fatigue Loading," FL/DOT/RMC/612-7896, Nov. 1996, 127 pp.
  13. American Association of State Highway and Transportation Officials, AASHTO Standard Specifications for Highway Bridges, 15th ed., 1992.
  14. Hegger, J., D. Tuchlinski, and B. Kommer, "Bond Anchorage Behavior and Shear Capacity of Ultra High Performance Concrete Beams," Proceedings of the International Symposium on Ultra High Performance Concrete, Kassel, Germany, September 13-15, 2004, pp. 351-360.
  15. Russell, B.W., and N.H. Burns, "Static and Fatigue Behavior of Pretensioned Composite Bridge Girders Made with High Strength Concrete," PCI Journal, V. 38, No. 3, May-June 1993, pp. 116-128.
  16. ASTM C39, "Standard Test Method for Compressive Strength of Cylindrical Concrete Specimens," American Society for Testing and Materials Standard Practice C39, Philadelphia, PA, 1994.
  17. ASTM C78, "Standard Test Method for Flexural Strength of Concrete (Using Simple Beam with Third-Point Loading)," American Society for Testing and Materials Standard Practice C78, Philadelphia, PA, 1994.
  18. ASTM C1018, "Standard Test Method for Flexural Toughness and First-Crack Strength of Fiber-Reinforced Concrete (Using Beam With Third-Point Loading)," American Society for Testing and Materials Standard Practice C1018, Philadelphia, PA, 1997.
  19. American Association of State Highway and Transportation Officials, AASHTO LRFD Bridge Design Specifications, 2002.
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