Civil Engineering Reference
In-Depth Information
Mander, J.B., Priestley, M.J.N., and Park, R.,“Theoretical Stress-Strain Model of Confined
Concrete,”
Journal of Structural Engineering
, 114(8), 1804-1826, 1988b.
Menassa, C., Mabsout, M., Tarhini, K., and Frederick, G., “Influence of Skew Angle
on Reinforce Concrete Slab Bridges,”
Journal of Bridge Engineering
, 12(2),
205-214, 2007.
O'Brien, E.J. and Keogh, D.,
Bridge Deck Analysis
, E & FN Spon, London, 1999.
Park, S.H.,
Bridge Inspection and Structural Analysis
, 2nd Edition, Trenton, NJ, 2000.
Rajagopalan, N.,
Bridge Superstructure
,
Alpha Science International, Oxford,
October 12, 2006.
SAP2000
®
, “Integrated Software for Structural Analysis & Design,” Computers
and Structures Inc., Berkeley, CA, 2007, http://www.csiamerica.com/products/
sap2000.
Sen, R., Issa, M., Sun, X., and Gergess, A., “Finite Element Modeling of Continuous
Posttensioned Voided Slab Bridges,”
Journal of Structural Engineering
, 120,
2, 1994.
Timoshenko, S. and Woinowsky-Krieger, S.
Theory of Plates and Shells.
McGraw-
Hill, London, 1959.
Chapter 5
AASHTO,
AASHTO LRFD Bridge Design Specifications,
, 6th Edition, American
Association of State Highway and Transportation Officials, Washington, DC,
2013 Interim.
ACI-209,
Prediction of Creep, Shrinkage and Temperature Effects in Concrete
Structures, Designing for Creep and Shrinkage in Concrete Structure
, ACI
Publication SP-76, American Concrete Institute, Detroit, MI, 1982.
Bakht, B. and Jaeger, L.G.,
Bridge Analysis Simplified,
, McGraw-Hill, New York, 1985.
FLDOT/Corven Engineering, Inc.,
New Directions for Florida Post
-
Tensioned
Bridges
, Volume 1 of 10: Post-Tensioning in Florida Bridges, Florida
Department of Transportation, Tallahassee, FL, February 2002.
Fu, C.C., “Merlin-DASH/PBEAM
®
User's Manual,” BEST Center, University of
Maryland, College Park, MD, 2012.
Fu, C.C. and Wang, S., “Prestressed Concrete Girder Bridges from 2D to 3D
Modeling,” (02-3102) Transportation Research Board Practical Papers,
2002 Catalog of Practical Papers for State Departments of Transportation
,
Washington, DC, 2002.
JTG D62-85,
Code for Design of Highway Reinforce Concrete and Prestressed
Concrete Bridges and Culverts
(in Chinese), People's Transportation Press,
Beijing, People's Republic of China, 1985.
Ketchum, M.A. and Scordelis, A.C.,
Redistribution of Stresses in Segmentally Erected
Prestressed Concrete Bridges
, University of California, Berkeley, CA, Report
No. UCB/SESM-86-07, 1986.
LUSAS
®
, “LUSAS Bridge/Bridge Plus Bridge Engineering Analysis,” 2012, http://
www.lusas.com/products/information/eurocode_pedestrian_loading.html.
McDonald, D., “Comparison of Design Practices of Prestressed Concrete Beam
Bridge in the U.S.,” Unpublished M.S. scholarly paper supervised by C.C. Fu,
December 2005.
Search WWH ::
Custom Search