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all these codes of practice in this topic. Once again, this topic focuses on
finite element analysis of steel and steel-concrete composite bridges. There-
fore, the topic only highlights, as examples, the design rules specified in the
American Specifications [ 1.23-1.25 ] and Eurocode [ 1.27 , 1.28 ] . However,
the finite element modeling presented in this topic can be used to simulate
any bridge designed using any current code of practice used in any country.
Following the simulation of the investigated bridge, the design predictions
can be compared and assessed against finite element results.
REFERENCES
[1.1] Department of Transport, Design of composite bridges, Use of BS 5400: part 5: 1979
for Department of Transport structures, Department of Transport, London, UK, 1987.
[1.2] D.C. Iles, Design Guide for Composite Box Girder Bridges, The Steel Construction
Institute, Ascot, Berkshire, UK, 1994.
[1.3] A.R. Biddle, D.C. Iles, E. Yandzio, Integral Steel Bridges: Design Guidance, The
Steel Construction Institute, Ascot, Berkshire, UK, 1997.
[1.4] S. Chatterjee, The Design of Modern Steel Bridges, second ed., Blackwell Science
Ltd, UK, 2003.
[1.5] J.F. Unsworth, Design of Modern Steel Railway Bridges, first ed., CRC Press, USA,
2010.
[1.6] R.M. Barker, J.A. Puckett, Design of Highway Bridges: An LRFD Approach, third
ed., Wiley, UK, 2013.
[1.7] W.F. Chen, L. Duan, Bridge Engineering: Seismic Design, Taylor & Francis, UK, 2003.
[1.8] W.F. Chen, L. Duan, Bridge Engineering Handbook, Taylor & Francis, UK, 2010.
[1.9] B. Davison, G.W. Owens, Steel Designer Manual, sixth ed., Blackwell Publishers,
UK, 2003.
[1.10] R.L. Brockenbrough, F.S. Merritt, Structural Steel Designers' Handbook, third ed.,
McGraw-Hill Book Company, UK, 1999.
[1.11] U.S. Department of Transportation, Steel Bridge Design Handbook, Publication No.
FHWA-IF-12-052. Federal Highway Administration, U.S.A, 2012.
[1.12] J.T. Oden, Finite Element of Nonlinear Continua, McGraw-Hill, New York, 1972.
[1.13] H. Kardestuncer, Elementary Matrix Analysis of Structures, McGraw-Hill, New York,
1974.
[1.14] J.R. Whiteman, A Bibliography for Finite Elements, Academic Press, London, 1975.
[1.15] D. Norrie, G. deVries, Finite Element Bibliography, IFI/Plenum, New York, 1976.
[1.16] O.C. Zienkiewicz, The Finite Element Method, third ed., McGraw Hill, London,
1977.
[1.17] R.D. Cook, Concepts and Applications of Finite Element Analysis, second ed.,
Wiley, New York, 1981.
[1.18] H. Logan, A First Course in the Finite Element Method, PWS Engineering, Boston,
1986.
[1.19] A. Yargicoglu, C.P. Johnson, Temperature induced stresses in highway bridges by
finite element analysis and field tests, Research Project 3-5-74-23, Center for high-
way research, The University of Texas at Austin, Texas, USA, 1978.
[1.20] J. C. Hall, C. N. Kostem, Inelastic overload analysis of continuous steel multi-girder
highway bridges by the finite element method. Fritz Engineering Laboratory Report
No. 432.6, Department of Civil Engineering, Lehigh University, Bethlehem,
Pennsylvania, USA, 1981.
 
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