|Table of Contents|

[1] Tan Jiqing, Xu Wei, Zhang Xiaoning,. Finite element simulation and optimal analysisof surfacing on steel orthotropic bridge deck [J]. Journal of Southeast University (English Edition), 2006, 22 (4): 539-543. [doi:10.3969/j.issn.1003-7985.2006.04.020]
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Finite element simulation and optimal analysisof surfacing on steel orthotropic bridge deck()
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Journal of Southeast University (English Edition)[ISSN:1003-7985/CN:32-1325/N]

Volumn:
22
Issue:
2006 4
Page:
539-543
Research Field:
Traffic and Transportation Engineering
Publishing date:
2006-12-30

Info

Title:
Finite element simulation and optimal analysisof surfacing on steel orthotropic bridge deck
Author(s):
Tan Jiqing Xu Wei Zhang Xiaoning
Institute of Road Engineering, South China University of Technology, Guangzhou 510641, China
Keywords:
steel orthotropic deck bridge deck overlay finite element submodeling optimal analysis fatigue test
PACS:
U416.217
DOI:
10.3969/j.issn.1003-7985.2006.04.020
Abstract:
To analyze the stress state of steel orthotropic deck pavement and provide reference for the design of the overlay, the inner stress state and strain distribution of surfacing under the load of the deformation of the whole bridge structure and tyre load are analyzed by the finite element method of submodeling.Influence of surfacing modulus on the strain state of the overlay is analyzed for the purpose of the optimal design of the overlay structure.Analysis results show that the deformation of the whole bridge structure has no evident influence on the stress state of the overlay.The key factor of the overlay design is the transverse tensile strain in the overlay above the upper edge of web plate of rib.The stress state of the overlay is influenced evidently by the modulus of rigidity transform overlay.And the stress state of the overlay can be optimized and lowered by increasing the modulus and thickness of rigidity transform overlay.The fatigue test has been done to evaluate the fatigue performance and modulus of different deck pavement materials such as epoxy asphalt, SBS modified asphalt, rosphalt asphalt which can provide reference for deck pavement structure design.

References:

[1] Medani T O.Asphalt surfacing applied to orthotropic steel bridge decks, a literature study(No.7-01-127-1)[R].Netherlands:Road and Railroad Research Laboratory of Delft University of Technology, 2001.
[2] Hulsey J Leroy, Yang Liao, Raad Lutfi.Wearing surfaces for orthotropic steel bridge decks [A].In: Transportation Research Record[C].Washington, DC: National Academy Press, 1999, 1654:141-150.
[3] Medani T O.Towards a new design philosophy for surfacings on orthotropic steel bridge decks(No.7-01-127-2)[R].Netherlands:Road and Railroad Research Laboratory of Delft University of Technology, 2001.
[4] Medani T O, Scarpas A, Kolstein M H, et al.Design aspects of wearing courses on orthotropic steel bridge decks [A].In:Proceedings of the 9th International Conference on Asphalt Pavements (ICAP)[C].Copenhagen, Denmark, 2002.1-5.
[5] Li Chang, Deng Xuejun, Zhou Shizhong, et al.Analysis of the deck pavement on steel box bridge [J].Journal of Southeast University (Natual Science Edition), 2001, 31(6):14-17.(in Chinese)
[6] Hu Guangwei, Qian Zhendong, Huang Wei.Structural optimum design of the second system of orthotropic steel bridge [J].Journal of Southeast University (Natural Science Edition), 2001, 31(3):76-78.(in Chinese)
[7] Xu Wei, Li Zhi, Zhang Xiaoning.Application of submodeling method for analysis for deck structure of diagonal cable-stayed bridge with long span [J].China Civil Engineering Journal, 2004, 37(6):30-34.(in Chinese)

Memo

Memo:
Biography: Tan Jiqing(1973—), male, senior engineer, tanjiqing@tom.com.
Last Update: 2006-12-20