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[1] Ji Bohai, Gao Jianming, Tetsuhiko Aoki,. Static cyclic-loading test on new type of rigid connection ofsteel girder and reinforced concrete pier [J]. Journal of Southeast University (English Edition), 2003, 19 (4): 368-372. [doi:10.3969/j.issn.1003-7985.2003.04.014]
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Static cyclic-loading test on new type of rigid connection ofsteel girder and reinforced concrete pier()
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Journal of Southeast University (English Edition)[ISSN:1003-7985/CN:32-1325/N]

Volumn:
19
Issue:
2003 4
Page:
368-372
Research Field:
Civil Engineering
Publishing date:
2003-12-30

Info

Title:
Static cyclic-loading test on new type of rigid connection ofsteel girder and reinforced concrete pier
Author(s):
Ji Bohai1 Gao Jianming2 Tetsuhiko Aoki3
1College of Civil Engineering, Hohai University, Nanjing 210098, China
2Department of Material Science and Engineering, Southeast University, Nanjing 210096, China
3Department of Civil Engineering, Aichi Institute
Keywords:
composite structure stress-transfer seismic performance energy absorption
PACS:
TU398
DOI:
10.3969/j.issn.1003-7985.2003.04.014
Abstract:
A new type of rigid connection of steel girder and reinforced concrete pier of a bridge is proposed. The components in rigid connection are installed by high-strength bolts on the spot, which are very convenient in construction. The moment from superstructure can be effectively transferred to substructure, and the plates provided for shear transferring can withstand the majority of total horizontal force. With static cyclic-loading test, useful experimental data is obtained on the new type of connection of steel superstructure and concrete substructure. As a result, the stress transfer mechanism of the rigid connection can be made clearly and the seismic performance of this structure can also be clarified. Compared computed strength and ductility with actual results, it can be found that this type of connection has good energy absorption capacity in spite of large displacement and no local buckling arises at the locations where stress concentration occurs. Because of doing away with the expensive bearing, this new type of composite structure can be expected to construct a bridge with high seismic resistant capacity thus saving in total construction cost.

References:

[1] Sato T, Shimitsu I, Ota T, et al. A proposal on design method for rigid section of hybrid rigid-frame bridge [J]. Journal of Structural Engineering, JSCE, 1999, 45A:1431-1438.
[2] Suzuki Y, Mizuguchi K, Yoshida, et al. A rigid connection mechanism of composite frame bridge and its model loading test [J]. Journal of Structural Engineering, JSCE, 1998, 44A: 1435-1446.
[3] Matsui S, Yukawa Y, Wada N, et al. A study on the design for rigid connection of steel girder and RC pier in hybrid frame bridge [J].Journal of Structural Engineering, JSCE, 1997, 43A:1367-1374.
[4] Sasaki Y, Hirai T, Akehashi. Experimental study on rigid connection for hybrid frame bridge consisting of steel girder and reinforced concrete pier [J]. Journal of Structural Engineering, JSCE, 1998, 44A:1447-1457.
[5] Japan Highway Design Association. Highway Bridge Design speciment Ⅴ[S]. Tokyo: Japan Maruzen Press, 1996.(in Japanese)

Memo

Memo:
Biography: Ji Bohai(1966—), male, doctor, associate professor, jibohai@jsmail.com.cn.
Last Update: 2003-12-20