[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.12989/sem.2010.34.5.563

Behavior of strengthened reinforced concrete coupling beams by bolted steel plates, Part 2: Evaluation of theoretical strength

Zhu, Y. (School of Civil Engineering, The University of Guang Zhou)
Su, R.K.L. (Department of Civil Engineering, The University of Hong Kong)

Publication Information

Structural Engineering and Mechanics / v.34, no.5, 2010 , pp. 563-580 More about this Journal

Abstract

Composite beams using bolts to attach steel plates to the side faces of existing reinforced concrete (RC) coupling beams can enhance both their strength and deformability. The behavior of those composite beams differs substantially from the behavior of typical composite beams made up of steel beams and concrete slabs. The former are subjected to longitudinal, vertical and rotational slips, while the latter only involve longitudinal slip. In this study, a mixed analysis method was adopted to develop the fundamental equations for accurate prediction of the load-carrying capacity of steel plate strengthened RC coupling beams. Then, a rigid plastic analysis technique was used to cope with the full composite effect of the bolt group connections. Two theoretical models for the determination of the strength of medium-length plate strengthened coupling beams based on mixed analysis and rigid plastic methods are presented. The strength of the strengthened coupling beams is derived. The vertical and longitudinal slips of the steel plates and the shear strength of the anchor-bolt connection group is considered. The theoretical models are validated by the available experimental results presented in a companion paper. The strength of the specimens predicted from the mixed analysis model is found to be in good agreement with that from the experimental results.

Keywords

coupling beam; strengthening; steel plate; bolt connection; slip strain; partial interaction; rigid plastic; mixed analysis;

Citations & Related Records

Times Cited By KSCI : 1 (Citation Analysis)
Times Cited By Web Of Science : 4 (Related Records In Web of Science)
Times Cited By SCOPUS : 7

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2	J.C.M. Ho. (2013) Structural Engineering and Mechanics Improving design limits of strength and ductility of NSC beam by considering strain gradient effect / 47 (2) , 185
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4	J.C.M. Ho. (2010) Structural engineering and mechanics : An international journal Concurrent flexural strength and deformability design of high-performance concrete beams / 40 (4) , 541
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4	Johnny Ching Ming Ho. (2010) Structural engineering and mechanics : An international journal Inelastic design of high-axially loaded concrete columns in moderate seismicity regions / 39 (4) , 559
6	(2010) Structural engineering and mechanics : An international journal Strengthening of reinforced concrete beams with epoxy-bonded perforated steel plates / 44 (6) , 735
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3	(2010) Practice periodical on structural design and construction Seismic Retrofitting of Reinforced-Concrete Coupled Shear Walls: A Review / 25 (3) , 03120001

1	Normalised rotation capacity for deformability evaluation of high-performance concrete beams / [Zhou, K.J.H.;Ho, J.C.M.;Su, R.K.L.;] / Earthquakes and Structures
2	Inelastic design of high-axially loaded concrete columns in moderate seismicity regions / [Ho, Johnny Ching Ming;] / Structural Engineering and Mechanics
3	Minimum deformability design of high-strength concrete beams in non-seismic regions / [Ho, J.C.M.;Zhou, K.J.H.;] / Computers and Concrete
4	Strengthening of RC beams with prefabricated RC U cross-sectional plates / [Demir, Ali;Tekin, Muhammed;Turali, Tezcan;Bagci, Muhiddin;] / Structural Engineering and Mechanics
5	Concurrent flexural strength and deformability design of high-performance concrete beams / [Ho, J.C.M.;Zhou, K.J.H.;] / Structural Engineering and Mechanics
6	Strengthening of reinforced concrete beams with epoxy-bonded perforated steel plates / [Aykac, Sabahattin;Kalkan, Ilker;Uysal, Ali;] / Structural Engineering and Mechanics
7	Improving design limits of strength and ductility of NSC beam by considering strain gradient effect / [Ho, J.C.M.;Peng, J.;] / Structural Engineering and Mechanics

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3	/ Computers and Concrete
4	/ Structural Engineering and Mechanics
5	/ Advances in Structural Engineering
6	/ Structural Engineering and Mechanics