Publication Date:
2003-01-01
Description:
This paper discusses the importance of including the bond-slip effects in assessing the response under cyclic loads of reinforced concrete frames. The discussion is based on analyses performed using numerical models which are simple, computationally efficient and capable of representing the salient features of reinforced concrete frames under both static and dynamic loads. The numerical models comprise a displacement-based, reinforced concrete frame element with bond-slip and a rigid beam-column joint element with bond-slip. Two applications illustrate the model accuracy and show the importance of including bond-slip. The first application considers a reinforced concrete beam-column subassemblage experimentally tested under cyclic loads. The second application considers the shaking table test of a two-story one-bay reinforced concrete frame. In both cases the analytical results correlate well with the experimental results in terms of strength, displacement demands and hysteretic energy dissipation. Furthermore, the paper shows how the analyses that include bond-slip yield a better correlation with the experimental results with respect to the analyses that assume a perfect bond. © 2003 John Wiley and Sons, Ltd.
Print ISSN:
0098-8847
Electronic ISSN:
1096-9845
Topics:
Architecture, Civil Engineering, Surveying
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