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Computers and Concrete Volume 23, Number 6, June 2019 , pages 377-398 DOI: https://doi.org/10.12989/cac.2019.23.6.377 |
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Shear strength model for reinforced concrete beam-column joints based on hybrid approach |
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Kanak N. Parate and Ratnesh Kumar
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| Abstract | ||
| Behavior of RC beam-column joint is very complex as the composite material behaves differently in elastic and inelastic range. The approaches generally used for predicting joint shear strength are either based on theoretical, strut-and-tie or empirical methods. These approaches are incapable of predicting the accurate response of the joint for entire range of loading. In the present study a new generalized RC beam-column joint shear strength model based on hybrid approach i.e. combined strutand-tie and empirical approach has been proposed. The contribution of governing parameters affecting the joint shear strength under compression has been derived from compressive strut approach whereas; the governing parameters active under tension has been extracted from empirical approach. The proposed model is applicable for various conditions such as, joints reinforced either with or without shear reinforcement, joints with wide beam or wide column, joints with transverse beams and slab, joints reinforced with X-bars, different anchorage of beam bar, and column subjected to various axial loading conditions. The joint shear strength prediction of the proposed model has been compared with 435 experimental results and with eleven popular models from literature. In comparison to other eleven models the prediction of the proposed model is found closest to the experimental results. Moreover, from statistical analysis of the results, the proposed model has the least coefficient of variation. The proposed model is simple in application and can be effectively used by designers. | ||
| Key Words | ||
| reinforced concrete; beam-column joint; shear strength; parameters; experimental database | ||
| Address | ||
| Kanak N. Parate and Ratnesh Kumar: Department of Applied Mechanics, Visvesvaraya National Institute of Technology, Nagpur, India | ||