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http://dx.doi.org/10.12989/eas.2013.4.4.429

Seismic behavior of reinforced concrete interior beam-column joints with beams of different depths  

Xing, G.H. (School of Civil Engineering, Chang'an University)
Wu, T. (School of Civil Engineering, Chang'an University)
Niu, D.T. (School of Civil Engineering, Xi'an University of Architecture & Technology)
Liu, X. (School of Civil Engineering, Chang'an University)
Publication Information
Earthquakes and Structures / v.4, no.4, 2013 , pp. 429-449 More about this Journal
Abstract
Current Design Codes for Reinforced Concrete (RC) interior beam-column joints are based on limited experimental studies on the seismic behavior of eccentric joints. To supplement existing information, an experimental study was conducted that focused on the effect of eccentricity of the deeper beams with respect to the shallow beams. A total of eight one-third scale interior joints with beams of different depths were subjected to reverse cyclic loading. The primary variables in the test specimens were the amount of joint transverse reinforcement and the cross section of the shallow beams. The overall performance of each test assembly was found to be unsatisfactory in terms of joint shear strength, stiffness, energy dissipation and shear deformation. The results indicated that the vertical eccentricity of spandrel beams in this type of joint led to lower capacity in joint shear strength and severe damage of concrete in the joint core. Increasing the joint shear reinforcement was not effective to alter the failure mode from joint shear failure to beam yielding which is favorable for earthquake resistance design, whereas it was effective to reduce the crack width at the small loading stages. Based on the observed behavior, the shear stress of the joint core was suggested to be kept as low as possible for a safe and practical design of this type of joint.
Keywords
shear failure; joint; earthquake resistance; eccentricity; different beam depth;
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