Title:
Cyclic Loading Test for Beam-Column Connection with Prefabricated Reinforcing Bar Details
Author(s):
Tae-Sung Eom, Jin-Aha Song, Hong-Gun Park, Hyoung-Seop Kim, and Chang-Nam Lee
Publication:
Structural Journal
Volume:
110
Issue:
3
Appears on pages(s):
403-414
Keywords:
beam-column connection; prefabricated reinforcement details; reinforced concrete; seismic design
DOI:
10.14359/51685598
Date:
5/1/2013
Abstract:
A Prefabricated Reinforcing Bar Construction (PRC) Method was developed for fast construction and cost savings. In this study, prefabricated reinforcing bar connection method for the earthquake design of beam-column connections was developed. Three interior and one exterior full-scale beam-column connections, including a conventional reinforced concrete (RC) specimen, were tested under cyclic loading. The test specimens were designed to satisfy the requirement of the special moment frame specified in ACI 318-08. In the proposed connection method, reinforcing bar welding, coupler splice, and headed bar anchorage were used, considering the PRC Method. The test results showed that the story drift ratio of the PRC beam-column connections exceeded 3.5%, which is the requirement of ACI 374.1-05. The load-carrying capacity, yield stiffness, and energy dissipation capacity of the PRC specimens were comparable to those of the conventional RC specimen. The major failure modes of the PRC specimens were flexural concrete crushing and reinforcing bar fracture at the beam plastic hinge region. The welding of the reinforcing bars and the coupler splice did not significantly affect the performance of the specimens.