Title:
Shear Behavior of Oblong Bridge Columns with Innovative Seven-Spiral Transverse Reinforcement
Author(s):
Yu-Chen Ou, Si-Huy Ngo, Samuel Y. Yin, Jui-Chen Wang, and Ping-Hsiung Wang
Publication:
Structural Journal
Volume:
111
Issue:
6
Appears on pages(s):
1339-1350
Keywords:
bridge columns; interlocking spirals; multi-spiral reinforcement; seismic; seven-spiral reinforcement
DOI:
10.14359/51686873
Date:
11/1/2014
Abstract:
An innovative seven-spiral transverse reinforcement is proposed for oblong reinforced concrete bridge columns. Compared to conventional single-spiral or two-spiral transverse reinforcement,
the proposed scheme reduces the size of the spirals and hence improves the constructability of spirals for large bridge columns. Four seven-spiral columns were tested under high shear
stress to assess their performance. Comparable conventional tied and two-spiral columns were also tested. Test results showed that spirals in the proposed seven-spiral columns remained interlocked. With less transverse reinforcement, the seven-spiral columns
achieved similar or better shear performance compared to the tied columns. The seven-spiral column exhibited the highest effective shear coefficient, followed by the two-spiral column and the tied column. Comparison of shear strength predictions with the test results shows that the ACI 318 model generally provides conservative
estimates, and the Caltrans SDC and Sezen models provide reasonable estimates of experimental behavior in terms of failure point prediction.