Title:
Seismic Retrofit of Circular Bridge Columns for Enhanced Flexural Performance
Author(s):
Yuk Hon ChaiI, M. J. Nigel Priestley, and Frieder Seible
Publication:
Structural Journal
Volume:
88
Issue:
5
Appears on pages(s):
572-584
Keywords:
bridges (structures); columns (supports); confined concrete; ductility; earthquake-resistant structures; failure; flexural strength; footings; shear strength; steels; Structural Research
DOI:
10.14359/2759
Date:
9/1/1991
Abstract:
Collapse or severe damage of a number of California bridges in recent moderate earthquakes has emphasized the need to develop retrofit measures to enhance flexural strength, ductility, and shear strength of bridge columns designed before current seismic design provisions were implemented. Paper reports results of a research program investigating the retrofit of circular columns by encasing plastic hinge regions with a bonded steel jacket. Results from six large-scale column tests showed that steel jacketing results in column ductilities as high as those available from confined columns designed to current codes, and inhibits bond failures in lap splices of longitudinal reinforcement in plastic hinge regions. A secondary result from the tests was the identification of joint shear failure at the footing/column junction as a potential failure mechanism for old and current footing designs.