Title:
Energy Dissipation Capacity of Reinforced Concrete Columns under Cyclic Displacements
Author(s):
Bora Acun and Haluk Sucuoglu
Publication:
Structural Journal
Volume:
109
Issue:
4
Appears on pages(s):
531-540
Keywords:
columns; effective damping; energy dissipation capacity; loading path
DOI:
10.14359/51683872
Date:
7/1/2012
Abstract:
The energy dissipation capacity of reinforced concrete (RC) columns is investigated under inelastic cyclic displacements. Experimental data are obtained from 20 column specimens tested under constant-amplitude displacement cycles and from three column specimens tested under variable-amplitude displacement cycles. The effect of failure mode, displacement ductility, material properties, and detailing on the energy dissipation capacity of columns is investigated first under constant-amplitude loading. A simple model is developed for predicting the cyclic energy dissipation capacity under constant-amplitude inelastic displacement cycles. Then, an analytical procedure is introduced for estimating the energy dissipation under variable-amplitude displacement cycles by using the energy dissipation capacity under constant-amplitude displacements. The proposed procedure is verified with the test results.