Title:
Pseudo-Dynamic Testing, Performance Assessment, and Modeling of Deficient Reinforced Concrete Frames
Author(s):
Haluk Sucuoglu, Wesley Wei-Chih Lin, Barıs¸ Binici, and Pourang Ezzatfar
Publication:
Structural Journal
Volume:
111
Issue:
5
Appears on pages(s):
1203-1212
Keywords:
deficient frames; lap splices; modeling; performance assessment, pseudo-dynamic testing
DOI:
10.14359/51686922
Date:
9/1/2014
Abstract:
A pair of half-scale, three-story, three-bay concrete bare frames were tested by the pseudo-dynamic (PsD) testing procedure. Both frames represent common deficiencies of non-seismic construction. Continuous column reinforcement in one specimen and insufficient lap splices at the bottom ends of columns in the other specimen were the only significant differences. Measured seismic performances of both frames were assessed by using the rotation and strain-based acceptance criteria of two different seismic codes. Dynamic responses of both frames were also predicted by employing nonlinear frame models. Analytical models of deficient frames were capable of predicting global deformation response, but failed
to predict local deformations. Prediction of local deformations in deficient frames can only be improved if joint deformations and hysteretic degradation in member properties are considered directly in the analytical models.