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- Title
A new smooth hysteretic model for ductile flexural-dominated reinforced concrete bridge columns.
- Authors
Wang, Ping‐Hsiung; Ou, Yu‐Chen; Chang, Kuo‐Chun
- Abstract
A new smooth hysteretic model is proposed for ductile, flexural-dominated reinforced concrete bridge columns. Four columns designed per modern seismic codes were tested using monotonically increasing and variable-amplitude cyclic loading protocols and ground motion loading to develop the model. Based on the test results, hysteretic rules for damage accumulation and path dependence of reloading were constructed. For damage accumulation, unloading stiffness degradation is correlated with the maximum displacement and hysteretic energy dissipation, while reloading stiffness degradation is set equal to the unloading stiffness degradation. Pinching severity is related to the residual displacement in the direction opposite to the loading direction. Strength deterioration is correlated with the damage index and does not occur until the damage index reaches a threshold, after which the deterioration is proportional to the increase of the damage index. For path dependence of reloading, reloading paths are classified into primary paths and associate paths. The primary paths are those that start from a residual displacement that is equal to or larger than the previous maximum one. The associate paths are those that do not belong to primary paths and tend to be directed towards certain points. Reloading without load reversal is assumed to be linear. Comparison with the results of pseudo-dynamic tests using three consecutive ground motions showed that the proposed model closely matched the test results. Copyright © 2017 John Wiley & Sons, Ltd.
- Subjects
REINFORCED concrete construction; FLEXURAL strength; ENERGY dissipation; CONCRETE bridges; STIFFNESS (Engineering)
- Publication
Earthquake Engineering & Structural Dynamics, 2017, Vol 46, Issue 14, p2237
- ISSN
0098-8847
- Publication type
Article
- DOI
10.1002/eqe.2875