Experimental study on the eccentric performances of high predamaged rectangular reinforced concrete columns strengthened with carbon fiber reinforced polymer

The mechanical behaviors of 12 high predamaged reinforced concrete (RC) rectangular columns strengthened with carbon fiber reinforced polymer (CFRP) under eccentric compression were experimentally investigated. The effects of the predamaged degree (δ), CFRP strips spacing (sf) and eccentricity (e) o...

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Bibliographic Details
Published in:Structural concrete : journal of the FIB 2022-06, Vol.23 (3), p.1735-1760
Main Authors: Yu, Feng, Zou, Qiye, Fang, Yuan, Wu, Ping, Huang, Longxu, Bu, Shuangshuang
Format: Article
Language:English
Subjects:
Bearing capacity
Carbon fiber reinforced concretes
Carbon fiber reinforced plastics
Carbon fiber reinforcement
concrete column
Concrete columns
Crushing
damaged degree
eccentric loading
Eccentricity
failure mode
Failure modes
Fiber reinforced polymers
fiber‐reinforced polymer
Reinforced concrete
reinforcement
Reinforcing steels
Strain distribution
Stress-strain relationships
stress–strain relationship
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Summary:The mechanical behaviors of 12 high predamaged reinforced concrete (RC) rectangular columns strengthened with carbon fiber reinforced polymer (CFRP) under eccentric compression were experimentally investigated. The effects of the predamaged degree (δ), CFRP strips spacing (sf) and eccentricity (e) on failure mode, bearing capacity, strain behaviors of CFRP strengthened predamaged columns were examined systematically. Test results demonstrated that the strengthened RC columns with small‐eccentricity were destroyed by the yielding of compressive longitudinal steel bars and the crushing of compression concrete while the transverse CFRP strips were not ruptured. The failure mode of the strengthened RC columns with large‐eccentricity was distinguished by the yielding of tensile and compressive longitudinal steel bars, the rupturing of longitudinal CFRP sheet, and the crushing of compressive concrete. With the increase of predamaged degree or eccentricity, the maximum bearing capacity of specimens decreased. In contrast, CFRP strips spacing had little effect on bearing capacity. Considering the effect of predamaged degree and eccentricity, a modified model for conveniently predicting the stress–strain relationship of CFRP strengthened predamaged RC columns under eccentric compression was proposed. On the basis of experimental study, the influence coefficients of predamaged degree and eccentricity and a strain distribution coefficient of CFRP strips were introduced, a calculation formula for predicting bearing capacity of high predamaged rectangular RC columns strengthened with CFRP under eccentric compression was proposed and validated test data with good agreement.
ISSN:1464-4177
1751-7648
DOI:10.1002/suco.202100195