Experimental investigation of the performance of concrete columns strengthened with fiber reinforced concrete jacket

•Experimental study on concrete columns strengthened with fiber reinforced concrete jacket.•Using high-strength polyethylene fiber for column jacketing.•Interaction of fiber and steel reinforcement in the retrofitting jacket.•Effect of fiber ratio and steel reinforcement ratio on the behavior of ret...

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Bibliographic Details
Published in:Construction & building materials 2019-01, Vol.194, p.51-61
Main Authors: Gholampour, Aliakbar, Hassanli, Reza, Mills, Julie E., Vincent, Thomas, Kunieda, Minoru
Format: Article
Language:English
Subjects:
Analysis
Axial compression
Compressive strength
Concretes
Dilation behavior
Fiber-reinforced concrete (FRC) jacket
High-strength polyethylene fiber
Mechanical properties
Polyethylene
Retrofit
Securities analysis
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Summary:•Experimental study on concrete columns strengthened with fiber reinforced concrete jacket.•Using high-strength polyethylene fiber for column jacketing.•Interaction of fiber and steel reinforcement in the retrofitting jacket.•Effect of fiber ratio and steel reinforcement ratio on the behavior of retrofitted columns.•Axial force enhancement ratio and axial strain enhancement ratio of the retrofitted columns. This paper presents an experimental study on the axial compressive behavior of concrete columns retrofitted and confined by fiber-reinforced concrete (FRC) jackets. Three different engineered cementitious composite (ECC) mixes containing high-strength polyethylene fibers at three fiber volume fractions of 0%, 1%, and 2%, and one ultra-high performance cementitious composite (UHP) mix at fiber volume fraction of 4%, were prepared to produce FRC jackets around the core concrete. Horizontal stirrups were used in the FRC jackets with three different horizontal reinforcement ratios to investigate the effect of the level of confinement and the interaction between the conventional reinforcement and fibers. The results show that specimens having no fiber or stirrup in their retrofitting jacket exhibit a brittle behavior and only those containing both stirrup and fiber provide a ductile behavior. It was also observed that the lateral strain of the jacket layer at a given axial strain increased with an increase in the fiber content, indicating an increased rate of dilation for the jacket concrete at a higher fiber volume fraction. It was also found that the best solution to enhance both ductility and strength of columns using FRC jacket is to include a minimum of both fiber content and reinforcement in the jacketing layer. The observations of this study reveal the great potential of the use of FRC jackets in retrofitting of structural members, especially columns in seismic regions.
ISSN:0950-0618
1879-0526
DOI:10.1016/j.conbuildmat.2018.10.236