Experimental study of the mechanical properties of reinforced concrete compression members under the combined action of sustained load and corrosion

•Sustained load makes corrosion degree lower for member with ordinary stirrups.•Sustained load makes corrosion degree higher for member with epoxy-coated stirrups.•Sustained load has different influence on stiffness according to the type of stirrup. Steel corrosion is an important factor in the dura...

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Published inConstruction & building materials Vol. 202; pp. 11 - 22
Main Authors Wu, Xun, Chen, Lei, Li, Hui, Xu, Jun
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 30.03.2019
Reed Business Information, Inc. (US)
Subjects
Accelerated corrosion test
Analysis
Chemical properties
Compression member
Corrosion (Chemistry)
Epoxy resins
Mechanical properties
Reinforced concrete
Steel corrosion
Study and teaching
Sustained load
China
Mechanical properties
Compression member
Sustained load
Accelerated corrosion test
Online AccessGet full text
ISSN0950-0618
1879-0526
DOI10.1016/j.conbuildmat.2018.12.156

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Abstract •Sustained load makes corrosion degree lower for member with ordinary stirrups.•Sustained load makes corrosion degree higher for member with epoxy-coated stirrups.•Sustained load has different influence on stiffness according to the type of stirrup. Steel corrosion is an important factor in the durability of reinforced concrete members. There are numerous studies of reinforced concrete compression members in corrosive environments, but most studies involve corrosion under no load. To investigate the comprehensive effects of sustained load and corrosion on the mechanical properties of reinforced concrete members, this study simultaneously subjects 20 axial compression members to both sustained load and corrosion. The stirrups of 10 members are ordinary steel bars (A-type members), and the stirrups of the other 10 members are epoxy-coated steel bars (B-type members). The results show that the ultimate bearing capacity of corroded members can be significantly improved by using epoxy-coated stirrups, especially when the corrosion degree is high. A sustained load can reduce the actual corrosion degree of A-type members and increase the actual corrosion degree of B-type members. Under the same corrosion degree, the ultimate bearing capacity of the columns with stirrups made of ordinary steel bars increases as the sustained load increases, whereas for the columns with stirrups made of epoxy-coated steel bars, the ultimate bearing capacity decreases slightly as the sustained load increases.
AbstractList •Sustained load makes corrosion degree lower for member with ordinary stirrups.•Sustained load makes corrosion degree higher for member with epoxy-coated stirrups.•Sustained load has different influence on stiffness according to the type of stirrup. Steel corrosion is an important factor in the durability of reinforced concrete members. There are numerous studies of reinforced concrete compression members in corrosive environments, but most studies involve corrosion under no load. To investigate the comprehensive effects of sustained load and corrosion on the mechanical properties of reinforced concrete members, this study simultaneously subjects 20 axial compression members to both sustained load and corrosion. The stirrups of 10 members are ordinary steel bars (A-type members), and the stirrups of the other 10 members are epoxy-coated steel bars (B-type members). The results show that the ultimate bearing capacity of corroded members can be significantly improved by using epoxy-coated stirrups, especially when the corrosion degree is high. A sustained load can reduce the actual corrosion degree of A-type members and increase the actual corrosion degree of B-type members. Under the same corrosion degree, the ultimate bearing capacity of the columns with stirrups made of ordinary steel bars increases as the sustained load increases, whereas for the columns with stirrups made of epoxy-coated steel bars, the ultimate bearing capacity decreases slightly as the sustained load increases.
Audience Trade
Author Li, Hui
Xu, Jun
Wu, Xun
Chen, Lei
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  surname: Xu
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  email: jxuun@tongji.edu.cn
  organization: Department of Bridge Engineering, Tongji University, Shanghai 200092, China
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Keywords Mechanical properties
Compression member
Sustained load
Accelerated corrosion test
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Snippet •Sustained load makes corrosion degree lower for member with ordinary stirrups.•Sustained load makes corrosion degree higher for member with epoxy-coated...
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SubjectTerms Accelerated corrosion test
Analysis
Chemical properties
Compression member
Corrosion (Chemistry)
Epoxy resins
Mechanical properties
Reinforced concrete
Steel corrosion
Study and teaching
Sustained load
Title Experimental study of the mechanical properties of reinforced concrete compression members under the combined action of sustained load and corrosion
URI https://dx.doi.org/10.1016/j.conbuildmat.2018.12.156
Volume 202
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