Time-dependent chloride penetration in concrete in marine environments

•A field investigation is conducted in the Beibu Gulf, Guangxi province, China.•Distribution of age factor is theoretical studied and experimental verified.•There commonly used corrosion models are comparatively analyzed. In order to study the effects of exposure conditions (atmospheric, tidal and s...

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Bibliographic Details
Published in:Construction & building materials 2017-10, Vol.152, p.406-413
Main Authors: Wu, Lingjie, Li, Wei, Yu, Xiaoniu
Format: Article
Language:English
Subjects:
Age factor
Analysis
Chemical properties
Chloride
Chlorides
Concrete
Concretes
Corrosion (Chemistry)
Corrosion initiation time
Exposure condition
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Summary:•A field investigation is conducted in the Beibu Gulf, Guangxi province, China.•Distribution of age factor is theoretical studied and experimental verified.•There commonly used corrosion models are comparatively analyzed. In order to study the effects of exposure conditions (atmospheric, tidal and splash zones) on chloride ingress into concrete and time-dependent chloride diffusivity of concrete, the chloride concentration of existing concrete in the Beibu Gulf was tested by field investigation. In addition, a reasonable calculation model was chosen by comparative analysis to achieve an accurate corrosion initiation time of the tested concrete. The results indicate that splash zone affects the durability of concrete structures more harshly than tidal and atmospheric zones. The age factor, which represents the time-dependent properties of chloride diffusion coefficient, is a normally distributed random parameter. In atmospheric, tidal and splash zones, the mean value of the age factor equated to 0.19, 0.35 and 0.43, respectively. Compared with the Life 365 model and the LNEC E465 model, the DuraCrete 2000 model can better characterize the chloride transport in the tested concrete. Based on this model, given the target reliability index βd=1.3–1.5, the corresponding corrosion initiation time is 42–47.5a.
ISSN:0950-0618
1879-0526
DOI:10.1016/j.conbuildmat.2017.07.016