Evaluation of critical crack width for reinforcement corrosion in RC member based on numerical simulation of transport of chloride ions in concrete

Nguyen Thi Hien; Takumi Shimomura

doi:10.18702/acf.2017.12.2.67

Vol. 3 No. 2 (2017), Articles

Vol. 3 No. 2 (2017)

Evaluation of critical crack width for reinforcement corrosion in RC member based on numerical simulation of transport of chloride ions in concrete

Articles

https://doi.org/10.18702/acf.2017.12.2.67

Published 2018-01-05

Nguyen Thi Hien⁺⁻
Takumi Shimomura⁺⁻

Nguyen Thi Hien

Niigata, Japan

Takumi Shimomura

Niigata, Japan

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Keywords

Crack width limitation
Chloride ingress
Bleeding, interfacial void
Flexural crack

How to Cite

Hien, N. T., & Shimomura, T. (2018). Evaluation of critical crack width for reinforcement corrosion in RC member based on numerical simulation of transport of chloride ions in concrete. Journal of Asian Concrete Federation, 3(2), 67–81. https://doi.org/10.18702/acf.2017.12.2.67

Abstract

Chloride-induced reinforcement corrosion in reinforced concrete structures exposed to marine environment is one of the most important factors affecting the durability of structures. To minimize the effect of cracks on the deterioration of RC structures, current design codes often limit the crack width. However, recent investigations indicated that condition of steel-concrete interface is a more essential criterion related to reinforcement corrosion. The purpose of this study is to clarify the effect of various conditions including cover thickness, water-cement ratio, environment action and interfacial void on limitation of crack width. The validity of crack width limitation in design codes is discussed based on analytical results.

https://doi.org/10.18702/acf.2017.12.2.67

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Evaluation of critical crack width for reinforcement corrosion in RC member based on numerical simulation of transport of chloride ions in concrete

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