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Effect of Pore Water Saturation on Stray Current Corrosion of Reinforced Concrete in Urban Rail Transit Systems: An Experimental and Numerical Study

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  • Fangfang Xing

    (School of Mechatronic Engineering, Xuzhou College of Industrial Technology, Xuzhou 221140, China
    School of Mechanical and Electrical Engineering, China University of Mining and Technology, Xuzhou 221116, China)

  • Chengtao Wang

    (School of Electrical and Control Engineering, Xuzhou University of Technology, Xuzhou 221018, China
    Jiangsu Provincial Robot Vision Sensing and Cooperative Control Engineering Research Center, Xuzhou 221018, China)

  • Shaoyi Xu

    (School of Mechanical and Electrical Engineering, China University of Mining and Technology, Xuzhou 221116, China)

  • Yingying Zong

    (School of Mechanical and Electrical Engineering, China University of Mining and Technology, Xuzhou 221116, China)

  • Yuqiao Wang

    (School of Mechanical and Electrical Engineering, China University of Mining and Technology, Xuzhou 221116, China)

  • Jianhua Zhang

    (School of Electrical and Control Engineering, Xuzhou University of Technology, Xuzhou 221018, China
    Jiangsu Provincial Robot Vision Sensing and Cooperative Control Engineering Research Center, Xuzhou 221018, China)

  • Chenglin Zhao

    (Northeast Branch of China Resources Power Holdings Co., Ltd., Shenyang 110046, China)

Abstract

Stray currents pose a significant threat to the structural health and resilience of subway shield tunnels through the destructive effects of electrochemical corrosion, which is broadly recognized as one of the main obstacles to ensuring the sustainability of urban rail transit systems. Environmental humidity can lead to variations in the pore water saturation of concrete structures. In the coupled environment of stray currents and pore water saturation, this condition exacerbates the corrosion of reinforced concrete, shortening its service life and jeopardizing the normal operation of subway systems. Given this, a combined study is carried out to explore the effect of pore water saturation on stray current corrosion of reinforced concrete through FEM-based simulation and experiment tests. The effect of pore water saturation on stray current corrosion is studied by varying applied potential and porosity. The study validates the influence of concrete porosity and voltage on the control ranges of pore water saturation corresponding to the various stages of stray current corrosion in reinforced concrete. Based on the simulation and experimental results, it is concluded that, under the same voltage conditions, an increase in the porosity of the reinforced concrete correlates with a greater severity of corrosion as pore water saturation increases. As the applied voltage increased from 2 V to 10 V, the pore water saturation range for iron oxidation shrank from 0–0.6 to 0–0.4, while the hydrogen evolution range expanded from 0.7–1 to 0.5–1. Pore water saturation influences the control mechanisms of electrochemical corrosion at various stages in reinforced concrete. Moreover, under each control mechanism, the control ranges of pore water saturation corresponding to the corrosion stages demonstrate sequential trends of contraction, movement towards lower saturation regions, and expansion as the applied voltage increases. The findings of the study contribute to the understanding of the intrinsic mechanisms underlying the service life extension of buried foundation structures.

Suggested Citation

  • Fangfang Xing & Chengtao Wang & Shaoyi Xu & Yingying Zong & Yuqiao Wang & Jianhua Zhang & Chenglin Zhao, 2026. "Effect of Pore Water Saturation on Stray Current Corrosion of Reinforced Concrete in Urban Rail Transit Systems: An Experimental and Numerical Study," Sustainability, MDPI, vol. 18(5), pages 1-25, March.
  • Handle: RePEc:gam:jsusta:v:18:y:2026:i:5:p:2643-:d:1882464
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