Risk Evaluation of Steel Structure Corrosion in Soft Foundation in the East Coast of Zhejiang

Juan Di Wang; Wei Zhong Gan

doi:10.4028/www.scientific.net/AMM.256-259.1912

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 256-259Risk Evaluation of Steel Structure Corrosion in...

Risk Evaluation of Steel Structure Corrosion in Soft Foundation in the East Coast of Zhejiang

Abstract:

The detection index and evaluation for foundation engineering’s corrosion are performed in accordance with the “Code for Highway Engineering Geological Investigation” or “Code for Investigation of Geotechnical Engineering”. For both steel pipe piles and concrete pipe pile joints, the codes don’t consider the dissolved oxygen, Anaerobic organism and other corrosion factors. In order to improve the durability of the pipe pile foundation in coastal region, taking the typical coastal soft soil characteristics in eastern Zhejiang as example and by observing the steel corrosion electrochemical potential variation in the hypoxic environment, this paper analyses the corrosion risk of steel structures in marine deposit soft soil, and puts forward the microbial and electrochemical corrosion mechanism of the steel structures in foundation engineering in coastal environment. This paper argues that the Sulfate-Reducing Bacteria corrosion evaluation is indispensable in geotechnical investigation, and therefore should be included into the Code.

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Periodical:

Applied Mechanics and Materials (Volumes 256-259)

Pages:

1912-1918

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.256-259.1912

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Online since:

December 2012

Authors:

Juan Di Wang, Wei Zhong Gan

Keywords:

Coastal Soft Soil, Steel Corrosion, Sulfate-Reducing Bacteria (SRB)

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References

[1] H. Xiong, T. Lin, N, Li, Chemistry in Geotechnical_Engineering. [M] Beijing Science Press, (2011).

Google Scholar

[2] X. Lv, Y. Yang, X. Chen, et al. Study of the Corrosive Environment in the Huibie Sea in Southern Hangzhou Bay[J], Haiyang Tongbao, 2010, 29 (5): 504-508.

Google Scholar

[3] Z. Lv, Study of the critical technology in the Hangzhou Bay Bridge. Beijing: China Communications Press, 2008. 1.

Google Scholar

[4] R. Zhu, J. Na, S. Guo, et al. The corrosion mechanism of the Sulfate-Reducing Bacteria[J]. Journal of Air Force Engineering University, 2000, 1(3): 10-12.

Google Scholar

[5] X. Li, H. Chen, S. Gu, Corrosivity study of the marine sediments in Eastern Part of the Pearl River estuary, South China Sea[J], Journal of Tropical Oceanography, 1997, 16 (3): 90-98.

Google Scholar

[6] Whonchee Leea, Zbigniew Lewandowskia, Sathoshi Okabea, et al. Corrosion of mild steel underneath aerobic biofilms containing sulfate‐reducing bacteria part I: At low dissolved oxygen concentration, Biofouling: The Journal of Bioadhesion and Biofilm Research. 1993, 7 (3): 197-216.

DOI: 10.1080/08927019309386254

Google Scholar