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Deterioration mechanism of sulfate attack on concrete under freeze-thaw cycles

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Abstract

The experiments of concrete attacked by sulfate solution under freeze-thaw cycles were investigated. The sulfate solution includes two types of 5% Na2SO4 and 5% MgSO4. Through the experiment, microstructural analyses such as SEM, XRD and TGA measurements were performed on the selected samples after freeze-thaw cycles. The corrosion products of the concrete were distinguished and quantitatively compared by the thermal analysis. Besides, the damage mechanism considering the dynamic modulus of elastically of concrete under the coupling effect was also investigated. The experimental results show that, under the action of freeze-thaw cycles and sulfate attack, the main attack products in concrete are ettringite and gypsum. The corrosion products exposed to MgSO4 solution are more than those to Na2SO4 solution. Furthermore, the content of gypsum in concrete is less than that of ettringite in test, and some of gypsum can be observed only after a certain corrosion extent. It is also shown that MgSO4 solution has a promoting effect to the damage of concrete under freeze-thaw cycles. Whereas for Na2SO4 solution, the damage of concrete has restrained before 300 freeze-thaw cycles, but the sulfate attack accelerates the deterioration process in its further test period.

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Authors and Affiliations

  1. School of Civil Engineering, Xi’an University of Architecture and Technology, Xi’an, 710055, China

    Ditao Niu  (牛荻涛), Lei Jiang & Qiannan Fei

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  1. Ditao Niu  (牛荻涛)
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  2. Lei Jiang
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  3. Qiannan Fei
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Correspondence to Ditao Niu  (牛荻涛).

Additional information

Funded by the Durability and Life Forecast of Shotcrete Tunnel Structure Fund (No. 51278403) and the Program for Changjiang Scholars and Innovative Research Team in University

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Niu, D., Jiang, L. & Fei, Q. Deterioration mechanism of sulfate attack on concrete under freeze-thaw cycles. J. Wuhan Univ. Technol.-Mat. Sci. Edit. 28, 1172–1176 (2013). https://doi.org/10.1007/s11595-013-0839-6

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  • DOI: https://doi.org/10.1007/s11595-013-0839-6

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