Experimental study of cement-based materials under sulfate attack environment using Electrochemical Impedance Spectroscopy

In this paper, electrochemical impedance spectroscopy tests and compressive strength tests were employed to investigate the sulfate attack process of cement-based materials, and the change law of the electrochemical impedance spectrum with erosion time was analyzed. Based on the typical equivalent c...

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Published inInternational journal of electrochemical science Vol. 18; no. 5; p. 100133
Main Authors Niu, Shiwei, Luo, Jin, Chen, MengTing, Chen, Zhiwei, Wang, Xingyi, Bai, Xiangling, Li, Jindu
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.05.2023
Subjects
Cement-based material
Compressive strength
Electrochemical impedance spectroscopy
Microstructure
Sulfate attack
Cement-based material
Compressive strength
Sulfate attack
Microstructure
Electrochemical impedance spectroscopy
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Abstract In this paper, electrochemical impedance spectroscopy tests and compressive strength tests were employed to investigate the sulfate attack process of cement-based materials, and the change law of the electrochemical impedance spectrum with erosion time was analyzed. Based on the typical equivalent circuit model of cement-based materials and its microstructure equivalent circuit model, the change law of electrochemical parameters and its relationship with compressive strength were analyzed. The experimental results indicate that with increasing erosion time, the electrochemical impedance spectrum shows significant quasi-Randles characteristics, its position moves to the right, and the diameter of the high-frequency semicircle increases. The values of RCP, reflecting disconnected pores, and RCCP, reflecting connected pores, increase continuously during the attack process. The compressive strength of cement-based materials reaches a maximum at a sulfate concentration of 55 g/L. The electrochemical parameter RCCP well reflects the compressive strength of cement-based materials and further characterizes the deterioration of its macro properties.
AbstractList In this paper, electrochemical impedance spectroscopy tests and compressive strength tests were employed to investigate the sulfate attack process of cement-based materials, and the change law of the electrochemical impedance spectrum with erosion time was analyzed. Based on the typical equivalent circuit model of cement-based materials and its microstructure equivalent circuit model, the change law of electrochemical parameters and its relationship with compressive strength were analyzed. The experimental results indicate that with increasing erosion time, the electrochemical impedance spectrum shows significant quasi-Randles characteristics, its position moves to the right, and the diameter of the high-frequency semicircle increases. The values of RCP, reflecting disconnected pores, and RCCP, reflecting connected pores, increase continuously during the attack process. The compressive strength of cement-based materials reaches a maximum at a sulfate concentration of 55 g/L. The electrochemical parameter RCCP well reflects the compressive strength of cement-based materials and further characterizes the deterioration of its macro properties.
ArticleNumber 100133
Author Chen, Zhiwei
Li, Jindu
Chen, MengTing
Niu, Shiwei
Luo, Jin
Wang, Xingyi
Bai, Xiangling
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crossref_primary_10_1016_j_jobe_2024_110287
crossref_primary_10_1016_j_matpr_2024_02_038
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Issue 5
Keywords Cement-based material
Compressive strength
Sulfate attack
Microstructure
Electrochemical impedance spectroscopy
Language English
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Snippet In this paper, electrochemical impedance spectroscopy tests and compressive strength tests were employed to investigate the sulfate attack process of...
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elsevier
SourceType Enrichment Source
Index Database
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StartPage 100133
SubjectTerms Cement-based material
Compressive strength
Electrochemical impedance spectroscopy
Microstructure
Sulfate attack
Title Experimental study of cement-based materials under sulfate attack environment using Electrochemical Impedance Spectroscopy
URI https://dx.doi.org/10.1016/j.ijoes.2023.100133
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