Corroded Product Surface Layer of Concrete Corroded by Sulfuric Acid and Its Effect on Corrosion Rate

被引：0

作者：

Song Z. ^{[1
]}

Li X. ^{[1
]}

Xie S. ^{[1
]}

Qi Y. ^{[1
]}

机构：

[1] Institute of Architecture Engineering, Kunming University of Science & Technology, Kunming

来源：

Jianzhu Cailiao Xuebao/Journal of Building Materials | 2019年 / 22卷 / 03期

关键词：

Concrete; Corrosion; Gypsum; Sulfuric acid; Surface layer;

D O I：

10.3969/j.issn.1007-9629.2019.03.004

中图分类号：

学科分类号：

摘要：

A product layer will form on the surface of the concrete after it is corroded by sulfuric acid and which will consequently decrease the corrosion rate. To investigate the chemical components and decelerating effect of the corroded concrete surface layer, a series of immersion tests under different control conditions and in different pH value of immersion acid were carried out. The acid consumption curve during the immersion tests was obtained and the morphology, elemental composition and mineral components of corroded concrete surface layer were analyzed by SEM, EDS and XRD tests. The results show that the lost of CaSO4 and the cleanout of the corroded concrete surface layer during the immersion process would significantly impact the chemical components and decelerate effect of the corroded concrete surface layers. In the condition of replacement of immersion sulfuric acid, the chemical products are SiO2 and other residue materials of cement stone after eroding. In those non-replacement cases, the chemical products contain gypsum. Both types of corroded concrete surface layers can decrease the corrosion rate and the corroded concrete surface layer containing gypsum can decrease greatly. The corroded concrete surface layer with gypsum are the main factor that destroys the similarity between different experiments. © 2019, Editorial Department of Journal of Building Materials. All right reserved.

引用

页码：348 / 355and370

共 18 条

[11] Wang K., Ma B., Long S., Microanalysis of the change of phase compositions of hardened cement paste in response to acid rain attack, Journal of the Chinese Ceramic Society, 37, 5, pp. 880-884, (2009)
[12] Anais G., Patrick D., Marielle G.M., Et al., Degradation modeling of concrete submitted to sulfuric acid attack, Cement and Concrete Research, 105, pp. 126-133, (2018)
[13] Hu X., Hou X., Long T., Et al., Analysis for composition change on acid rain attacking hydrated cement paste, Journal of Railway Science and Engineering, 4, 4, pp. 47-51, (2007)
[14] Adolf B., Investigation of acid rain on the deterioration of cement concrete, Atmospheric Environment, 18, 17, pp. 4407-4412, (2000)
[15] Xiao J., Zhou S., Effect of low-calcium fly ash on cement mortar strength in acid rain condition, Journal of Building Materials, 8, 4, pp. 440-445, (2005)
[16] Feng J., Yan P., Properties and microstructure of oil-well cement stone attacked by vitriol, Journal of the Chinese Ceramic Society, 40, 5, pp. 671-676, (2012)
[17] Qi Y., Song Z., Zhan Y., Experimental study on the product layer effect in the process of cement mortar corroded by the dilute sulfuric acid, Bulletin of the Chinese Ceramic Society, 36, 12, pp. 4296-4301, (2017)
[18] Attiogbe E.K., Rizkallal S.H., Response of concrete to sulfuric acid attack, ACI Materials Journal, 85, 6, pp. 481-488, (1988)

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