Reliability life analysis of reinforced concrete in a salt corrosion environment based on a three-parameter Weibull distribution | |
Lu, Cheng-Gong1; Wei, Zhi-Qiang2; Qiao, Hong-Xia1,3; Li, Kan1 | |
刊名 | Gongcheng Kexue Xuebao/Chinese Journal of Engineering |
2021-04-25 | |
卷号 | 43期号:4页码:512-520 |
关键词 | Concrete construction Concrete testing Electric impedance Environmental regulations Failure analysis Magnesium compounds Maximum likelihood estimation Parameter estimation Polarization Reliability analysis Sodium chloride Steel corrosion Sulfur compounds Weibull distribution AC impedance spectrums Correlation coefficient optimization methods Corrosion current densities Corrosion environments Electrochemical parameters Maximum likelihood methods Moment estimation method Three parameter Weibull distribution |
ISSN号 | 2095-9389 |
DOI | 10.13374/j.issn2095-9389.2020.03.04.001 |
英文摘要 | To study the corrosion law and life distribution of reinforced concrete in a coupled salt environment, the reinforced concrete specimens were placed in 0.32 mol·L−1 NaCl and 0.4 mol·L−1 MgSO4 salt solutions. The performance of reinforced concrete was tested regularly using an electrochemical workstation. The durability was analyzed through a polarization curve, an AC impedance spectrum, and electrochemical parameters. A three-parameter Weibull distribution was selected for reliability modeling, and a prior false test was performed by the Anderson-Darling (A-D) method. The parameters were estimated by the correlation coefficient optimization method (CCOM), maximum likelihood method (MLM), and moment estimation method (MEM). The reliability curve, density curve, and failure rate curve were each used to analyze the life of reinforced concrete in chloride, sulfate, and magnesium-based corrosion environments. Results show that under the combined action of corrosion ions, the polarization curve gradually moves toward increasing corrosion current density and negative potential, and the AC impedance spectrum moves to the left and shrinks to the real part of the impedance. The resistance of steel bar corrosion gradually decreases whereas the probability gradually increases. The reliability curve is unchanged at the initial stage and rapidly decreases at the later stage. The density curve is symmetric with a single peak, and the failure rate curve remains unchanged at the initial stage and increases linearly at the later stage. Among the three-parameter estimation methods, CCOM and MLM parameter estimation values are similar, stable, and accurate, and the obtained reliability curves are similar. It is suggested that CCOM and MLM should be used for parameter estimation and reliability analysis of small sample failure data that is obtained from an accelerated test of reinforced concrete. The reliability life of C35 reinforced concrete in magnesium sulfate and sodium chloride corrosion environments is about 760 d. Copyright ©2021 Chinese Journal of Engineering. All rights reserved. |
语种 | 中文 |
出版者 | Science Press |
内容类型 | 期刊论文 |
源URL | [http://ir.lut.edu.cn/handle/2XXMBERH/148448] |
专题 | 土木工程学院 |
作者单位 | 1.School of Civil Engineering, Lanzhou University of Technology, Lanzhou; 730050, China; 2.School of Science, Lanzhou University of Technology, Lanzhou; 730050, China; 3.Western Center of Disaster Mitigation in Civil Engineering of Ministry of Education, Lanzhou University of Technology, Lanzhou; 730050, China |
推荐引用方式 GB/T 7714 | Lu, Cheng-Gong,Wei, Zhi-Qiang,Qiao, Hong-Xia,et al. Reliability life analysis of reinforced concrete in a salt corrosion environment based on a three-parameter Weibull distribution[J]. Gongcheng Kexue Xuebao/Chinese Journal of Engineering,2021,43(4):512-520. |
APA | Lu, Cheng-Gong,Wei, Zhi-Qiang,Qiao, Hong-Xia,&Li, Kan.(2021).Reliability life analysis of reinforced concrete in a salt corrosion environment based on a three-parameter Weibull distribution.Gongcheng Kexue Xuebao/Chinese Journal of Engineering,43(4),512-520. |
MLA | Lu, Cheng-Gong,et al."Reliability life analysis of reinforced concrete in a salt corrosion environment based on a three-parameter Weibull distribution".Gongcheng Kexue Xuebao/Chinese Journal of Engineering 43.4(2021):512-520. |
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