Study on Chloride Ion Diffusion Model in Crack Zones of Saturated Concrete Structure

Authors

PENG Jianxin, School of Civil and Environmental Engineering , Changsha Univer sity of Science & Technology , Changsha , Hunan 410114 ,ChinaFollow
ZHOU Pengcheng, School of Civil and Environmental Engineering , Changsha Univer sity of Science & Technology , Changsha , Hunan 410114 ,China
CHENG Xiaokang, School of Civil and Environmental Engineering , Changsha Univer sity of Science & Technology , Changsha , Hunan 410114 ,China
ZHOU Yadong, State Key Laboratory of Bridge Intelligent and Green Construction , China Railway Major Bridge Engineering Group Co ., Ltd., Wuhan , Hubei 430034 , China

Abstract

In order to accurately characterize the b ehavior of cracks in accelerating chloride ion transport on both sides of the concrete,the concept of effective influence distance of cracks was proposed,and the crack pores were non-uniformly distributed according to the distance perpendicular to the crack surface in the modified equivalent medium model.The expression of chloride ion diffusion coefficient in crack zones of concrete was established based on the principle of flux conservation.Based on the existing experimental data,the applicability of the modified equivalent chloride ion diffusion model established in this paper was verified.Finally,the characteristics of non-uniform acceleration of chloride ion transport on both sides of concrete by cracks were discussed,and the influence of crack spacing and number on chloride ion transport was explored.It finds that the results obtained by the modified equivalent chloride ion diffusion model are in good agreement with the experimental data.The parametric studies show that with the increase in the distance perpendicular to the crack surface,the chloride ion content continues to decrease,and the chloride ion content on both sides is only 19% of that at the crack center point at the same depth of effective influence distance of cracks.The number of cracks has a certain influence on chloride ion diffusion,and the maximum increase in chloride ion content in multi-crack areas is 2% and 17% compared with that of single cracks.In addition,with the increase in the number of cracks,the diffusion capacity of chloride ions first increases rapidly and then flattens.The crack spacing has a significant effect on the multi-crack area of concrete,and with the increase in crack spacing,the overall chloride ion content in the multi-crack area decreases rapidly,and the decrease is the most obvious in the central area.

Publication Date

4-10-2025

DOI

10.14048/j.issn.1671-2579.2025.02.013

First Page

118

Last Page

125

Submission Date

April 2025

Recommended Citation

Jianxin, PENG; Pengcheng, ZHOU; Xiaokang, CHENG; and Yadong, ZHOU (2025) "Study on Chloride Ion Diffusion Model in Crack Zones of Saturated Concrete Structure," Journal of China & Foreign Highway: Vol. 45: Iss. 2, Article 13.
DOI: 10.14048/j.issn.1671-2579.2025.02.013
Available at: https://zwgl1980.csust.edu.cn/journal/vol45/iss2/13

Reference

[1]邹向农,龙俊贤,陈宇翔,等.腐蚀预应力混凝土桥梁抗力退化预测方法 [J].中外公路,2019,39(3):84-89.ZOU Xiangnong,LONG Junxian,CHEN Yuxiang,et al.Prediction method of resistance degradation for corroded prestressed concrete bridges [J].Journal of China & Foreign Highway,2019,39(3):84-89.
[2]付宏渊,陈长睿,陈昌富,等.Cl‒环境下锚杆腐蚀过程及锚固边坡稳定性分析 [J].中外公路,2021,41(6):1-5.FU Hongyuan,CHEN Changrui,CHEN Changfu,et al.Analysis of anchor rod corrosion process and anchored slope stability in Cl‒ environment [J].Journal of China & Foreign Highway,2021,41(6):1-5.
[3]曾天宝，陈宏，黄筱淇，等.钢绞线非均匀锈蚀下混凝土胀裂细观数值模拟 [J].中外公路，2024,44（2）：174-181.ZENG Tianbao，CHEN Hong，HUANG Xiaoqi,et al.Mesoscopic numerical simulation of concrete cracking caused by nonuniform corrosion of strands [J].Journal of China & Foreign Highway,2024，44(2):174-181.
[4]蔺鹏臻，王雲一.混凝土桥梁受盐碱地中氯离子侵蚀的耐久性研究 [J].桥梁建设，2022，52（6）：73-78.LIN Pengzhen,WANG Yunyi.Durability of concrete bridge exposed to chloride ion erosion in saline alkali soil[J].Bridge Construction,2022,52(6):73-78.
[5]杜修力,金浏,张仁波.力学荷载对混凝土中氯离子渗透扩 散 行 为 影 响 述 评 [J].建 筑 结 构 学 报,2016,37(1):107-125.DU Xiuli,JIN Liu,ZHANG Renbo.Review on effect of external mechanical loadings on chloride penetration and diffusion into concrete [J].Journal of Building Structures,2016,37(1):107-125.
[6]高子瑞,李淑娥,金明东,等.裂缝混凝土中修正的氯离子运移模型研究 [J].中外公路,2016,36(5):230-234.GAO Zirui,LI Shue,JIN Mingdong,et al.Study on modified chloride ion transport model in fractured concrete [J].Journal of China & Foreign Highway,2016,36(5):230-234.
[7]张红光,王曙光,刘伟庆,等.开裂混凝土内氯离子扩散机理及数值模拟研究 [J].混凝土,2014 (9):19-25.ZHANG Hongguang,WANG Shuguang,LIU Weiqing,et al.Study on the mechanism and numerical modeling of chloride ingress in cracked concrete [J].Concrete,2014 (9):19-25.
[8]李强,陈志林,刘龙龙,等.炎热海洋环境下混凝土桥梁抗氯离子侵蚀耐久性研究 [J].公路交通科技,2023,40(5):72-77.LI Qiang，CHEN Zhilin,LIU Longlong.Study on durability of concrete bridge against chloride ion erosion in hot marine environment [J].Journal of Highway and Transportation Research and Development,2023,40(5):72-77.
[9]张爱丽，郭颜凤，孙红.腐蚀环境下外加剂对混凝土耐久性的影响 [J].中外公路，2022,42（6）：202-205.ZHANG Aili，GUO Yanfeng，SUN Hong.Influence of admixtures on durability of conc rete in corrosive environment [J].Journal of China & Foreign Highway,2022，42(6):202-205.
[10]延永东,姚昌建,刘荣桂,等.氯盐环境下开裂混凝土耐久性研究进展 [J].建筑科学与工程学报,2015,32(4):21-30.YAN Yongdong,YAO Changjian,LIU Ronggui,et al.Research progress on durability of cracked concrete under chloride environment [J].Journal of Architecture and Civil Engineering,2015,32(4):21-30.
[11]穆松,刘建忠.基于混凝土裂缝特征的氯离子传输性质研究进展 [J].硅酸盐学报,2015,43(6):829-838.MU Song,LIU Jianzhong.Review of chloride transport properties in concrete featured with different cracking characteristics [J].Journal of the Chinese Ceramic Society,2015,43(6):829-838.
[12]崔海军.聚丙烯纤维对海砂混凝土的耐久性试验研究[J].中外公路，2022,42（4）：203-205.CUI Haijun.Experimental study on durability of polypropylene fiber to sea sand concrete [J].Journal of China & Foreign Highway,2022，42(4):203-205.
[13]张菊辉,方成.氯盐侵蚀下钢筋混凝土结构寿命的预测研究进展 [J].材料科学与工程学报,2019,37(5):848-854,859.ZHANG Juhui,FANG Cheng.Research progress on service life prediction of reinforced concrete structures under chloride attack [J].Journal of Materials Science and Engineering,2019,37(5):848-854,859.
[14]陆春华,刘荣桂,崔钊玮,等.干湿交替作用下受弯开裂钢筋混凝土梁内氯离子侵蚀特性 [J].土木工程学报,2014,47(12):82-90.LU Chunhua,LIU Ronggui,CUI Zhaowei,et al.Study on chloride penetration into flexural cracked reinforced concrete beams subjected to drying-wetting cycles [J].China Civil Engineering Journal,2014,47(12):82-90.
[15]WANG H L,DAI J G,SUN X Y,et al.Characteristics of concrete cracks and their influence on chloride penetration[J].Construction and Building Materials,2016,107:216-225.
[16]陆文攀,赵铁军,马志鸣,等.荷载损伤对混凝土微裂缝和氯离子侵蚀的影响研究 [J].混凝土,2015 (6):54-57.LU Wenpan,ZHAO Tiejun,MA Zhiming,et al.Influence of higher stress on chloride ion corrosion in concrete [J].Concrete,2015 (6):54-57.
[17]KONIN A,FRANÇOIS R,ARLIGUIE G.Penetration of chlorides in relation to the microcracking state into reinforced ordinary and high strength concrete [J].Materials and Structures,1998,31(5):310-316.
[18]PENG J X,HU S W,ZHANG J R,et al.Influence of cracks on chloride diffusivity in concrete:A five-phase mesoscale model approach [J].Construction and Building Materials,2019,197:587-596.
[19]TAKEWAKA K,YAMAGUCHI T,MAEDA S.Simulation model for deterioration of concrete structures due to chloride attack [J].Journal of Advanced Concrete Technology,2003,1(2):139-146.
[20]KWON S J,NA U J,PARK S S,et al.Service life prediction of concrete wharves with early-aged crack:Probabilistic approach for chloride diffusion [J].Structural Safety,2009,31(1):75-83.
[21]AUDENAERT K,MARSAVINA L,DE SCHUTTER G.Influence of cracks on the service life of concrete structures in a marine environment [J].Key Engineering Materials,2008,399:153-160.
[22]董荣珍,高印,卫军,等.干湿循环作用下混凝土裂缝区域氯离子的传输状态 [J].硅酸盐通报,2017,36(4):1113 -1119.DONG Rongzhen,GAO Yin,WEI Jun,et al.Transport state of chloride ion in concrete crack area under dry-wet cycle[J].Bulletin of the Chinese Ceramic Society,2017,36(4):1113 -1119.
[23]张菊辉,刘颖慧,时哲敏.氯离子在开裂混凝土中的扩散特性研究 [J].建筑材料学报,2018,21(2):299-303.ZHANG Juhui,LIU Yinghui,SHI Zhemin.Diffusion property of chloride in cracked concrete [J].Journal of Building Materials,2018,21(2):299-303.
[24]胡大琳,陈定市,张立兴,等.饱水混凝土氯离子侵蚀数值试验随机细观分析 [J].长安大学学报 (自然科学版 ),2017,37(6):38-46.HU Dalin,CHEN Dingshi,ZHANG Lixing,et al.Mesoscopic and stochastic analysis of chloride ion erosion in saturated concrete by numerical tests [J].Journal of Chang’an University (Natural Science Edition ),2017,37(6):38-46.
[25]DJERBI A,BONNET S,KHELIDJ A,et al.Influence of traversing crack on chloride diffusion into concrete [J].Cement and Concrete Research,2008,38(6):877-883.
[26]张希瑾,田稳苓,王浩宇,等.带裂缝混凝土氯离子扩散作用试验研究及数值模拟 [J].土木建筑与环境工程,2017,39(2):35-42.ZHANG Xijin,TIAN Wenling,WANG Haoyu,et al.Experimental analysis and numerical simulation of chloride ion diffusion in concrete with cracks [J].Journal of Civil,Architectural & Environmental Engineering,2017,39(2):35-42.
[27]金浏,杜修力,李悦.氯离子在饱和混凝土裂缝中的扩散系数分析 [J].工程力学,2016,33(5):50-56,73.JIN Liu,DU Xiuli,LI Yue.Study on chloride diffusivity coefficient in cracks within saturated concrete [J].Engineering Mechanics,2016,33(5):50-56,73.
[28]延永东,金伟良,王海龙.饱和状态下开裂混凝土内的氯离子输运 [J].浙江大学学报 (工学版 ),2011,45(12):2127 -2133.YAN Yongdong,JIN Weiliang,WANG Hailong.Chloride ingression in cracked concrete under saturated state [J].Journal of Zhejiang University (Engineering Science ),2011,45(12):2127 -2133.
[29]MU S,DE SCHUTTER G,MA B G.Non-steady state chloride diffusion in concrete with different crack densities[J].Materials and Structures,2013,46(1):123-133.