关于混凝土钢筋锈蚀等效电路模型中各元件的物理意义理解不尽相同.为了对模型元件的物理意义给出合理解释,设计了由氯盐侵蚀和混凝土碳化导致钢筋锈蚀的两种加速试验.通过对钢筋锈蚀试块阻抗谱特征的分析研究,对模型元件的物理意义给出了合理解释.研究发现,氯盐锈蚀试块具有三段容抗弧,即三个时间常数;而碳化锈蚀试块阻抗谱与钝化钢筋试块阻抗谱都只有两个容抗弧,即两个时间常数,可以使用相同的等效电路模型来表示.随着锈蚀的逐渐开展,低频段的容抗弧逐渐收缩.当环境湿度升高时,阻抗谱中高频段与低频段容抗弧均发生收缩,所表现的物理意义为混凝土电阻率的降低和钢筋极化电阻的降低.最后,本文提出了等效电路的简化模型,并通过试验验证了简化模型的合理性.
Understandings of the physical significance of elements in equivalent circuit model of rebar corrosion in concrete are not quite similar.In order to give a reasonable explanation, experiments of rebar corrosion in concrete induced by chloride penetration and carbonation were designed,and then the characteristics of electrochemical impedance spectroscopy(EIS) of test specimens were carefully examined.It was found from the test results that,for the rebar corrosion induced by chloride attack,three capacitance arcs were observed in impedance spectroscopy.However, for the rebar corrosion induced by carbonation,there exsited only two capacitance arcs in impedance spectroscopy,which corresponded with characteristics of rebar in passivation state. Low frequency capacitance arc shrank gradually with corrosion going on.As relative humidity increasing, high frequency and low frequency capacitance arcs both shrank,which meant decreasing of concrete resistivity and polarization resistance of rebar.Finally,a simplified equivalent circuit model was proposed and verified by experiment.
参考文献
| [1] | 金伟良,赵羽习.混凝土结构耐久性[M].北京:科学出版社,2002. |
| [2] | Tomosawa F. Japan's experiences and standards on the durability problems of reinforced concrete structures[J]. Int. J. Struct. Eng., 2009, 1(1): 1. |
| [3] | Song H W, Ann K Y, Pack S W, et al. Factors influenc- ing chloride transport and chloride threshold level for the prediction of service life of concrete structures[J]. Int. J. Struct. Eng., 2010, 1(2): 131. |
| [4] | Song G L. Equivalent circuit model for AC electrochem- ical impedance spectroscopy of concrete[J]. Cem. Concr. Res., 2000, 30(11): 1723. |
| [5] | 胡融刚,杜荣归,林昌健.氯离子侵蚀下钢筋在混凝土中腐蚀行为的EIS研究[J].电化学,2003,9(2):189. |
| [6] | 刘晓敏,史志明,许刚等.钢筋在混凝土中腐蚀行为的电化学阻抗特征[J].腐蚀科学与防护技术,1999,11(3):161. |
| [7] | 史美伦,刘俊彦,吴科如.混凝土中钢筋锈蚀机理研究的交流阻抗方法[J].建筑材料学报,1998,1(3):206. |
| [8] | Andrade C, Keddam M, Novoa X R, et al. Electrochemi- cal behavior of steel rebars in concrete: influence of envi- ronmental factors and cement chemistry[J]. Electrochim. Acta, 2001, 46(24-25): 3905. |
| [9] | Qiao G F, Ou J P. Corrosion monitoring of reinforcing steel in cement mortar by EIS and ENA[J]. Electrochim. Acta, 2007, 52(28): 8008. |
| [10] | Mohamed I, Masayasu O. Corrosion rate of ordinary and high-performance concrete subjected to chloride attack by AC impedance spectroscopy[J]. Constr. Building Mater., 2006, 20(7): 458. |
| [11] | Suryavanshi A K, Scantlebury J D, Lyod S B. Corrosion of reinforcement steel embedded in high water-cement ratio concrete contaminated with chloride[J]. Cem. Concr. Compos., 1998, 20(4): 263. |
| [12] | Koleva D A, Hu J, Fraaij A L A, et al. Quantitative char- acterization of steel/cement paste interface microstructure and corrosion phenomena in mortars suffering from chlo- ride attack[J]. Corros. Sci., 2006, 48(12): 4001. |
| [13] | 曹楚南.腐蚀电化学原理[M].北京:化学工业出版社,2008. |
| [14] | 储炜,史苑芗,魏宝明.钢筋在混凝士模拟孔溶液及水泥净浆中的腐蚀电化学行为[J].南京化工学院学报,1995,17(3):14. |
| [15] | Law D W, Cairns J, Millard S G, et al. Measurement of loss of steel from reinforcing bars in concrete using lin- ear polarisation resistance measurements[J]. NDT&E Int., 2004, 37(5): 381. |
| [16] | 原通鹏,邓德华,曾志等.矿物掺合料抗氯离子扩散性能的试验研究[J].混凝土,2005,(11):60. |
| [17] | 叶建雄,李晓筝,廖佳庆等.矿物掺合料对混凝土氯离子渗透扩散性研究[J].重庆建筑大学学报,2005,27(3):91. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%