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Journal of Zhejiang University SCIENCE A 2014 Vol.15 No.7 P.496-507

http://doi.org/10.1631/jzus.A1300393


Cover cracking model in reinforced concrete structures subject to rebar corrosion*


Author(s):  Zhi Wang1, Xian-yu Jin1, Nan-guo Jin1, Xiang-lin Gu2, Chuan-qing Fu2

Affiliation(s):  1. Department of Civil Engineering, Zhejiang University, Hangzhou 310027, China; more

Corresponding email(s):   jinng@zju.edu.cn

Key Words:  Reinforcement corrosion, Anisotropic damage, Analytical model, Concrete cover cracking


Zhi Wang, Xian-yu Jin, Nan-guo Jin, Xiang-lin Gu, Chuan-qing Fu. Cover cracking model in reinforced concrete structures subject to rebar corrosion[J]. Journal of Zhejiang University Science A, 2014, 15(7): 496-507.

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author="Zhi Wang, Xian-yu Jin, Nan-guo Jin, Xiang-lin Gu, Chuan-qing Fu",
journal="Journal of Zhejiang University Science A",
volume="15",
number="7",
pages="496-507",
year="2014",
publisher="Zhejiang University Press & Springer",
doi="10.1631/jzus.A1300393"
}

%0 Journal Article
%T Cover cracking model in reinforced concrete structures subject to rebar corrosion
%A Zhi Wang
%A Xian-yu Jin
%A Nan-guo Jin
%A Xiang-lin Gu
%A Chuan-qing Fu
%J Journal of Zhejiang University SCIENCE A
%V 15
%N 7
%P 496-507
%@ 1673-565X
%D 2014
%I Zhejiang University Press & Springer
%DOI 10.1631/jzus.A1300393

TY - JOUR
T1 - Cover cracking model in reinforced concrete structures subject to rebar corrosion
A1 - Zhi Wang
A1 - Xian-yu Jin
A1 - Nan-guo Jin
A1 - Xiang-lin Gu
A1 - Chuan-qing Fu
J0 - Journal of Zhejiang University Science A
VL - 15
IS - 7
SP - 496
EP - 507
%@ 1673-565X
Y1 - 2014
PB - Zhejiang University Press & Springer
ER -
DOI - 10.1631/jzus.A1300393


Abstract: 
A new cover cracking model is proposed for rebar corrosion. Rebar corrosion involves rust, which contributes to an expansive radial pressure at the concrete-steel interface and hoop tensile stresses in the surrounding concrete. Once the stress state exceeds a certain limit, anisotropic damage occurs. First, we establish an anisotropic damage model for concrete, which fully reflects the unilateral effect. Then an analytical model is proposed to calculate the displacement and the stress in a corroded reinforced concrete (RC) structural member based on that anisotropic damage. In this study, a concrete-rust-steel composite model is considered as a circular cylindrical concrete cover and a coaxial, uniformly-corroded, steel rebar, where the steel rebar and the mechanical properties of rust can be fully taken into account. At the same time, the influences of the steel-concrete interface pores and the cracks in concrete on the rust expansion pressure value are modeled. Finally, some experiments are made for comparison with the analytical results and good agreement indicated the proposed model could be used to predict both the variation of strain fields in structures during the corrosion process and the cover cracking time.

钢筋混凝土结构的钢筋锈胀引起的保护层开裂研究


研究目的:预测保护层开裂的时间以及分析锈胀参数
研究方法:基于混凝土的各向异性损伤,建立考虑钢筋-腐蚀产物-混凝土三者不同力学性能的钢筋锈胀导致保护层开裂的数学模型。模型考虑了腐蚀产物对钢筋混凝土界面区的孔隙和混凝土开裂裂缝的填充效应,采用了非线性分析算法,预测了开裂过程中每一时刻混凝土构件的应变与位移场以及混凝土保护层开裂时间,最后将模型预测值与试验值进行对比。
重要结论:1.当混凝土出现裂缝之后,随着腐蚀产物对裂缝的填充,混凝土的环向拉应变的增长速率减缓;2.选定钢筋的型号、直径以及混凝土的强度之后,可通过增大保护层的厚度来减小钢筋锈胀开裂的风险。

关键词:钢筋锈胀;保护层开裂;腐蚀产物;填充效应

Darkslateblue:Affiliate; Royal Blue:Author; Turquoise:Article

References

[1] Alsulaimani, G.J., Kaleemullah, M., Basunbul, I.A., 1990. Rasheeduzzafar. Influence of corrosion and cracking on bond behavior and strength of reinforced-concrete members. ACI Structural Journal, 87(2):220-231. 

[2] Andrade, C., Alonso, C., Molina, F.J., 1993. Cover cracking as a function of bar corrosion. 1. Experimental test. Materials and Structures, 26(8):453-464. 


[3] Bazant, Z.P., 1979. Physical model for steel corrosion in concrete sea structures-application. Journal of the Structural Division, ASCE, 105(6):1155-1166. 

[4] Bertolini, L., 2008. Steel corrosion and service life of reinforced concrete structures. Structure and Infrastructure Engineering, 4(2):123-137. 


[5] Bhargava, K., Ghosh, A.K., Mori, Y., 2005. Modeling of time to corrosion-induced cover cracking in reinforced concrete structures. Cement and Concrete Research, 35(11):2203-2218. 


[6] Bhargava, K., Ghosh, A.K., Mori, Y., 2006. Analytical model for time to cover cracking in RC structures due to rebar corrosion. Nuclear Engineering and Design, 236(11):1123-1139. 


[7] Bhargava, K., Ghosh, A.K., Mori, Y., 2006. Model for cover cracking due to rebar corrosion in RC structures. Engineering Structures, 28(8):1093-1109. 


[8] Chernin, L., Val, D.V., 2011. Prediction of corrosion-induced cover cracking in reinforced concrete structures. Construction and Building Materials, 25(4):1854-1869. 


[9] Chernin, L., Val, D.V., Volokh, K.Y., 2010. Analytical modelling of concrete cover cracking caused by corrosion of reinforcement. Materials and Structures, 43(4):543-556. 

[10] Coronelli, D., 2002. Corrosion cracking and bond strength modeling for corroded bars in reinforced concrete. ACI Structural Journal, 99(3):267-276. 

[11] Gambarova, P.G., Rosati, G., 1996. Bond and splitting in reinforced concrete: test results on bar pull-out. Materials and Structures, 29(5):267-276. 


[12] Grassl, P., Jirasek, M., 2006. Damage-plastic model for concrete failure. International Journal of Solids and Structures, 43(22-23):7166-7196. 


[13] Kiani, K., Shodja, H.M., 2011. Prediction of the penetrated rust into the microcracks of concrete caused by reinforcement corrosion. Applied Mathematical Modelling, 35(5):2529-2543. 


[14] Liu, Y.P., Weyers, R.E., 1998. Modeling the time-to-corrosion cracking in chloride contaminated reinforced concrete structures. ACI Materials Journal, 95(6):675-681. 

[15] Lundgren, K., 2002. Modelling the effect of corrosion on bond in reinforced concrete. Magazine of Concrete Research, 54(3):165-173. 


[16] Lundgren, K., 2005. Bond between ribbed bars and concrete. Part 2: the effect of corrosion. Magazine of Concrete Research, 57(7):383-395. 


[17] Melchers, R.E., Jeffrey, R., 2005. Early corrosion of mild steel in seawater. Corrosion Science, 47(7):1678-1693. 


[18] Molina, F.J., Alonso, C., Andrade, C., 1993. Cover cracking as a function of rebar corrosion. 2. Numerical-model. Materials and Structures, 26(9):532-548. 


[19] Morinaga, S., 1990. Prediction of service lives of reinforced concrete buildings based on rate of corrosion of reinforcing steel. , Proceedings of the 5th International Conference on Durability of Building Materials and Components, Brighton, UK, 5-16. :5-16. 

[20] Ouglova, A., Berthaud, Y., Francois, M., 2006. Mechanical properties of an iron oxide formed by corrosion in reinforced concrete structures. Corrosion Science, 48(12):3988-4000. 


[21] Pantazopoulou, S.J., Papoulia, K.D., 2001. Modeling cover-cracking due to reinforcement corrosion in RC structures. Journal of Engineering Mechanics-ASCE, 127(4):342-351. 


[22] Rabczuk, T., Akkermann, J., Eibl, J., 2005. A numerical model for reinforced concrete structures. International Journal of Solids and Structures, 42(5-6):1327-1354. 


[23] Rasheeduzzafar, S.S., Al-Saadoun, A.S., Al-Gahtani, ., 1992. Corrosion cracking in relation to bar diameter, cover, and concrete quality. Journal of Materials in Civil Engineering, 4(4):327-342. 


[24] Sanchez, P.J., Huespe, A.E., Oliver, J., 2010. Mesoscopic model to simulate the mechanical behavior of reinforced concrete members affected by corrosion. International Journal of Solids and Structures, 47(5):559-570. 


[25] Shodja, H.M., Kiani, K., Hashemian, A., 2010. A model for the evolution of concrete deterioration due to reinforcement corrosion. Mathematical and Computer Modelling, 52(9-10):1403-1422. 


[26] Tepfers, R., 1979. Cracking of concrete cover along anchored deformed reinforcing bars. Magazine of Concrete Research, 31(106):3-12. 


[27] Wong, H.S., Zhao, Y.X., Karimi, A.R., 2010. On the penetration of corrosion products from reinforcing steel into concrete due to chloride-induced corrosion. Corrosion Science, 52(7):2469-2480. 



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