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Journal of the Korea Concrete Institute

ISO Journal TitleJ Korea Concr Inst.
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  • KCI Accredited Journal

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  3. 2017-02 (Vol.29 No.1)
  4. 10.4334/JKCI.2017.29.1.109
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1 
Orellan, J. C., Escadeillas, G., and Arliguie, G., “Electrochemical Chloride Extraction: Efficiency and Side Effects”, Cement and Concrete Research, Vol. 34, 2004, pp. 227-234.DOI
2 
Perez, A., Climent, M. A., and Garces, P., “Electrochemical Extraction of Chlorides from Reinforced Concrete Using a Conductive Cement Paste as the Anode”, Corrosion Science, Vol. 52, 2010, pp. 1576-1581.DOI
3 
Canon, A., Garces, P., Climent, M. A., Carmona, J., and Zornoza, E., “Feasibility of Electrochemical Chloride Extraction from Structural Reinforced Concrete Using a Sprayed Conductive Graphite Powder-cement Paste as Anode”, Corrosion Science, Vol. 77, 2013, pp. 128-134.DOI
4 
Rasheeduzafar, S., Ali, M. G., and Al-Sulaimani, G. J., “Degradation of Bond Between Reinforcing Steel and Concrete Due to Cathodic Protection Current”, ACI Material Journal, Vol. 90, 1993, pp. 8-15.Google Search
5 
Ihekwaba, N. M., Hope, B. B., and Hansson, C. M., “Pull-out and Bond Degradation of Steel Rebars in ECE”,Cement and Concrete Research, Vol. 26, 1996, pp. 267-282.DOI
6 
Marcotte, T. D., Hansson, C. M., and Hope, B. B., “The Effect of the Electrochemical Chloride Extraction Treatment on Steel- Reinforced Mortar Part II: Microstructural Characterization”, Cement and Concrete Research, Vol. 29, 1999, pp. 1561-1568.DOI
7 
Song, H. W., Jung, M. S., Lee, C. H., Kim, S. H., and Ann, K. Y., “Influence of Chemistry of Chloride Ions in Cement Matrix on Corrosion of Steel”, ACI Materials Journal, Vol. 107, 2010, pp. 332-339.Google Search
8 
Song, H. W., Lee, C. H., Jung, M. S., and Ann, K. Y., “Development of Chloride Binding Capacity in Cement Pastes and Influence of the pH of Hydration Products”, Canadian Journal of Civil Engineering, Vol. 35, 2008, pp. 1427-1434.DOI
9 
Martinez, I., Rozas, F., Ramos, S., Gonzalez, M., and Castellote, M. “Chloride Electromediation in Reinforced Structures: Preliminary Electrochemical Tests to Detect the Steel Repassivation During the Treatment”, Electrochimica Acta, Vol. 181, 2015, pp. 288-300.DOI
10 
Miranda, J. M., Gonzalez, J. A., Cobo, A., and Otero, E., “Several Questions about Electrochemical Rehabilitation Methods for Reinforced Concrete Structures”, Corrosion Science, Vol. 48, 2006, pp. 2172-2188.DOI
11 
Congqi, F., Karin, L., Liuguo, C., and Chaoying, Z., “Corrosion Influence on Bond in Reinforced Concrete”, Cement and Concrete Research, Vol. 34, 2004, pp. 2159-2167.DOI
12 
Vidal, T., Castel, A., and Francois, R., “Analyzing Crack Width to Predict Corrosion in Reinforced Concrete”, Cement and Concrete Research, Vol. 34, 2004, pp. 165-174.DOI
13 
Djerbi, A., Bonnet, S., Khelidj, A., and Baroghel-bouny, V., “Influence of Traversing Crack on Chloride Diffusion into Concrete”, Cement and Concrete Research, Vol. 38, 2008, pp. 877-883.DOI
14 
Okada, K., Kobayashi, K., and Miyagawa, T., “Influence of Longitudinal Cracking Due to Reinforcement Corrosion on Characteristics of Reinforced Concrete Members”, ACI Material Journal, Vol. 85, 1988, pp. 134-140.Google Search
15 
Al-Sulaimani, G. J., Kaleemullah, M., Basunbul, I. A., and Rasheeduzzafar, “Influence of Corrosion and Cracking on Bond Behavior and Strength of Reinforced Concrete Members”, ACI Structural Journal, Vol. 87, 1990, pp. 220-231.Google Search
16 
Yu, H. G, Lee, B. D., Kim, K. H., and Ahn, T. S., “A Study on the Relationship between Degree of Rust Condition and Bond Strength in Reinforced Concrete Members”, Proceedings of Korean Concrete Institute, Vol. 10, 1998, pp. 621-627.Google Search