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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 535-537Review of Researches on Carbonization of Concrete:...

Review of Researches on Carbonization of Concrete: Influencing Factors and Forecast Models

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Abstract:

This paper reviews the state-of-art of researches on the carbonization of concrete. The influencing factors are concluded as two aspects as the internal concrete and the external environment and service conditions. The main internal factors include the cement and admixtures, the water to cement ratio, the concrete strength and others such as the type, grading and size of aggregate and the additives. The main external factors include the concentration and pressure of carbon dioxide, the temperature and relative humidity of environment, the curing and service conditions and the loading states. The typical forecast models of carbonized depth of concrete based on the fundamental reaction engineering principles, the lab experimental results and the practical engineering investigations are summarized for the reference of further study.

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Advanced Engineering Materials II

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Periodical:

Advanced Materials Research (Volumes 535-537)

Pages:

1825-1828

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.535-537.1825

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Online since:

June 2012

Authors:

Shun Bo Zhao, Hua Xiao Chen, Li Yun Pan

Keywords:

Carbonization, Carbonized Depth, Concrete, External Influencing Factor, Forecast Model, Internal Influencing Factor

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© 2012 Trans Tech Publications Ltd. All Rights Reserved

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[1] Y. Zhang, L. Jiang, W. Zhang and W. Qu: Durability of Concrete Structures (Shanghai Press of Science and Technology, Shanghai, 2003).

[2] S. Zhao: Design Principles of Concrete Structures (Tongji University Press, Shanghai, 2004).

[3] V. G. Papadakis, C. G. Vayenas and M. N. Fardis: AIChE Journal, No. 10 (1989), pp.1639-1650.

[4] L. Gong, M. Su and H. Wang: Concrete and Reinforced Concrete, No. 6 (1985), pp.10-16.

[5] A. Zhu: Concrete, No. 6 (1992), pp.18-22.

[6] L. Xu and S. Huang: Journal of Shanghai Institute of Building Materials, No. 4 (1991), pp.347-356.

[7] X. Di and Y. Zhou: Study on Carbonation Regularity of Concrete (Chinese Research Institute of Building Science, 1995).

[8] Ohga Hiroyuki and Nagataki Shigeyoshi: Proceedings of the Japan Society of Civil Engineers, No. 390 (1988), pp.225-233.

[9] V. G. Papadakis, C. G. Vayenas and M. N. Fardis: ACI Materials Journal, No. 4 (1991), pp.363-373.

[10] G. Li, Y. Yuan and O. Geng: Concrete, No. 11 (2004), pp.49-51.

[11] D. Niu: Durability and Service Life Prediction of Concrete Structures (Science Press, Beijing, 2003).

[12] H. G. Smolczy: Proceedings of 5th International Symposium on Chemistry of Cement, Tokyo, Vol. 3 (1986), pp.343-368.

[13] Z. Liu: Study on Methods of Accelerated Testing of Marine Concrete Durability Based on Simulating Environment and Service Life Prediction. Dissertation for Ph D Degree of South-east University, China, 2006.

[14] X. Zhang, X. Ding, S. Zhao and Z. Ge: Applied Mechanics and Materials, Vols. 71-78 (2011), pp.4361-4364.

[15] S. Zhao, N. Liang, X. Ma and S. Yang: Advanced Materials Research, Vols. 201-203 (2011), pp.2287-2890.

[16] Gaetan Rimmele and Veronique Barlet-Gouedard: Cement and Concrete Research, No. 40 (2010), pp.1175-1188.

[17] N. Hyvert, A. Sellier, F. Duprat, P. Rougeau and P. Francisco: Cement and Concrete Reasearch, No. 40 (2010), pp.1582-1589.

DOI: 10.1016/j.cemconres.2010.06.010

[18] F. Wang: Journal of Shenyang Architecture University.No.6, 2007, pp.914-917.

[19] D. C. Park: Construction and Building Materials, No. 22 (2008), pp.2260-2268.

[20] Y. Liu: Practical Model for Reinforcement Corrosion due to Carbonation of Concrete. Dissertation for Master Degree of Tongji University, China, 1997.

[21] L. Chen: Research on Concrete Carbonation Model and its Parameters. Dissertation for Master Degree of Xi'an University of Architecture Science and Technology, China, 2007.

[22] K. Y. Ann, S. W. Pack, J. P. Hwang, H. W. Song and S. H. Kim: Construction and Building Materials, No. 24 (2010), pp.1494-1501.