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Effect of mineral admixtures and repeated loading on chloride migration through concrete

Effect of mineral admixtures and repeated loading on chloride migration through concrete
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摘要 The effect of fly ash (FA) and ground granulated blast furnace slag (GGBFS) on chloride migration through concrete subjected to repeated loading was examined. Portland cement was replaced by three percentages (20%, 30%, and 40%) of mineral admixtures. Five repeated loadings were applied to concrete specimens using a WHY series fully automatic testing machine. The maximum loadings were 40% and 80% of the axial cylinder compressive strength (f′c). Chloride migration through concretes was evaluated using the rapid chloride migration test and the chloride concentration in the anode chamber was measured. The results showed that the replacement percentages of mineral admixtures, the curing time and repeated loading had a significant effect on chloride migration through concrete. The transport number of chloride through concrete cured for 28 d increased with increasing FA replacement and markedly decreased with extension of the curing time. 20% and 30% GGBFS replacement decreased the transport number of chloride through concrete, but 40% GGBFS replacement increased the transport number. Five repeated loadings at 40% or 80% f′c increased the transport number of chloride for all mixes. The effect of fly ash (FA) and ground granulated blast furnace slag (GGBFS) on chloride migration through concrete subjected to repeated loading was examined. Portland cement was replaced by three percentages (20%, 30%, and 40%) of mineral admixtures. Five repeated loadings were applied to concrete specimens using a WHY series fully automatic testing machine. The maximum loadings were 40% and 80% of the axial cylinder compressive strength (f′c). Chloride migration through concretes was evaluated using the rapid chloride migration test and the chloride concentration in the anode chamber was measured. The results showed that the replacement percentages of mineral admixtures, the curing time and repeated loading had a significant effect on chloride migration through concrete. The transport number of chloride through concrete cured for 28 d increased with increasing FA replacement and markedly decreased with extension of the curing time. 20% and 30% GGBFS replacement decreased the transport number of chloride through concrete, but 40% GGBFS replacement increased the transport number. Five repeated loadings at 40% or 80% f′c increased the transport number of chloride for all mixes.
作者 Wu-man ZHANG Heng-jing BA
机构地区 School of Transportation Science and Engineering School of Civil Engineering
出处 《Journal of Zhejiang University-Science A(Applied Physics & Engineering)》 SCIE EI CAS CSCD 2010年第9期683-690,共8页 浙江大学学报(英文版)A辑(应用物理与工程)
基金 Project (No. 50808045) supported by the National Natural Science Foundation of China
关键词 CONCRETE Fly ash (FA) Ground granulated blast furnace slag (GGBFS) Chloride migration Repeated loading Concrete, Fly ash (FA), Ground granulated blast furnace slag (GGBFS), Chloride migration, Repeated loading
分类号 TU5 [建筑科学—建筑技术科学]
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参考文献41

  • 1Barnett, S.J., Soutsos, M.N., Millard, S.G., Bungey, J.H., 2006 Strength development of mortars containing ground granulated blast-furnace slag: Effect of curing temperature and determination of apparent activation energies. Cement and Concrete Research, 36(3):434-440. [doi:10. 10160.cemconres.2005.11.002].
  • 2Buenfeld, N.R., Glass, G.K., Hassanein, A.M., Zhang, J.Z., 1998. Chloride transport in concrete subjected to electric field. Journal of Materials in Civil Engineering, 10(4):220-228. [doi: 10.1061/(ASGE)0899-1561 (1998)10: 4(220)].
  • 3Cao, Q.W., Wan, X.M., Zhao, T.J., Wan, X.H., 2008. Effect of Mechanical Loading on Chloride Penetration into Concrete. Advances in Concrete Structural Durability, Zhejiang University Press, Hangzhou, China, p.283-288.
  • 4Chindaprasirt, E, Chotithanorm, C., Cao, H.T., Sirivivatnanon, V., 2007. Influence of fly ash fineness on the chloride penetration of concrete. Construction and Building Materials, 21(2):356-361. [doi:10.1016/j.conbuildmat.2005.08.010].
  • 5Choinska, M., Khelidj, A., Chatzigeorgiou, G., Pijaudier+Cabot, G., 2007. Effects and interactions of temperature and stress-level related damage on permeability of concrete. Cement and Concrete Research, 37(1):79-88. [doi:10.1016/j.comconres.2006.09.015].
  • 6Cyr, M., Lawrence, E, Ringot, E., 2006. Efficiency of mineral admixtures in mortars: Quantification of the physical and chemical effects of fine admixtures in relation with compressive strength. Cement and Concrete Research, 36(2):264-277. [doi: 10.1016/j.cemconres.2005.07.001].
  • 7Dhir, R.K., EI-Mohr, M.A.K., Dyer, T.D., 1996. Chloride binding in GGBS concrete. Cement and Concrete Research, 26(12):1767-1773. [doi: 10.1016/S0008-8846(96)00180-9].
  • 8Douglas, E., Wilson, H., Malhotm, V.M., 1987. Production and Evaluation of a New Source of Granulated Blast Fumace Slag. International Workshops on Granulated Blast Furnace Slag, Ottawa, Canada, p.79-112.
  • 9Friedmann, H., Amiri, O., Ait-Mokhtar, A., Dumargue, E, 2004. A direct method for determining chloride diffusion coefficient by using migration test. Cement and Concrete Research, 34(11):1967-1973. [doi:10.1016/j.comconres. 2004.01.009].
  • 10GB/T 1596-2005. Fly Ash Used in Cement and Concrete. Standardization Administration of the People's Republic of China.
Journal of Zhejiang University-Science A(Applied Physics & Engineering)
2010年 第9期

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