Influence of binder composition and concrete pore structure on chloride diffusion coefficient in concrete

Pengping Li; Dagen Su; Shengnian Wang; Zhihong Fan

doi:10.1007/s11595-011-0189-1

Journal of Wuhan University of Technology Materials Science Edition ›› 2011, Vol. 26 ›› Issue (1) : 160 -164. DOI: 10.1007/s11595-011-0189-1

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Influence of binder composition and concrete pore structure on chloride diffusion coefficient in concrete

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Abstract

The influence of binder composition and pore structure of concrete on chloride diffusion coefficient in concrete were investigated by the natural immersion test, MIP test, SEM and EDS test, respectively. The experimental results showed that the effect of binder composition on chloride diffusion coefficient was the comprehensive result of concrete pore structure and binder hydration products, and the porosity and pore size distribution were the main factors that influence the changes of diffusion coefficient. The chloride diffusion coefficient decreased with increasing the curing temperature and the relative humidity. The hydration degree were promoted by improving curing temperatures, and then the porosity of concrete decreased and the proportion of gel pore and transitional pore increased, respectively. But the water evaporation decreased with increasing the relative humidity and then decreased porosity and increased the proportion of gel pore and transitional pore. Additionally, The chloride diffusion coefficient of concrete got the lower value when the appropriate replacement of fly ash in the ranges of 10%–20%, when the double-adding fly ash and slag content was 50%. The porosity increased and the ratio of C/S in C-S-H decreased with further increasing the fly ash content, which led to increase the chloride diffusion coefficient in concrete.

Keywords

binder composition / pore structure / marine concrete / chloride diffusion coefficient

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Pengping Li, Dagen Su, Shengnian Wang, Zhihong Fan. Influence of binder composition and concrete pore structure on chloride diffusion coefficient in concrete. Journal of Wuhan University of Technology Materials Science Edition, 2011, 26(1): 160-164 DOI:10.1007/s11595-011-0189-1

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