Research on Chloride Ion Diffusion of Concrete Water-Based Capillary Crystalline Waterproofer and its Penetration Depth by Using Electron Microscope

Xin Xiao; Qi Sen Zhang; Xiao Ye Liang; Xiao Ning Zhang

doi:10.4028/www.scientific.net/AMR.857.27

Paper Titles

Preface and Conference Organizers

Study on Test Methods for Intelligence-Based Monitoring of Fresh Cement Concrete Quality
p.3

Study on the Influence of Mix Design Parameters on the Properties of Self-Compacting Concrete
p.10

Study on Vibrational Liquefaction Behavior of Air-Entrained Concrete
p.20

Research on Chloride Ion Diffusion of Concrete Water-Based Capillary Crystalline Waterproofer and its Penetration Depth by Using Electron Microscope
p.27

Concrete Strength Estimation Using the Maturity Method
p.35

Experimental Study on Gap-Graded Concrete Mixing Uniformity
p.42

Effect of Mineral Additives on Internal Relative Humidity and Dry Shrinkage of Light Weight Aggregate Concrete
p.51

Study on the Effect of Different Admixtures on the Early Autogenous Shrinkage of High Performance Concrete of Bridge Deck Pavement
p.56

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 857Research on Chloride Ion Diffusion of Concrete...

Research on Chloride Ion Diffusion of Concrete Water-Based Capillary Crystalline Waterproofer and its Penetration Depth by Using Electron Microscope

Abstract:

In order to improve the durability of concrete structure, studying reduction effect that water-based capillary crystalline waterproofer has on chloride ion diffusion coefficient in the concrete; analyse the inner microstructure of concrete by using electron microscope, and observe the penetration depth of waterproof agent in concrete directly. Research shows that: the water permeable crystalline waterproof agent can significantly reduce the diffusion coefficient of chloride ions in concrete, after concrete forms, the earlier brush waterproof agent, the longer it cure and its improving effect is more prominent after brushing waterproof agent , reduction rate of chloride ion diffusion coefficient in low strength concrete is higher than high-strength concrete;in good condition of water percolation, by detecting of electron microscope, it proved waterproofing agent can penetrate into internal concrete 6cm at least , the gel produced can be filled with pore and micro crack of concrete, so it can significantly improve the compactness of the whole structure.

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Periodical:

Advanced Materials Research (Volume 857)

Pages:

27-34

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.857.27

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Online since:

December 2013

Authors:

Xin Xiao*, Qi Sen Zhang, Xiao Ye Liang, Xiao Ning Zhang

Keywords:

Chloride Ion, Durability, Electron Microscope, Highway Engineering, Water-Based Capillary Crystalline Waterproofer

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