The Research of Hydrolysis Test of Silicone Water Repellent for Protecting Reinforced Concrete

Zheng Yang; Zong Yang Yuan; Hong Yao Sun; Guo Liang San; Ming Xia Shen

doi:10.4028/www.scientific.net/AMM.584-586.1725

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 584-586The Research of Hydrolysis Test of Silicone Water...

The Research of Hydrolysis Test of Silicone Water Repellent for Protecting Reinforced Concrete

Abstract:

It is one of the measures of improving durability of concrete structure that apply silicone water repellent on concrete surface. The characteristic of silicone water repellent is to keep the respiratory function of concrete, not to change the original appearance of the concrete, have good hydrophobic performance and can resist to chloride ion penetration. This paper studies the hydrolysis of silicone water repellents solutions with different pH by measuring the electrical conductivity, pH value, and surface tension of the solution. The results show that silicone water repellent is hydrolyzing quickly very much. The hydrolysis time will extend with the increase of the concentration of silicone water repellent. By means of impregnating sand, rubble, cement pieces and calcium carbonate (CaCO₃) powder with silicone water repellents, the water absorption at different temperature and humidity are studied and compared with the same material but not impregnated. The results indicate that the water absorption of impregnated material decreases and the silicone water repellent has hydrophobicity. The higher humidity can help hydrolysis and adhesion of silicone water repellent. The higher temperature may increase water absorption of base materials impregnated with low molecule weight silicone water repellent. Low molecule weight silicone water repellent liquid is residue on the calcium carbonate powder surface.

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Periodical:

Applied Mechanics and Materials (Volumes 584-586)

Pages:

1725-1732

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.584-586.1725

Citation:

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Online since:

July 2014

Authors:

Zheng Yang, Zong Yang Yuan, Hong Yao Sun*, Guo Liang San, Ming Xia Shen

Keywords:

Hydrolysis, Reinforced Concrete, Silane, Silicone Water Repellent, Water Absorption Rate

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* - Corresponding Author

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