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The stability of bound chlorides in cement paste with sulfate attack

Geng, Jian / Easterbrook, Dave / Li, Long-Yuan / Mo, Li-Wei

This paper presents an experimental investigation on the stability of bound chlorides in chloride-contaminated cement pastes with and without FA/GGBS when subjected to Na₂SO₄ and MgSO₄ attack. It is shown that bound chlorides were released in the chloride-contaminated pastes when exposed to Na₂SO₄ or MgSO₄ solution. This is mainly attributed to the decomposition of Friedel's salt (FS), where Cl⁻ bound in FS is replaced by SO₄²⁻. However there were fewer released chlorides found in the pastes exposed to MgSO₄ solution than in those exposed to Na₂SO₄ solution. This is partly due to the low pH in the pore solution and partly due to the blocking effect of brucite on ionic transport caused by MgSO₄. The inclusion of FA/GGBS in concrete can increase the decomposition of FS and thus the release of bound chlorides. However, it also resists the penetration of Na₂SO₄ and thus reduces the attack of Na₂SO₄.

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The stability of bound chlorides in cement paste with sulfate attack

Geng, Jian / Easterbrook, Dave / Li, Long-Yuan / Mo, Li-Wei

This paper presents an experimental investigation on the stability of bound chlorides in chloride-contaminated cement pastes with and without FA/GGBS when subjected to Na₂SO₄ and MgSO₄ attack. It is shown that bound chlorides were released in the chloride-contaminated pastes when exposed to Na₂SO₄ or MgSO₄ solution. This is mainly attributed to the decomposition of Friedel's salt (FS), where Cl⁻ bound in FS is replaced by SO₄²⁻. However there were fewer released chlorides found in the pastes exposed to MgSO₄ solution than in those exposed to Na₂SO₄ solution. This is partly due to the low pH in the pore solution and partly due to the blocking effect of brucite on ionic transport caused by MgSO₄. The inclusion of FA/GGBS in concrete can increase the decomposition of FS and thus the release of bound chlorides. However, it also resists the penetration of Na₂SO₄ and thus reduces the attack of Na₂SO₄.

The stability of bound chlorides in cement paste with sulfate attack

Geng, Jian / Easterbrook, Dave / Li, Long-Yuan / Mo, Li-Wei

This paper presents an experimental investigation on the stability of bound chlorides in chloride-contaminated cement pastes with and without FA/GGBS when subjected to Na₂SO₄ and MgSO₄ attack. It is shown that bound chlorides were released in the chloride-contaminated pastes when exposed to Na₂SO₄ or MgSO₄ solution. This is mainly attributed to the decomposition of Friedel's salt (FS), where Cl⁻ bound in FS is replaced by SO₄²⁻. However there were fewer released chlorides found in the pastes exposed to MgSO₄ solution than in those exposed to Na₂SO₄ solution. This is partly due to the low pH in the pore solution and partly due to the blocking effect of brucite on ionic transport caused by MgSO₄. The inclusion of FA/GGBS in concrete can increase the decomposition of FS and thus the release of bound chlorides. However, it also resists the penetration of Na₂SO₄ and thus reduces the attack of Na₂SO₄.

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Title:

The stability of bound chlorides in cement paste with sulfate attack

Contributors:

Geng, Jian (author) / Easterbrook, Dave (author) / Li, Long-Yuan (author) / Mo, Li-Wei (author)

Published in:

Cement and Concrete Research ; 68 ; 211-222

Publication date:

2015

Size:

12 Seiten, 43 Quellen

ISSN:

DOI:

https://doi.org/10.1016/j.cemconres.2014.11.010

Type of media:

Article (Journal)

Type of material:

Print

Language:

English

Keywords:

chemischer Angriff , Stabilität , Flugasche , Chlorid , Zementpaste , Sulfat , Brucit , experimentelle Untersuchung , Ionentransport , Porenlösung , Granulat , pH-Wert , Natriumsulfat , Magnesiumsulfat , Hochofenschlacke

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