Relationship between Chloride Migration, Bulk Electrical Conductivity and Formation Factor of Blended Cement Pastes: Fid-Bau Portal

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Relationship between Chloride Migration, Bulk Electrical Conductivity and Formation Factor of Blended Cement Pastes

Ranger Maxime / Hasholt Marianne Tange

This study investigates the links between the non-steady-state chloride migration coefficient, the bulk electrical conductivity and the formation factor of blended cement paste specimens. 18 different binders were tested: two Portland cements (low- and high-alkali) in combination with limestone filler, fly ash, calcined clay, two biomass ashes, sewage sludge ash and crushed brick, as well as two Portland composite cements. In addition, the latter and the low-alkali Portland cement were tested in concrete as well for comparison.

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Relationship between Chloride Migration, Bulk Electrical Conductivity and Formation Factor of Blended Cement Pastes

Ranger Maxime / Hasholt Marianne Tange

This study investigates the links between the non-steady-state chloride migration coefficient, the bulk electrical conductivity and the formation factor of blended cement paste specimens. 18 different binders were tested: two Portland cements (low- and high-alkali) in combination with limestone filler, fly ash, calcined clay, two biomass ashes, sewage sludge ash and crushed brick, as well as two Portland composite cements. In addition, the latter and the low-alkali Portland cement were tested in concrete as well for comparison.

Relationship between Chloride Migration, Bulk Electrical Conductivity and Formation Factor of Blended Cement Pastes

Ranger Maxime / Hasholt Marianne Tange

This study investigates the links between the non-steady-state chloride migration coefficient, the bulk electrical conductivity and the formation factor of blended cement paste specimens. 18 different binders were tested: two Portland cements (low- and high-alkali) in combination with limestone filler, fly ash, calcined clay, two biomass ashes, sewage sludge ash and crushed brick, as well as two Portland composite cements. In addition, the latter and the low-alkali Portland cement were tested in concrete as well for comparison.

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Title:

Relationship between Chloride Migration, Bulk Electrical Conductivity and Formation Factor of Blended Cement Pastes

Contributors:

Ranger Maxime (author) / Hasholt Marianne Tange (author)

Published in:

Nordic Concrete Research, Vol 69, Iss 2, Pp 33-53 (2023)

Publication date:

2023

ISSN:

DOI:

https://doi.org/10.2478/ncr-2023-0009

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

Unknown

Keywords:

chloride migration , electrical conductivity , formation factor , supplementary cementitious materials (scms) , transport properties , Building construction , TH1-9745

Metadata by DOAJ is licensed under CC BY-SA 1.0

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