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Modeling Degradation of Cementitious Materials in Aggressive Aqueous Environments

Le Bescop, Patrick / Lothenbach, Barbara / Samson, Eric / Snyder, Kenneth A.

The vast majority of the world’s concrete infrastructure was built around the middle of the twentieth century, and for the most part is now approaching an age of half a century or more. In many cases, the structures are showing signs of degradation mechanisms such as corrosion of the steel reinforcement, alkali-silica reaction (ASR), and freeze-thaw.

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Modeling Degradation of Cementitious Materials in Aggressive Aqueous Environments

Le Bescop, Patrick / Lothenbach, Barbara / Samson, Eric / Snyder, Kenneth A.

The vast majority of the world’s concrete infrastructure was built around the middle of the twentieth century, and for the most part is now approaching an age of half a century or more. In many cases, the structures are showing signs of degradation mechanisms such as corrosion of the steel reinforcement, alkali-silica reaction (ASR), and freeze-thaw.

Modeling Degradation of Cementitious Materials in Aggressive Aqueous Environments

Le Bescop, Patrick / Lothenbach, Barbara / Samson, Eric / Snyder, Kenneth A.

The vast majority of the world’s concrete infrastructure was built around the middle of the twentieth century, and for the most part is now approaching an age of half a century or more. In many cases, the structures are showing signs of degradation mechanisms such as corrosion of the steel reinforcement, alkali-silica reaction (ASR), and freeze-thaw.

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Title:

Modeling Degradation of Cementitious Materials in Aggressive Aqueous Environments

Additional title:

RILEM State Art Reports

Contributors:

Alexander, Mark (editor) / Bertron, Alexandra (editor) / De Belie, Nele (editor) / Le Bescop, Patrick (author) / Lothenbach, Barbara (author) / Samson, Eric (author) / Snyder, Kenneth A. (author)

Published in:

Performance of Cement-Based Materials in Aggressive Aqueous Environments ; Chapter: 7 ; 177-218

RILEM State-of-the-Art Reports ; 10

Publication date:

2012-09-20

Size:

42 pages

ISBN:

978-94-007-5413-3 , 978-94-007-5412-6

ISSN:

2213-2031 , 2213-204X

DOI:

https://doi.org/10.1007/978-94-007-5413-3_7

Type of media:

Article/Chapter (Book)

Type of material:

Electronic Resource

Language:

English

Keywords:

Coupling , Degradation , Electrochemical potential , Multi-ionic , Transport modelling , Thermo-hydro-mechanical models Engineering , Building Materials , Building Repair and Maintenance , Civil Engineering , Characterization and Evaluation of Materials , Structural Materials

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