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Performance of Cement-Based Materials in Aggressive Aqueous Environments

State-of-the-Art Report, RILEM TC 211 - PAE

  • Book
  • © 2013

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Editors:
  1. Mark Alexander

    1. Department of Civil Engineering, University of Cape Town, Rondebosch, South Africa

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  2. Alexandra Bertron

    1. LMDC, INSA/UPS Génie Civil, Toulouse Cedex 4, France

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  3. Nele De Belie

    1. Department of Structural Engineering, Ghent University, Ghent, Belgium

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  • Up to date information on concrete deterioration mechanisms
  • Test methods for assessing concrete deterioration in various aggressive environments
  • Modeling and analysis of concrete deterioration problems in aggressive environments
  • Engineering approaches to designing and constructing concrete structures in aggressive environments
  • Compilation of current knowledge from well-known experts in these fields

Part of the book series: RILEM State-of-the-Art Reports (RILEM State Art Reports, volume 10)

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Table of contents (17 chapters)

  1. Front Matter

    Pages i-xvi
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  2. Mechanisms of Degradation of Cementitious Materials in Aggressive Aqueous Environments

    1. Front Matter

      Pages 1-1
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    2. General Introduction to Part I

      • Alexandra Bertron
      Pages 3-6

    3. Sulfate Attack of Concrete

      • Esperanza Menéndez, Thomas Matschei, Fredrik P. Glasser
      Pages 7-74

    4. Magnesium Attack of Cementitious Materials in Marine Environments

      • Manu Santhanam
      Pages 75-90

    5. Leaching of Cementitious Materials by Pure Water and Strong Acids (HCl and HNO3)

      • Josée Duchesne, Alexandra Bertron
      Pages 91-112

    6. Ammonium Nitrate Attack on Cementitious Materials

      • Gilles Escadeillas
      Pages 113-130

    7. Attack of Cementitious Materials by Organic Acids in Agricultural and Agrofood Effluents

      • Alexandra Bertron, Josée Duchesne
      Pages 131-173

  3. Modeling Degradation of Cementitious Materials in Aggressive Aqueous Environments

    1. Front Matter

      Pages 175-175
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    2. Modeling Degradation of Cementitious Materials in Aggressive Aqueous Environments

      • Patrick Le Bescop, Barbara Lothenbach, Eric Samson, Kenneth A. Snyder
      Pages 177-218

  4. Methods for Testing Concrete Degradation in Aggressive Aqueous Environments

    1. Front Matter

      Pages 219-219
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    2. General Considerations

      • Nele De Belie
      Pages 221-234

    3. Tests for Leaching and Degradation in Soft or Carbonated Waters

      • Marta Castellote
      Pages 235-250

    4. Test Methods for Resistance of Concrete to Sulfate Attack – A Critical Review

      • Kim Van Tittelboom, Nele De Belie, R. Doug Hooton
      Pages 251-288

    5. Testing for Degradation by Inorganic Acids

      • Mark G. Alexander, Nele De Belie
      Pages 289-303

    6. Bacteriogenic Sulfuric Acid Attack of Cementitious Materials in Sewage Systems

      • Karen Scrivener, Nele De Belie
      Pages 305-318

    7. Test Methods for Chloride Transport in Concrete

      • Qiang Yuan, Manu Santhanam
      Pages 319-343

    8. Test Methods for Magnesium Attack

      • Manu Santhanam
      Pages 345-354

    9. Methods for Testing Cementitious Materials Exposed to Organic Acids

      • Alexandra Bertron
      Pages 355-387

  5. Cementitious Materials Performance in Aggressive Aqueous Environments – Engineering Perspectives

    1. Front Matter

      Pages 389-389
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Keywords

About this book

Concrete and cement-based materials must operate in increasingly aggressive aqueous environments, which may be either natural or industrial.  These materials may suffer degradation in which ion addition and/or ion exchange reactions occur, leading to a breakdown of the matrix microstructure and consequent weakening.  Sometimes this degradation can be extremely rapid and serious such as in acidic environments, while in other cases degradation occurs over long periods.  Consequences of material failure are usually severe – adversely affecting the health and well-being of human communities and disturbing ecological balances. There are also large direct costs of maintaining and replacing deteriorated infrastructure and indirect costs from loss of production during maintenance work, which place a great burden on society.

The focus of this book is on addressing issues concerning performance of cement-based materials in aggressive aqueous environments , by way of this State-of-the-Art Report. The book represents the work of many well-known and respected authors who contributed chapters or parts of chapters. Four main themes were addressed: I. Nature and kinetics of degradation and deterioration mechanisms of cement-based materials in aggressive aqueous environments, II. Modelling of deterioration in such environments, III. Test methods to assess performance of cement-based materials in such environments, and which can be used to characterise and rate relative performance and inform long term predictions, IV. Engineering implications and consequences of deterioration in aggressive aqueous environments, and engineering approaches to the problem.

Editors and Affiliations

  • Department of Civil Engineering, University of Cape Town, Rondebosch, South Africa

    Mark Alexander

  • LMDC, INSA/UPS Génie Civil, Toulouse Cedex 4, France

    Alexandra Bertron

  • Department of Structural Engineering, Ghent University, Ghent, Belgium

    Nele De Belie

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