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An electronic monograph:
MODELING AND MEASURING
 THE STRUCTURE AND PROPERTIES 
OF CEMENT-BASED MATERIALS

Edward J. Garboczi, Dale P. Bentz, Kenneth A. Snyder,
Nicos S. Martys, Paul E. Stutzman,
Chiara F. Ferraris, and Jeffrey W. Bullard

Materials and Construction Research Division
Building and Fire Research Laboratory
100 Bureau Drive Stop 8615
National Institute of Standards and Technology, Gaithersburg, MD 20899-8615 USA

edward.garboczi@nist.gov, dale.bentz@nist.gov, kenneth.snyder@nist.gov,
nicos.martys@nist.gov, paul.stutzman@nist.gov, chiara.ferraris@nist.gov, jeffrey.bullard@nist.gov

Last revised 10-3-08

Approximate size = 4189 pages of text

Maintained by Monyelle Mingo

monyelle.mingo@nist.gov

USEFUL INFORMATION AND ANNOUNCEMENTS

 

Hyperlink to information on fall 2006 with a tribute to Geoffrey Frohnsdorff A Tribute to Dr. Geoffrey Frohnsdorff
Hyperlink to information on 2009 NIST/ACBM Computer Modeling Workshop 2009 ACBM/NIST Computer Modeling Workshop
Hyperlink to information on NIST/industry Virtual Cement and Concrete Testing Laboratory Consortium formation NIST/industry consortium for Virtual Cement and Concrete Testing Laboratory
Hyperlink to Virtual Cement and Concrete Testing Laboratory. Version 1.1 Virtual Cement and Concrete Testing Laboratory. Version 1.1
Hyperlink to available NIST computer models Available modeling programs
Hyperlink to the Partnership for High Performance Concrete Technology web site at NIST HYPERCON: Prediction and Optimization of Concrete Performance
Hyperlink to usage statistics for electronic monograph Usage statistics for monograph
Lecture for CONAGG/CONEXPO 2008 "Virtual Concrete"

Description of monograph       How to use this monograph       Acknowledgements

Search the Monograph

Table of Contents

Hyperlink to recent revisions RECENT REVISIONS

Part I: Cement-based materials

Other NIST authors who have contributed to Part I

1. Introduction

2. Concrete rheology

3. Cement and concrete characterization

4. Microstructure development of
cement paste phases

5. Cement paste percolation, transport,
and elastic properties

6. Mortar and concrete microstructure

7. Transport, elastic, and thermal properties
of mortar and concrete

8. Curing and autogenous shrinkage of concrete

9. Degradation of mortar and concrete

10. Aggregates: Shape and properties

Appendix I-1
Summary of concrete and concrete modeling
for non-cement-based materials researchers


Appendix I-2
   CEMHYD3D: A three-dimensional cement
hydration and microstructure development
modeling package. Version 3.0 (06/05) and Version 2.0 (4/00)


Appendix I-3
   User's Guide to the NIST Virtual Cement and Concrete
Testing Laboratory. Version 1.1 (03/03)

  

Part II: Fire-Resistive Materials

Other NIST authors who have contributed to Part II


1. Microstructure

2. Thermophysical Properties

3. Adhesion Properties


Part III: General random porous materials

Other NIST authors who have contributed to Part III

1. Introduction

2. Finite difference and finite element
programs for random materials

3. Percolation theory

4. Microstructure development and probes

5. Conductivity

6. Fluid flow

7. Elastic properties


Appendix III-1
Digital images of porous materials and computer
modeling: Description of a digital toolkit


Graphic Rule

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