Materials Science of Concrete: Ion and Mass Transport in Cement-Based Materials

Title: Materials Science of Concrete: Ion and Mass Transport in Cement-Based Materials
Author: Jacques Marchand, James J. Beaudoin, Michael D. A. Thomas, R. Dog Hooton
ISBN: 1574981137 / 9781574981131
Pages: 500
Publisher: The American Ceramic Society
Year: 2001
Availability: Out of Stock

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This special volume presents new information on the transport of ions and/or fluids in concrete pore structure as it relates to the degradation of materials. Recent developments in the field of transport and service life modeling are emphasized. A must-read for materials scientists, chemical and civil engineers, and educators in the field.

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Foreword

Development of Standard Test Methods for Measuring Fluid Penetration and Ion Transport Rates
R.D. Hooton

Environmental and Concrete Aging Effects on Transport
S. Jacobsen

Unsaturated Flow
C. Hall

Isothermal Drying Process in Weakly Permeable Cementitious Materials --- Assessment of Water Permeability
V. Baroghel-Bouny,M. Mainguy, and O. Coussy

Ionic Migration and Its Relation to Diffusion
T. Luping and L. Nilsson

Modeling Ionic Diffusion Mechanisms in Saturated Cement-Based Materials --- An Overview
E. Samson,J. Marchand, and Y. Maltais

Chloride Transference Numbers in Migration Experiments: Nomenclature and Applications
M. Castellote,C. Andrade, and C. Alonso

LMDC Test Method
O. True,J. Olliver, and L. Nilsson

Role of Chemical Binding in Diffusion and Mass Transport
F.P. Glasser

Interaction and Its Effect on Substance Transport in Concrete
L. Nilsson,T. Luping

An A.C. Impedance-Bruggeman Analysis of the Effect of Various Superplasticizers on Interfacial Transition Zone Performance in Mortar
J.J. Beaudoin and G.Xu

Modeling the Service Life of Concrete Exposed to Frost
G. Fagerlund

Service-Life Evaluation of Reinforced Concerete under Coupled Forces and Environmental Actions
K. Maekawa and T. Ishida

Pore-Scale Modeling of Fluid Transport Using Discrete Boltzmann Methods
N. Martys,J. Hagedorn,and J. Devaney

Multiscale Microstructural Modeling to Predict Chloride-Ion Diffusivity for High-Performance Concrete
D. Bentz and E. Garboczi

Influence of Time-Dependent Diffusion on Service-Life Estimates for Reinforce Concrete Exposed to Chlorides
M. Thomas

Predictions of Long-Term Chloride Ingress from Marine Exposure Trials
M. Alexander and J. Mackechnie

Prediction of Reinforcement Corrosion by the Macrocell Technique --- Evaluation of Observations
O. Klinghoffe,L. Mejlbro, and E. Poulson

Design of Rebar Covers in Marine Structures by Probabilistic Modeling Applying Cornell's Reliability Index
L. Mejlbro and E. Poulsen

Probabilistic, Performance-Based Service Life Design of Concrete Structures: Environmental Actions and Response
A. Lindvall

Life-Cycle Cost Modeling for Steel-Reinforced Concrete Structures
N. Berke,A. Aldykiewicz,Jr. M. Hicks, and A. Macdonald

The Effects of Corrosion-Inhibiting Admixtures on Chloride Transport in Concrete
B. Miller and M. Miltenberger

Diffusion of Hydrogen Sulfide in Concrete
A. Idriss,S. Negi,J. Jofriet, and G.Hayward

Index