Jennings / Kropp / Scrivener The Modelling of Microstructure and its Potential for Studying Transport Properties and Durability

Modelling Research for Concrete Engineering.- Modelling and Materials Science of Cement-Based Materials Part I: An Overview.- At What Scale Do Homogeneous Phenomena Become Localized: The Necessary and Sufficient Magnification.- Models for Prediction of Microstructural Development in Cement-Based Materials.- Multiscale Models: A Tool to Describe the Porosity of Cement-Based Materials and to Predict Their Transport Properties.- A Scaling Model of the Microstructural Evolution in C3S/C-S-H Pastes.- Effect of Mineralogy of Fillers on the Cement Hydration.- Application of Digital-Image-Based Models to Microstructure, Transport Properties, and Degradation of Cement-Based Materials.- Modelling and Materials Science of Cement-Based Materials Part II: Recent Developments.- Simulation of Effects of Small Inert Grains on Cement Hydration and Its Contact Surfaces.- Texture and Moisture Characterization of Hardened Cement Pastes and Concretes from Water Vapour Sorption Measurements.- Influence of Silica Fume on the Pore Structure of Mortar When Measured by Water Vapour Sorption Isotherms.- Expert Systems and Database Systems.- Transport Mechanisms in Porous Materials—An Introduction to Their Basic Laws and Correlations.- Relationships Between Transport Properties and Compressive Strength of Concrete.- Effects of Curing on the Gas Permeability of Cover Concrete.- Effect of Ageing on Pore Structure and Permeability of Cementitious Materials.- Permeability and Sorptivity Response of Concretes to Variations in Early-Age Curing—Implications for Durability Specifications.- Correlation Between the Transport Properties of the Transition Zone and Its Mineral Composition and Microstructure.- Modified Microstructure via Chemical Activation of Ferrite and Aluminate Phases in PortlandCement-Based Formulations-Repartition of Crystalline and Noncrystalline Phases vs. Cementitious Properties.- Influence of Environmental Parameters Upon Permeation in Concrete.- Neural Networks for Predicting the Deterioration of Concrete Structures.- Effect of Moisture Content on the Porosity and Transport Parameters of Concrete.- Effect of Moisture in Concrete on Fluid Absorption.- Corrosion Mechanisms of Concrete and Their Relevant Transport Processes.- Durability Design Based on Models for Corrosion Rates.- Prediction of Service Life of New and Existing Concrete Structures — On the Need for Models and Materials Parameters.- Predicting the Service Life of Concrete Exposed to Frost Action Through a Modelling of the Water Absorption Process in the Air-Pore System.- A Numerical Method for Prediction of Chloride Penetration Into Concrete Structures.- Decreasing the Penetration of Organic Liquids Into Concrete by Using Active Additions.