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Table of Contents
Intro
Preface
Organisation
Contents
RILEM Publications
Keynote
Substituting Natural Pozzolan with Artificial Derived from Industrial Perlite Waste for Mortar Production
1 Introduction
2 Experimental
2.1 Testing Raw Materials
2.2 Mortars
2.3 Grouts
3 Conclusions
References
Modelling of Cement-Based Materials
A Benchmarking of Slag Blended Cement Hydration Models
1 Introduction
2 Models
2.1 Brief Overview of Cement Composition
2.2 Ordinary Portland Cement Analytical Models
2.3 Analytical Models for Slag Blended Cement
2.4 Numerical Models for Slag Blended Cement
3 Comparison
3.1 Summary of Models' Characteristics
3.2 Comparison on the Quantity of Consumed and Produced Phases
4 Conclusions
References
Refining Kinetic Models for SCM Reactivity in Blended Cements
1 Introduction
2 Data
3 Kinetic Model
4 Results and Discussion
4.1 Parameterisation of SCM Reaction Kinetics
4.2 Temperature Dependence
4.3 Alkali and Ca(OH)2 Supply
5 Conclusions and Perspectives
References
4 Transport at the Gel Scale: A Mean-Field Approximation
5 Results
5.1 Transport Properties at the Molecular Scale at the Molecular Scale
5.2 Transport Properties at the Molecular Scale at the Gel Scale
6 Conclusions
References
Is Thermal Pressurization in C-S-H Relevant for Concrete Spalling?
1 Introduction
2 Models and Methods
2.1 C-S-H Structure and Force Field
2.2 Simulation Details
2.3 Confining Pressure Computation
3 Results and Discussion
3.1 Confining Pressure
3.2 Water Content
4 Conclusions
References
Preface
Organisation
Contents
RILEM Publications
Keynote
Substituting Natural Pozzolan with Artificial Derived from Industrial Perlite Waste for Mortar Production
1 Introduction
2 Experimental
2.1 Testing Raw Materials
2.2 Mortars
2.3 Grouts
3 Conclusions
References
Modelling of Cement-Based Materials
A Benchmarking of Slag Blended Cement Hydration Models
1 Introduction
2 Models
2.1 Brief Overview of Cement Composition
2.2 Ordinary Portland Cement Analytical Models
2.3 Analytical Models for Slag Blended Cement
2.4 Numerical Models for Slag Blended Cement
3 Comparison
3.1 Summary of Models' Characteristics
3.2 Comparison on the Quantity of Consumed and Produced Phases
4 Conclusions
References
Refining Kinetic Models for SCM Reactivity in Blended Cements
1 Introduction
2 Data
3 Kinetic Model
4 Results and Discussion
4.1 Parameterisation of SCM Reaction Kinetics
4.2 Temperature Dependence
4.3 Alkali and Ca(OH)2 Supply
5 Conclusions and Perspectives
References
4 Transport at the Gel Scale: A Mean-Field Approximation
5 Results
5.1 Transport Properties at the Molecular Scale at the Molecular Scale
5.2 Transport Properties at the Molecular Scale at the Gel Scale
6 Conclusions
References
Is Thermal Pressurization in C-S-H Relevant for Concrete Spalling?
1 Introduction
2 Models and Methods
2.1 C-S-H Structure and Force Field
2.2 Simulation Details
2.3 Confining Pressure Computation
3 Results and Discussion
3.1 Confining Pressure
3.2 Water Content
4 Conclusions
References