Lecture

Kinetics: Main Hydration Peak

Related lectures (32)

Covers isothermal calorimetry, a method to measure heat production rate in materials like cement, discussing its importance and practical applications.

Molecular Dynamics: Cement Materials Simulation

Explores Molecular Dynamics simulations for studying cement materials and diffusion processes, covering algorithms, force fields, data analysis, and recommended resources.

Reaction Kinetics in Cement Hydration

Explores reaction kinetics in cement hydration, including heat release, additives, temperature effects, and gypsum's role in controlling reactions.

Cement Carbonation: Microstructure Impact and Transport Properties

Explores cement carbonation's impact on microstructure and transport properties, emphasizing the need for accurate data validation in predicting carbonation mechanisms.

Classical Transport in Plasmas

Explores classical transport in plasmas, covering random walks, diffusion, and the derivation of diffusion coefficients in different plasma scenarios.

Introduction: Why Portland cement

Explores the reasons behind the widespread use of 'Portland' cement in construction and its environmental impact.

Diffusion in Fluids: Understanding Mass Transport

Covers diffusion, focusing on mass transport in fluids and its mathematical formulation.

Hydration 8: Aluminates

Explores the hydration of aluminates in cement chemistry, focusing on reactions with sulfate ions and the formation of ettringite.

Hydration: Development of Microstructure

Delves into cement hydration, examining microstructure development, phase reactions, heat evolution, hydrate formation, and analytical techniques.

Water Quality Modeling: Kinetics in PHREEQC

Covers the modeling of kinetics in water quality using PHREEQC software, emphasizing the comparison of reaction time scales and the syntax of KINETICS and RATES keywords.

Kinetics: the Filler Effect

Delves into the filler effect in cement hydration, emphasizing the role of supplementary cementitious materials.

Hydration of C-S-H & CH

Discusses the formation and impact of C-S-H and CH phases in cement hydration.

Diffusion: Macroscopic View

Explores diffusion from a macroscopic perspective, emphasizing the derivation of the diffusion equation through mass conservation and fixed flux law.

Cement Hydration: Part 1

Explores cement hydration, including hardening, dissolution of grains, hydrate precipitation, and volume changes.

Heterogeneous Reactions: Transport Effects

Explores transport effects in heterogeneous catalysis, including molecular diffusion and Knudsen diffusion in different types of pores.

Hydration: Overview

Covers the nomenclature of cement components, the process of how cement works, and the phases of real cement.

Thermal Diffusion in Materials

Covers thermal expansion, conductivity, and diffusion in materials, explaining how temperature affects properties and heat transfer.

Diffusion of Neutrons

Covers the solutions of neutron diffusion, including analytical solutions, Laplacian in different geometries, and the physical significance of the diffusion area.

Untitled

MX3 hydration: Kinetics and Mechanisms

Explores MX3 hydration kinetics, sulfate ions, ettringite formation, dissolution theories, and C-S-H growth control.