Search results for "Calcium-silicate-hydrate"

showing 3 items of 3 documents

Experimental study of Si–Al substitution in calcium-silicate-hydrate (C-S-H) prepared under equilibrium conditions.

2009

International audience; C-A-S-H of varying Al/Si and Ca/(Al+Si) ratios have been prepared introducing C-S-H (Ca/Si=0.66 and 0.95) at different weight concentrations in a solution coming from the hydration of tricalcium aluminate (Ca3Al2O6) in water. XRD and EDX (TEM) analyses show that using this typical synthesise procedure, pure C-A-S-H is obtained only for calcium hydroxide concentrations below 4.5 mmol L−1. Otherwise, calcium carboaluminate or strätlingite is also present beside C-A-S-H. The tobermorite-like structure is maintained for C-A-S-H. A kinetic study has shown that the formation of C-A-S-H is a fast reaction, typically less than a few hours. The Ca/(Al+Si) ratio of C-A-S-H mat…

Calcium hydroxideCalcium-silicate-hydrate (C-S-H)Aluminium hydroxide0211 other engineering and technologiesAnalytical chemistryMineralogychemistry.chemical_elementIonic bonding02 engineering and technologyBuilding and ConstructionCalcium021001 nanoscience & nanotechnologyKinetic energychemistry.chemical_compoundChemistrychemistryAluminium021105 building & constructionAluminiumThermodynamic equilibriaGeneral Materials ScienceTricalcium aluminateCalcium silicate hydrate0210 nano-technology
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C-S-H/solution interface: Experimental and Monte Carlo studies

2010

International audience; The surface charge density of C-S-H particles appears to be one of the key parameters for predicting the cohesion strength, understanding the ion retention, the pollutant leakage, and admixture adsorption in hydrated cement pastes. This paper presents a Monte Carlo simulation of the surface-ions interactions that permits the prediction of surface charge density (σ), electrokinetic potential (ζ) and ions adsorption of mineral surfaces in equilibrium with a given electrolyte solution. Simulated results are compared to experimental data obtained by titration, electrokinetic potential measurements and ions uptake in the case of C-S-H suspensions. An excellent agreement i…

Electrokinetic potentialMonte Carlo method0211 other engineering and technologiesAnalytical chemistryThermodynamics02 engineering and technologyElectrolyte[PHYS.PHYS.PHYS-CHEM-PH] Physics [physics]/Physics [physics]/Chemical Physics [physics.chem-ph]Electrokinetic phenomenaAdsorption021105 building & constructionGeneral Materials ScienceSurface chargeSurface charge densityCationChemistryCalcium-silicate-hydrate (C-S-H)Potential Determining IonCharge densityBuilding and Construction021001 nanoscience & nanotechnologyElectrostatics[ PHYS.PHYS.PHYS-CHEM-PH ] Physics [physics]/Physics [physics]/Chemical Physics [physics.chem-ph]Calcium-silicate-hydrate[PHYS.PHYS.PHYS-CHEM-PH]Physics [physics]/Physics [physics]/Chemical Physics [physics.chem-ph]Adsorption0210 nano-technology
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Atomistic modeling of crystal structure of Ca1.67SiHx

2015

The atomic structure of calcium-silicate-hydrate (C-1.67-S-H-x) has been investigated by theoretical methods in order to establish a better insight into its structure. Three models for C-S-H all derived from tobermorite are proposed and a large number of structures were created within each model by making a random distribution of silica oligomers of different size within each structure. These structures were subjected to structural relaxation by geometry optimization and molecular dynamics steps. That resulted in a set of energies within each model. Despite an energy distribution between individual structures within each model, significant energy differences are observed between the three m…

Materials scienceRelaxation (NMR)Structure (category theory)Applied ChemistryTobermoriteBuilding and ConstructionCrystal structureCalcium-Silicate-Hydrate (C-S-H) (B); Crystal Structure (B); Atomistic simulationEnergy minimizationInorganic ChemistryCrystallographyMolecular dynamicsChemical physicsTheoretical chemistryMoleculeGeneral Materials ScienceTheoretical Chemistry
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