0000000000082263

AUTHOR

D. Bertrandie

showing 3 related works from this author

Elucidation of reaction process between solid tricalcium silicate and a lanthanum salt solution in connection with the precipitation pH. Extension to…

1993

Abstract Dissolution of tricalcium silicate is strongly accelerated in a La salt solution and releases the amounts of OH, Ca and silicate ions just required to precipitate all of lanthanum at pH 8. It remained to be proved that (1) La silicate hydrate could form at pH 8, and (2) Ca silicate hydrate could not precipitate simultaneously. The plot of silicate hydrate and hydroxide precipitation pH of La, Ca and other elements (Th, Zr) against the dropped volume of K2SiO3 and KOH solution and some physico-chemical characterization methods bring affirmative answers to these questions and allow the immobilization process of La and other elements in the presence of tricalcium silicate to be better…

Precipitation (chemistry)Inorganic chemistrychemistry.chemical_elementGeneral ChemistryCondensed Matter PhysicsSilicatechemistry.chemical_compoundSalt solutionchemistryScientific methodLanthanumHydroxideGeneral Materials ScienceHydrateDissolutionSolid State Ionics
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Importance of the liquid to solid weight ratio in the powdered solid-liquid reactions Example drawn from cement constituent hydration

1997

Abstract It seems justified to wonder if the chemical processes which have been evidenced from diluted stirred suspensions are or are not in accordance with those involved in a stagnant paste. The present paper is aimed at clarifying this question which is in connection with the problem of the so called ‘dormant period’ or ‘induction period’ at the beginning of the hydration of Portland cement.

CementChemistryInduction periodMineralogyGeneral ChemistryCondensed Matter PhysicsSuspension (chemistry)law.inventionPortland cementChemical reaction kineticsChemical engineeringlawSpecific surface areaGeneral Materials ScienceSolid liquidSolid State Ionics
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SHORT-TERM PROCESSES OF RADIONUCLIDE IMMOBILIZATION IN CEMENT - A CHEMICAL APPROACH

1992

Abstract The ions released in solution by the constituents of cement (principally silicate, aluminate, OH and Ca ions) can combine with the anions and cations from nuclear wastes present in the mixing water to give very insoluble compounds that can fix these ions in the concrete matrix. In order to understand some of the particular physico-chemical processes involved in cement hydration in the presence of analogue elements, tricalcium silicate (C 3 S) was used instead of cement, which is too complex a mixture. It was found that the salt of a chemical analogue, a lanthanide salt, showed some accelerating effects when present in dilute amounts but resulted in large accelerating effects on QS …

Cementchemistry.chemical_classificationAluminateInorganic chemistry0211 other engineering and technologiesSalt (chemistry)02 engineering and technology021001 nanoscience & nanotechnologyAlkali metalPollution6. Clean waterSilicatelaw.inventionchemistry.chemical_compoundPortland cement[SPI.GCIV]Engineering Sciences [physics]/Civil EngineeringchemistryGeochemistry and Petrologylaw021105 building & constructionEnvironmental ChemistryHydroxide0210 nano-technologyHydrateNuclear chemistry
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