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Saturday, May 9, 2020 | History

2 edition of Crystal morphology and surface reactivity studies of calcium hydroxide. found in the catalog.

Crystal morphology and surface reactivity studies of calcium hydroxide.

Adrian Charles Gray

Crystal morphology and surface reactivity studies of calcium hydroxide.

by Adrian Charles Gray

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  • 24 Currently reading

Published by Brunel University in Uxbridge .
Written in English


Edition Notes

ContributionsBrunel University. Department of Chemistry.
The Physical Object
Pagination179p. :
Number of Pages179
ID Numbers
Open LibraryOL14472277M

The presence of alcohol in binary alcohol–water mixtures can affect the precipitation pathways of anhydrous crystalline CaCO3 polymorphs and their morphology. We explored the formation pathways and the effects of several parameters on calcite, vaterite, and aragonite: concentration of simple alcohols, time, and shaking speed, and we derived a multiparameter model for predicting what phase is. The aim of this study was to provide new insight into the evaluation of the effect of the crystallinity, size, and morphology of TiO2-anatase nanoparticles on their acid–base properties at the solid–liquid interface. This was achieved through monitoring the evolution in the surface charge density with the solution acidity and point of zero net proton charge (PZNPC) for a set of anatase.

Calcium hydroxide, a crystal involved in the cycle of calcination and carbonation of calcium oxide, finds several applications from cultural heritage to the dentistry branch or to the construction industry. When excited at nm, Raman spectra of calcium hydroxide show a broad composite band peaked at about cm−1, corresponding to nm. The properties of two-dimensional arrays of micrometre-sized particles are of interest in relation to a wide range of phenomena, including self-organization and phase behaviour in colloid science.

Calcium carbonate is used as a biomaterial for bone reconstruction. 3 For example, Biocoral®, a natural coral exoskeleton which is mainly calcium carbonate, has been used as a bone graft substitute 4. There are three polymorphs of anhydrous calcium carbonate: vaterite, aragonite and calcite, listed here in order of increasing thermodynamic. polyurethane [6,9]. Concrete carbonation is a process in which carbondioxide reacts with calcium hydroxide [10–12] in the cement matrix to form calcium carbonate and water and the reaction stoichiometry is: Ca(OH)2 + CO2!CaCO3 + H2O. There are many reports on the synthesis of hydrophobic calcium carbonate via carbonation route [13].


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Crystal morphology and surface reactivity studies of calcium hydroxide by Adrian Charles Gray Download PDF EPUB FB2

The morphology of the samples varied from octahedral crystals to hexagonal prisms to sheets. The individual morphology depends on the conditions of precipitation, the nature and concentration of the calcium salt(s) and the nature of the precipitation : Adrian Charles Gray. Calcium hydroxide samples, obtained as a precipitate from the mixing of solutions of sodium hydroxide with a variety of calcium salts in the optional presence of ethanol and a silylating agent, have been characterised by the techniques of nitrogen adsorption, water vapour adsorption, thermogravimetric analysis, Fourier-transform infra-red spectroscopy, ultra-violet spectroscopy and electron microscopy.

Abstract. Calcium hydroxide samples, obtained as a precipitate from the mixing of solutions of sodium hydroxide with a variety of calcium salts in the optional presence of ethanol and a silylating agent, have been characterised by the techniques of nitrogen adsorption, water vapour adsorption, thermogravimetric analysis, Fourier-transform infra-red spectroscopy, ultra-violet spectroscopy and.

The reaction of solid calcium hydroxide with liquid or gaseous methanol, ethanol and toluene, and the effect this has on the surface properties of the solid was examined, as well as the modification of crystal habit by the presence of these molecules.

The effect of the presence of acetate or propionate groups on crystal habit was : Charis R. Theocharis, Ioannis Pashalidis, Stephanie L.

Jordan, Adrian C. Gray, David Yeates. This reaction proceeds in a series of steps. At first, dissolution of calcium hydroxide initiates on the crystal surface and Ca2+ ions are released to the capillary pore water.

Meanwhile, CO 2 diffuses trough the open pores of the mortar. This is accompanied by its adsorption and dissolution in the alkaline solution where the CO 2 hydrates to.

Keywords: Nanoparticles; Calcium Hydroxide; Crystal Structure; X-Ray Diffraction; Crystal Morphology. Introduction. Calcium hydroxide (Ca(OH)2), has been largely employed thanks to the well-known carbonation reaction and to the characteristics of the calcium carbonate (CaCO3) ob- tained.

The low solubility and the compatibility between. The calcium hydroxide crystals in slaked lime putty may be further modified upon storage in water for extended time periods, also affecting the working properties and density. The kinetics of calcium hydroxide crystal growth have been examined under reproducible conditions by following the decrease in ionic concentration when metastable supersaturated solutions are inoculated with calcium hydroxide seed crystals.

The growth rate of calcium hydroxide crystals follows an equation first order with respect to degree of supersaturation and is independent of the. Calcium sulfate hemihydrate (CSH) with controlled crystal morphology has attracted broad interests due to its superior physical and chemical properties, as well as excellent biological performance.

In this study, calcium sulfate dehydrate (CSD) was firstly synthesized via the reaction of H 2 SO 4 and Ca(OH) 2 using ethanol as morphology modifier. The prepared CSD was then converted to CSH through a hydrothermal method. This study is focused on improving the reactivity of a CaO sorbent for its use in a reaction-based process for the separation of carbon dioxide (CO2) from flue gas.

The separation process consists of cyclical carbonation (of a metal oxide) and calcination (of the metal carbonate formed) reactions to yield concentrated CO2 from flue gas.

CaO sorbents synthesized from naturally occurring. This report describes a novel way to generate a highly effective hydrophobic cement surface via a carbonation route using sodium stearate. Carbonation reaction was carried out at different temperatures to investigate the hydrophobicity and morphology of the calcium carbonate formed with this process.

With increasing temperatures, the particles changed from irregular shapes to more uniform rod. Introduction. Calcium carbonate is used in various industrial fields as additives to medical supply, food, papers, plastics, printing ink, etc. Calcium carbonate has three polymorphs of calcite, aragonite and vaterite, which have the crystal system of rhombohedral, orthorhombic and hexagonal [1], respectively.

Request PDF | CARBONATION AT THE SURFACE OF CALCIUM HYDROXIDE SOLUTIONS | The aim of this contribution was to give a perception of the reaction.

Multi-technique investigation of calcium hydroxide crystals at the concrete surface E. Gueit1, E. Darque-Ceretti1, P. Tintillier2 & M. Horgnies2 1MINES ParisTech, Center for Material Forming, Sophia Antipolis, France 2Lafarge Centre de Recherche, St Quentin Fallavier, France Abstract The durability and aesthetic qualities of high-performance concrete, which.

Calcite can form scalenohedrons, rhombohedrons, hexagonal prisms, pinacoincs, and combination of these, forming a multitude of crystal shapes [2].

The most common industrial method to produce calcium carbonate is a carbonation of calcium hydroxide slurry. The total surface energies (or surface enthalpies) of calcium oxide and calcium hydroxide were determined by measuring the heats of solution in 2 N nitric acid of calcium oxide and calcium hydroxide having high and low specific surface areas, and by determining the surface areas by the B.E.T.

method, using nitrogen as adsorbate. The molecular area of nitrogen was taken to be Å 2. The morphology of calcium carbonate crystals has been studied at 20ºC during accelerated carbonation using 20% and % volume CO 2 concentrations at ~95% R.H.

for lime pastes. This study demonstrate that the pressure, the temperature and the dissolved quantity of CO2 have significant effect on the average particle size, specific surface area, initial rate of precipitation, and on the morphology of calcium carbonate crystals.

Alcohol dispersions of Ca(OH)2 nanoparticles, the so-called nanolimes, are emerging as an effective conservation material for the consolidation of stone, mortars, and plasters present in old masonry and/or mural paintings.

To better understand how this treatment operates, to optimize its performance and broaden its applications, here we study the nano and microstructural characteristics. In particular, we obtained pure and crystalline magnesium and calcium hydroxide suspensions, showing the typical brucite crystal structure with a hexagonal lamellar morphology and dimensions.

The crystal shape of precipitated calcium carbonate was lamellar when the rate of carbon dioxide was L/min, and the whiteness of modified fly ash reached ISO. The crystal shape of precipitated calcium carbonate was changed from irregular shape to acicular, lamellar, and globular when the concentration of calcium hydroxide was increased.Calcium carbonate has been synthesized by different methods, e.g., by the double diffusion of the calcium salt and carbonate through membrane [1], bubbling of CO 2 through calcium hydroxide .The hydrothermal carbonation of calcium hydroxide (Ca(OH) 2) at high pressure of CO 2 (initial P CO 2 =55 bar) and moderate to high temperature (30 and 90 °C) was used to synthesize fine particles of calcite.

This method allows a high carbonation efficiency (about 95% of Ca(OH) 2 –CaCO 3 conversion), a significant production rate (48 kg/m 3 h) and high purity of product (about 96%).