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81	Estudo das propriedades de transporte em condutores iônicos vítreos por técnicas de ressonância magnética nuclear / NMR study of the transport properties in vitreous ionic conductors Renata do Prado Lima 21 September 2007 (has links) Este trabalho apresenta um estudo dos mecanismos de transporte iônico nos vidros fluorsilicatos de cádmio e chumbo de composição 40SiO2 40PbF2 20CdF2, e nos vidros boratos contendo LiF de composição 50B2O3 10PbO 40LiF. Estes materiais são importantes pela sua potencial utilização em dispositivos ópticos e eletrólitos sólidos. No vidro borato 50B2O3 10PbO 40LiF o estudo da forma de linha do 7Li mostrou que esta é influenciada tanto por interações dipolares quanto por quadrupolares. O estudo de RMN revelou que há dois F- presentes neste vidro, um deles em vizinhaças de Pb (F- incorporados à rede vítrea substituindo o oxigênio do grupo PbO), e o outro em vizinhanças de Li. A forma de linha de RMN dependente da temperatura para o lítio e para o flúor, e seus tempos de relaxação, exibem as características qualitativas associadas com a alta mobilidade do 7Li e do 19F neste sistema. Este estudo também mostrou que, neste vidro, tanto o Li+ como o F- contribuem para a condutividade medida, sendo que o 7Li é móvel a temperaturas mais baixas (a partir de 250 K), e o 19F começa a se mover em temperaturas mais altas (a partir de 400 K). No vidro 40SiO2 40PbF2 20CdF2, os resultados de RMN mostraram a alta mobilidade do flúor e evidenciaram duas dinâmicas diferentes dos íons flúor. Os dados da relaxação do flúor revelaram um máximo da taxa de relaxação spin-rede abaixo da temperatura de transição vítrea (Tg), indicando que a mobilidade do flúor, neste vidro, é comparável àquelas encontradas em condutores iônicos rápidos / This work presents a study of the ionic transport mechanisms in lead-cadmium fluorosilicate glasses, of composition 40SiO2 40PbF2 20CdF2, and in borate glasses containing LiF, of composition 50B2O3 10PbO 40LiF. These materiais are important due to theirs high potential applicability in optic devices and in solid electrolytes. In the borate glass 50B2O3 10PbO 40LiF, the line shape study of 7Li shows an influence of the dipolar and quadrupolar interactions. The NMR results showed that there are two kinds of F- ions in this glass, one in the Pb vicinity (F- in the glass lattice, in substitution of the PbO oxygen), and the other in the Li vicinity. The NMR line shape depends on the temperature for the 7Li and 19F atoms, and their relaxation times reflect qualitative features related to the high mobility of there nuclei. Also, this study shows that, in this glass, both, 7Li and 19F, play an important role in the electric conductivity. The 7Li is mobile for low temperatures (from 250 K), while the 19F is mobile for high temperatures (from 400 K). In the 40SiO2 40PbF2 20CdF2 glass, the NMR results showed the high mobility of the fluorine ions, indicating two different dynamics of those nuclei. The relaxation data of the 19F presented a spin-lattice relaxation rate maximum below the glass transition temperature (Tg, indicating that the 19F mobility in this glass is comparable to that of rapid ionic conducting glasses Oxifluoretos Ressonância magnética nuclear Transporte iônico Vidros boratos Borate glasses Ionic conduction NMR Oxyfluoride glasses
82	Chemical and physical aspects of Lithium borate fusion Loubser, Magdeleen 29 October 2010 (has links) Fused glass beads as a sample preparation method for X-ray Fluorescence spectroscopy (XRF) were introduced in 1957 by Claisse; it soon became the preferred method to introduce oxide samples to the spectrometer, because heterogeneity, mineralogical and particle size effects are eliminated during the fusion process. Matrix effects are largely reduced by the resulting dilution. With the recent advances in XRF spectrometers, instruments with enhanced generator and temperature stability, improved sensitivity (even for light elements), and effective matrix correction software are available. Consequently, the largest proportion of analytical error results from the sample preparation step. Sampling error will always contribute the largest overall error but that is not the topic of this discussion. After more than 50 years of fused bead use in XRF analysis, certain matrices remain problematic. Although many fusion methods for chromite-, sulphide- and cassiterite-rich materials have been published, easily reproduced, routine methods for these still elude analytical chemists. Lengthy fusions at temperatures higher than 1100ºC are often prescribed for refractory materials and ores, and until recently one of the biggest challenges was a metal-bearing sample e.g. contained in slags or certain refractory materials. This study was conducted to identify and elucidate the reactions occurring in the formation of a lithium borate glass, but also between the lithium borate and oxides during glass formation. Different analytical techniques were used to investigate the reactions occurring during the fusion process based on theoretical glass-making principles. As a starting point, Thermo Gravimetric Analysis (TGA) and Differential Thermal Analysis (DTA) were used jointly to evaluate the reactions occurring during the fusion of lithium borate glasses, and at a later stage, oxide/flux mixtures. When a different TGA instrument was used, Differential Scanning Calorimetry (DSC) was used in conjunction with the TGA. Observed reactions were modelled in a muffle furnace to produce identical material in larger quantities, and this material was then investigated using X-ray Powder Diffractometry (XRD), Raman Spectroscopy and Electron Microprobe Analysis (EPMA). The most enlightening result from the TGA/DSC results was the large mass loss above 1050 ºC. Literature often prescribes prolonged fusions at elevated temperatures for certain fusions, but it was proved beyond reasonable doubt that this practise causes volatilisation of the flux and leads to erroneous analytical results. The next analytical technique applied to the flux and flux/oxide samples was XRD. Where pre-fused fluxes were investigated, the XRD data served as confirmation of the glassy state of the pre-fused flux as a broad humpy scan indicative of an amorphous material was seen in stead of a diffractogram with sharp, well defined peaks. After heating to above the temperature of re-crystallisation, the phases present could be identified from the diffractogram. Provisional results using the in-situ, high temperature stage point towards the possibility of using this technique to great effect to investigate the presence of different phases formed at high temperatures. Flux-oxide mixtures were measured on the high temperature stage and after cooling a new phase was observed indicating that new phases formed during a fusion reaction. As the heating stage is slow-cooled, the chance of crystallisation in the glass is good, providing the possibility for investigating this formation of new phases at elevated temperatures further with a more suitable heating element that will contain the material. Raman spectroscopy was subsequently used to gain information about the bonds within the flux. Pure lithium tetraborate and lithium metaborate fluxes were analysed as well as flux oxide mixtures. The vibrations could not be predicted from first principles as band broadening occurs in glasses that makes theoretical predictions very difficult. The data obtained was compared to similar studies in literature and good agreement was found. In oxide-flux mixtures definite new bands were observed that was not part of the flux or oxide spectrum. EPMA results allowed calculation of the maximum solubilities of an oxide in a specific flux. It was done using Cr2O3 and ZrO2 and compared well with experimental values obtained from literature. The microscope images revealed some new insights into the theory of XRF fusions. It could clearly be seen that dissociation of the minerals in the sample occurred, thus proving that no mineralogical effects exist in a fused glass bead, and it could be observed that the flux oxide mixture devitrify when over saturated. / Dissertation (MSc)--University of Pretoria, 2010. / Chemistry / unrestricted Lithium borate fusion Spectrometer Oxide samples X-ray fluorescence spectroscopy (XRF) UCTD
83	THE STRUCTURE, PHOTOPHYSICS AND MODIFICATION OF FREE BASE PORPHYRINOIDS Ding, Tang 05 October 2006 (has links) No description available. Chemistry, Inorganic Absorption porphyrin corrole crystal structure N-confused porphyrin leadtetrakis(imidazoly)borate
84	Synthesis and Characterization of a New Cyano-substituted Tris(pyrazolyl)borate and its Thallium(I) Complex Som, Bozumeh 01 December 2013 (has links) (PDF) A new cyanoscorpionate - tris(4-cyano-3,5-diphenylpyrazolyl)borate (TpPh2,4CN) has been synthesized and characterized. The thallium complex of this ligand TlTpPh2,4CN has also been prepared and characterized by FT-IR, 1H NMR, and single-crystal X-ray-diffraction. The complex TlTpPh2,4CN crystalized in the monoclinic space group C2/c with unit cell a = 14.6697(10) Å, b = 13.9493(10) Å, c = 19.3347(12) Å, and b= 91.761(2)°. Structural comparison of TlTpPh2,4CN with analogous complexes demonstrated the effects of both steric and electron-withdrawing substituents on coordination geometry and the electronic properties of the metal ion. There were short contacts between the cyano groups and neighboring thallium ions that also indicated the ligand’s potential to form coordination polymers. Cyanoscorpionate X-ray crystal structure Poly(pyrazolyl)borate Chemistry Inorganic Chemistry Polymer Chemistry
85	The Examination of Fiber and Breaker Effects on the Rheological and Settling Rate Characteristics of Hydraulic Fracturing Fluids Ohanian, Nicholas January 2014 (has links) No description available. Chemical Engineering Engineering Environmental Engineering Materials Science Polymers Hydraulic Fracturing Fibers Breakers Guar-Borate Crosslinker
86	Topological Phases, Boson mode, Immiscibility window and Structural Groupings in Ba-Borate and Ba-Borosilicate glasses Holbrook, Chad M. January 2015 (has links) No description available. Electrical Engineering Topological Phases Boson mode Immiscibility window Structural Groupings Barium Borate Glasses Barium Borosilicate Glasses
87	Characterizing the Localized Corrosion of AA7075-T6 and AA2024-T3 by Optical Profilometry Neeley, Alexandra 19 June 2012 (has links) No description available. Materials Science corrosion optical profilometry aluminum alloy topography localized corrosion cathodic corrosion pitting borate accelerated testing
88	Pressureless Densification of Alumina - Titanium Diboride Ceramic Matrix Composites Hunt, Michael Patrick 25 March 2009 (has links) The research focus was to determine diffusion mechanisms responsible for densification behavior of SHS produced Al2O3/TiB2 Ceramic Matrix Composites (CMCs). Previous research has shown SHS produced Al₂O₃/TiB₂ composites exhibited unique microstructural properties that contributed to high strength, fracture toughness, and hardness properties. Pressureless densification of SHS produced Al₂O₃/TiB₂ composites would provide a cost savings because the equipment for pressureless densification is less expensive and less complicated than equipment required for densification with pressure. Models for sintering of CMCs and calculation of Sintering Time Constants (STC) were used to predict the densification behavior of the SHS produced Al2O3/TiB2 composite. The Levin, Dirnfeld, Shwam equation was used to determine the Rate Controlling Diffusion Mechanism (RCDM) and activation energy for sintering. X-Ray Diffraction (XRD) analysis of the as-milled reaction product powder revealed the presence of an aluminum borate (Al₁₈B₄O₃₃) as a third phase, as well as, in pressureless heat treated samples. Based on experimental results and analysis, it seemed possible the Al₁₈B₄O₃₃ compound may have formed by reaction of Al₂O₃ with TiB2 along their interfaces. Aluminum borates have been observed to form Al₁₈B₄O₃₃ (s) + B₂O₃ (l) at temperatures above 1000°C. The RCDM for densification of SHS produced Al₂O₃/TiB₂ was found to be liquid phase diffusion with volume diffusion also likely being active during densification. In addition, Al₁₈B₄O₃₃ seemed to be the preferred compound formed during oxidation. Further research should be performed to control formation of Al₁₈B₄O₃₃; as well as, on the oxidation behavior of the SHS produced Al2O3/TiB2. / Master of Science Aluminum Oxide Titanium Diboride Rate Controlling Diffusion Mechanism SHS Produced Composites Densification Aluminum Borate
89	Instabilité explosive des ondes magneto-élastiques / Explosive instability of magneto-elastic Waves Yevstafyev, Oleksandr 17 June 2011 (has links) Les instabilités paramétriques non linéaires (NL) ont été observées sur les ondes magnéto-élastiques dans le cas d’un couplage de trois quasi-phonons sous pompage électromagnétique. La théorie en prédit une dynamique supercritique explosive, mais limitée expérimentalement par le décalage de fréquence dû aux fortes nonlinéarités. La dynamique supercritique des instabilités paramétriques NL est étudiée dans deux matériaux antiferromagnétiques "plan facile" (AFEP): l’hématite α-Fe2O3 et le borate de fer FeBO3. Ces matériaux possèdent une très grande NL acoustique effective en raison du couplage magnéto-élastique élevé. Les mécanismes de limitation de la dynamique explosive ont été analysés à l'aide de l'approximation anharmonique. La compensation du décalage fréquentiel NL par une modulation de phase singulière du pompage a été proposée et théoriquement vérifiée, puis utilisée pour l’observation expérimentale de la dynamique supercritique explosive des excitations de trois quasi-phonons dans les résonateurs magnéto-élastiques. Les études sur FeBO3 ont été réalisées dans la gamme de température 77 K - 293 K où les paramètres magnéto-élastiques du cristal varient de façon significative. Un modèle fortement non linéaire des excitations de trois quasi-phonons dans les AFEPs a été développé. Les simulations numériques sont en accord avec les résultats expérimentaux. Les études théoriques de couplage de trois ondes magnéto-élastiques progressives ont été effectuées sur la base de modèles théoriques prenant en compte la non-linéarité cubique des cristaux AFEP réels. Les simulations numériques prévoient un comportement explosif et une localisation spatiale des triades générées / Recently discovered nonlinear parametric instabilities occur when nonlinear parameter of a system is modulated. These instabilities were reported on magnetoelastic waves as three quasi-phonon coupling under electromagnetic pumping. Theoretical studies predicted supercritical explosive dynamics of these instabilities. Experimentally such singular behavior is limited by strong nonlinear frequency shift.Presented work studies supercritical dynamics of nonlinear parametric instabilities in two easy plane antiferromagnets (AFEP): hematite α-Fe2O3 and iron borate FeBO3. These materials possess unprecedented effective acoustic nonlinearity due to high magneto-elastic coupling. Limiting mechanisms of explosive dynamics were analyzed with the help of anharmonic approximation. Nonlinear frequency shift compensation via singular pumping field phase modulation was suggested and theoretically approbated. This technique was successfully used for experimental observation and investigation of supercritical explosive dynamics of three quasi-phonon excitations in magnetoelastic resonators. Iron borate studies were performed in the temperature range 77 K – 293 K where magnetoelastic parameters of the crystal vary essentially. Strongly nonlinear model of three quasi-phonon excitations in AFEPs was developed. Numerical simulations of the model showed good agreement with experimental results.Theoretical studies of three travelling magnetoelastic waves coupling are performed on the basis of suggested theoretical models that take into account cubic nonlinearity of real AFEP crystals. Numerical simulations of the models suggest explosive behavior and spatial localization of generated triads Ondes non linéaires Hématite Borate de fer Ondes élastiques Ondes acoustiques Instabilité explosive Couplage trois-phonons Dynamique supercritique Nonlinear waves Hematite Iron borate Elastic waves Acoustic waves Explosive instability Three phonons coupling Supercritical dynamics
90	Magnetic properties and magnetic resonances of single crystals based on iron borate : Experimental studies and modelling / Propriétés magnétiques et résonances magnétiques de monocristaux à base de borate de fer : Études expérimentales et modélisation Seleznyova, Kira 16 December 2016 (has links) La thèse porte sur la synthèse et l'étude des propriétés magnétiques de borates de fer-gallium,FexGa1-xBO3 avec 0 supérieur ou égal à x supérieur ou égal à 1. Ces matériaux sont prometteurs pour les applications; en plus, grâce à la présence, en fonction de x, de différents types d’ordre magnétique, ils sont bien adaptés au traitement de nombreux problèmes du magnétisme des solides.Le borate de fer, FeBO3 est un antiferromagnétique possédant un plan de facile aimantation et un faible ferromagnétisme. Les caractéristiques du borate de fer sont radicalement modifiées par substitution isomorphe fer – gallium diamagnétique.Nous avons mis au point une route de synthèse de monocristaux FexGa1-xBO3 de haute qualité. Comme principales techniques expérimentales, nous avons choisi les résonances magnétiques électronique (RME) et nucléaire (RMN). Selon le contenu du fer, nous avons observé:(i) la résonance antiferromagnétique, (ii) la résonance de clusters magnétiques et (iii) la résonance paramagnétique électronique (RPE). Les différents états magnétiques ont été identifiés et leurs caractéristiques – la température de Néel, le champ de Dzyaloshinskii-Moriya; les paramètres de l’hamiltonien de spin de Fe3+, etc.– ont été déterminées. La coordinence et la symétrie de sites de 11B et 71Ga ont été précisées par RMN à rotation sous l’angle « magique » (MAS). Moyennant la simulation des spectres de RPE et de MAS RMN, à l’aide de codes mis au point ad hoc, les distributions de paramètres dues au désordre local ont été déterminées. L’analyse théorique, tenant compte de contributions du champ cristallin et de l’interaction dipôle-dipôle, permet d’expliquer l’anisotropie magnétocristalline de volume et de surface. / The thesis is concerned with synthesis and studying magnetic properties of iron-galliumborates, FexGa1-xBO3 with [0 supérieur ou égal à x supérieur ou égal à 1]. These materials are promising candidates for applications;besides, occurrence of different types of magnetic ordering, depending on x, makes them suitablefor treating a number of fundamental problems in solid state magnetism.Iron borate, FeBO3 is a two-sublattice easy-plane antiferromagnet with weakferromagnetism. Physical characteristics of iron borate are radically modified by isomorphoussubstitution of a part of iron by diamagnetic gallium.We have started with developing a synthesis route for growing high-quality FexGa1-xBO3single crystals. As main experimental techniques, we have chosen Electron and Nuclear MagneticResonances (EMR, NMR). Depending on iron contents and temperature, we have observed:(i) Antiferromagnetic, (ii) Cluster Magnetic and (iii) Electron Paramagnetic Resonance (EPR).Different magnetic states have been identified and their characteristics: Néel temperature,Dzyaloshinskii-Moriya field; spin Hamiltonian parameters of isolated Fe3+ ion, etc., have beendetermined. Coordination and site symmetry of 11B and 71Ga nuclei have been specified by meansof Magic Angle Spininng (MAS) NMR. Carrying out computer simulations of EPR and MASNMR spectra with laboratory-developed codes, the parameter distributions caused by localdisorder have been determined. Theoretical analysis taking into account crystal field and dipoledipolecontributions allow interpreting volume and surface magnetocrystalline anisotropy of thecrystals. Borate de fer-gallium Synthèse de cristaux Résonance magnétique électronique Résonance magnétique nucléaire Anisotropie magnétocristalline Magnétisme de surface Iron-gallium borate Crystal synthesis Electron magnetic resonance Nuclear magnetic resonance Magnetocrystalline anisotropy Surface magnetism

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