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The vibrational spectroscopy of mineralsMartens, Wayde Neil January 2004 (has links)
This thesis focuses on the vibrational spectroscopy of the aragonite and vivianite arsenate minerals (erythrite, annabergite and hörnesite), specifically the assignment of the spectra. The infrared and Raman spectra of cerussite have been assigned according to the vibrational symmetry species. The assignment of satellite bands to 18O isotopes has been discussed with respect to the use of these bands to the quantification of the isotopes. Overtone and combination bands have been assigned according to symmetry species and their corresponding fundamental vibrations. The vibrational spectra of cerussite have been compared with other aragonite group minerals and the differences explained on the basis of differing chemistry and crystal structures of these minerals. The single crystal spectra of natural erythrite has been reported and compared with the synthetic equivalent. The symmetry species of the vibrations have been assigned according to single crystal and factor group considerations. Deuteration experiments have allowed the assignment of water vibrational freque ncies to discrete water molecules in the crystal structure. Differences in the spectra of other vivianite arsenates, namely annabergite and hörnesite, have been explained by consideration of their differing chemistry and crystal structures. A novel approach to the assignment of site occupancy of ions in the erythrite - annabergite solid solution has been reported. This approach has utilised vibrational spectroscopy, in conjunction with careful consideration of the crystal structures of the minerals. It has been shown that in the erythrite - annabergite solid solution Coprefers metal site 2 contrasting nickel which prefers site 1. This study in conjunction with other studies has yielded the trend that the more electronegative metal prefers to occupy site 1, with the least electronegative metal preferring to occupy site 2. Fundamentally this thesis has increased the knowledge base of the spectroscopic properties of the aragonite and the vivianite minerals. The site occupancy of metal ion substitutions in solid solution series of the vivianite group of minerals has been further enhanced, with novel method of studying the site occupancy of ions in solid solutions has been developed. A detailed knowledge and understanding of factor group analysis applied to the study of minerals has been achieved.
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Experimental Investigations And Thermodynamic Modelling Of Selected III-V Semiconductor AlloysJayaganthan, R 11 1900 (has links) (PDF)
No description available.
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Ab initio výpočty křivek rozpustnosti tuhých roztoků / Computational prediction of solubility limits in solid solutionsFikar, Ondřej January 2019 (has links)
This diploma thesis is focused on a theoretical study of the phase stability of solid solutions in selected aluminium and silver alloys. The ab initio calculations were performed using projected augmented waves method and the thermal dependencies of thermodynamic quantities were acquired using phonon calculations. The main focus of this work is the of aluminium-germanium alloy, while the other examined alloys (Al-Pb, Ag-Ge and Ag-Pb) serve the purpose of comparison of the solid solubility prediction and its reliability in systems with different composition. The temperatures, at which the solid solutions become stable, were evaluated using the energy difference between possible states and this evaluation was carried out for different contributions to the total energy. Also the electronic and phonon densities of states were calculated for all pure elements and solid solutions. The temperatures of solubility were compared to the experimental ones provided by the CALPHAD method and the individual contributions to the total energy were determined and depicted. The results obtained in this work tend to underestimate temperatures of solubility of individual solid solutions by hundreds of Kelvin.
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Modelling reactive transport processes in porous mediaShao, Haibing 07 September 2010 (has links)
Reactive transport modelling has wide applications in geosciences. In the field of hydrogeology, it has been utilised to simulate the biogeochemical processes that disperse and degrade contaminants in the aquifer. For geotechnical applications, such as geological CO2 sequestration, the reaction of CO2 with the ambient saline aquifer determines the final success of storage. In a radioactive waste repository, scientists rely on reactive transport models to predict the mobilisation of hazardous radionuclides within space and time.
In this work, the multi-component mass transport code OpenGeoSys, was coupled with two geochemical solvers, the Gibbs Energy Minimization Selektor (GEM) and the Biogeochemical Reaction Network Simulator (BRNS). Both coupled codes were verified against analytical solutions and simulation results from other numerical models. Moreover, the coupling interface was developed for parallel simulation. Test runs showed that the speed-up of reaction part had a very good linearity with number of nodes in the mesh. However, for three dimensional problems with complex geochemical reactions, the model performance was dominated by solving transport equations of mobile chemical components.
OpenGeoSys-BRNS was applied to a two dimensional groundwater remediation problem. Its calculated concentration profiles fitted very well with analytical solutions and numerical results from TBC. The model revealed that natural attenuation of groundwater contaminants is mainly controlled by the mixing of carbon source and electron donor. OpenGeoSys-GEM was employed to investigate the retardation mechanism of radionuclides in the near field of a nuclear waste repository. Radium profiles in an idealised bentonite column was modelled with varying clay/water ratios. When clay content is limited, Ba-Sr-Ra sulfate solid solutions have a very strong retardation effect on the aqueous radium. Nevertheless, when clay mineral is abundant, cation exchange sites also attract Sr and Ba, thus dominates the transport of Ra.
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Towards Macroporous α-Al2O3—Routes, Possibilities and LimitationsCarstens, Simon, Meyer, Ralf, Enke, Dirk 20 April 2023 (has links)
This article combines a systematic literature review on the fabrication of macroporous α-Al2O3 with increased specific surface area with recent results from our group. Publications claiming the fabrication of α-Al2O3 with high specific surface areas (HSSA) are comprehensively assessed and critically reviewed. An account of all major routes towards HSSA α-Al2O3 is given, including hydrothermal methods, pore protection approaches, dopants, anodically oxidized alumina membranes, and sol-gel syntheses. Furthermore, limitations of these routes are disclosed, as thermodynamic calculations suggest that γ-Al2O3 may be the more stable alumina modification for ABET > 175 m2/g. In fact, the highest specific surface area unobjectionably reported to date for α-Al2O3 amounts to 16–24 m2/g and was attained via a sol-gel process. In a second part, we report on some of our own results, including a novel sol-gel synthesis, designated as mutual cross-hydrolysis. Besides, the Mn-assisted α-transition appears to be a promising approach for some alumina materials, whereas pore protection by carbon filling kinetically inhibits the formation of α-Al2O3 seeds. These experimental results are substantiated by attempts to theoretically calculate and predict the specific surface areas of both porous materials and nanopowders.
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Structure of and phase transformations in bulk amorphous (GaSb)â†1â†-â†x(Geâ†2)â†xSapelkin, Andrei V. January 1997 (has links)
No description available.
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Électrolytes solides fluorés pour batteries tout solide à ions F- / Fluoride solid electrolytes for Fluoride Ion BatteryChable, Johann 30 November 2015 (has links)
Ce travail porte sur la synthèse, la mise en forme et la caractérisation desolutions solides de type tysonite RE1-xMxF3-x (RE = La, Sm, Ce et M = Ba, Ca, Sr). Dans unpremier temps, une démarche d’étude rigoureuse est mise en place pour la solution solide ditede référence, La1-xBaxF3-x. Les synthèses menées à l’état solide aboutissent à une maîtrise dela composition chimique et à l'établissement de lois de variations des paramètres structuraux.Une meilleure compréhension de l’influence de la structure sur la mobilité des ions F- estégalement acquise. L’influence du frittage dans l’obtention de bonnes valeurs de conductivitéionique est également à souligner. Dans un second temps, les effets de la nanostructurationpar mécanobroyage sur les propriétés de conductivité sont évalués. L’utilisation de laméthodologie des plans d’expériences mène à la mise au point des réglages optimums debroyage. Il apparaît alors que la synthèse des électrolytes peut être accélérée et mise àl’échelle tout en gardant des valeurs optimales de conductivité. Enfin, la démarche déterminéeest appliquée à d'autres solutions solides de type tysonite et à la recherche du conducteurionique le plus performant. Si les composés issus de la substitution Ce/Sr ou encore Sm/Casemblent les plus prometteurs, la plus grande stabilité chimique de la solution solide La1-xSrxF3-x est le compromis idéal pour l'utiliser comme électrolyte solide lors des mesuresélectrochimiques des batteries. / This work deals with the synthesis, shaping and characterization of RE1-xMxF3-x (RE = La, Sm, Ce et M = Ba, Ca, Sr) tysonite-type solid solutions. In a first part, onemeticulous approach has been set up for La1-xBaxF3-x solid solution, chosen as a reference.The solid-state synthesis of these materials led to a better knowledge of their chemicalcomposition (Vegard’s laws) and of the structure-ionic mobility correlations. The impact ofthe sintering process on the ionic conductivity is also highlighted. In a second part, the effectsof the nanostructuration conducted by ball-milling of the microcrystalline samples areevaluated. The use of the Design of Experiments methodology led to identify the optimummilling conditions. It appears that the synthesis of electrolytes can be sped- and scaled-up,while keeping high ionic conductivity properties. At last, this approach is applied on othertysonite-type solid solutions, to look for the best electrolyte. The Ce/Sr and Sm/Casubstitutions generate very promising ionic conductors but not really (electro)chemicallystable compounds. A compromise has been found with the choice of the La1-xSrxF3-x solidsolution as the FIB electrolyte for the electrochemical performances tests, regarding its higherchemical stability.
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Interdiffusion Studies In Metal Silicon SystemsPrasad, Soma 05 1900 (has links) (PDF)
Metal silicon systems have a wide range of applications, ranging from the use
in electronic industry, as superconductors, protective coatings and as high temperature
structural materials. Mo- and Nb-based silicides have emerged as suitable high
temperature materials and extensive studies are being conducted make it suitable for
various applications. Because of very good strength to density ratio, Nb-based
silicides have attracted maximum attention. This is basically a mixture of Nb solid
solution and Nb5Si3 intermetallic compound. A very small amount of NbCr2 Laves
phase could also be present because of Cr addition. Incorporation of other alloying
elements, which are mainly partitioned to these phases, helps to achieve a property
balance like, high temperature strength, high fracture toughness, high creep and
oxidation resistance.
The knowledge on diffusion parameters is useful to understand many physical
and mechanical properties. In this thesis, diffusion couple technique is used in
different temperature ranges to study the growth kinetics and diffusion of the phases
in an interdiffusion zone in binary silicides, Nb/Si, Mo/Si and V/Si, binary solid
solutions, Nb/Mo, Nb/Ti, Nb/Zr and ternary silicides, Nb-Mo/Si, Nb-Ti/Si, Nb-Zr/Si.
The parabolic growth constant, the integrated diffusion coefficients and the
tracer diffusion coefficients are calculated from the experimental results obtained in
this study and also from the results already available in the literature on the binary
silicides. The activation energy for growth kinetics and the diffusion coefficients are
also calculated to gain knowledge on the diffusion mechanism. The atomic
mechanism of the diffusing species in all the phases of Nb and Mo silicide are
discussed with the help of crystal structure and possible defects present. Also, a
detailed analysis is done on the growth mechanism of the phases in Nb/Si and Mo/Si
systems.
In the Nb/Si system, Si is found to have higher diffusion rate in both the NbSi2
and Nb5Si3 phases. The number of nearest neighbour Si bonds is higher than nearest
neighbour Nb bonds and hence one may predict high concentration of Nb antisites to
be present in the NbSi2 phase. The growth mechanism analysis following the physico
chemical approach explains the absence of the Kirkendall plane in the Nb5Si3 phase
and duplex morphology in the NbSi2 phase in the Nb/Si couple.
In the Mo/Si system, Si diffusion is faster than Mo in all the three phases. In
the MoSi2 phase, Mo is practically immobile due to the absence of vacancies on the
Mo sublattice. Similar defect structure is expected in the Mo5Si3 and Mo3Si phases
also with additional Si antisite defects to assist Si diffusion. The growth mechanism
analysis explains the absence of the Kirkendall plane in the Mo5Si3 and Mo3Si phases and continuous columnar grains in the MoSi2 phase in the Mo/Si couple. In the V/Si system, the activation energy for integrated diffusion coefficient of the VSi2 phase is found to be reasonably lower than the other phases which could happen because of very high concentration of defects, and/or because of contribution from the grain boundary diffusion as it shows the presence of columnar grains. Problems associated with the analysis done in literature are also discussed. A diffusion study is performed in different temperature ranges for the three
binary metallic solid solution systems to determine the interdiffusion coefficients over the entire composition range using the relation developed by Wagner. The change in
activation energy for interdiffusion with composition is also determined. It is found
that activation energy for interdiffusion in Nb/Mo system is much higher than that for
Nb/Ti and Nb/Zr system. Further the impurity diffusion coefficients of the species are
determined and compared with the available data in literature. It is found that the
activation energy for the impurity diffusion of Nb in Ti, Zr and Mo is higher than that
of Ti, Zr and Mo in Nb.
Interdiffusion study is done in the ternary silicides with the aim to examine the role of alloying additions, such as, Ti, Mo and Zr on the growth kinetics and diffusion
behaviour of the phases in the Nb/Si system. The average interdiffusion (or integrated) coefficients are calculated when possible. The reaction and dissociation of the species at the interfaces are considered to understand the growth mechanism of the
phases. An attempt is made to understand the change in diffusion mechanism because
of the presence of third element. It is found that none of the alloying elements
participate in the diffusion process although they do alter the growth kinetics and diffusion rate in both the phases, NbSi2 and Nb5Si3. It is also found that Nb becomes
immobile in the NbSi2 phase in the presence of the alloying elements. Mo reduces the
growth of both the phases while Ti addition does not cause any change in the growth
but affects the diffusivity. Zr addition also reduces growth of the Nb5Si3 phase. It
however complicates the interdiffusion zone in the Nb(Zr)/Si couple, which limits to
qualitative study only.
The Growth and consumption rate of the end members become very significant in many practical applications. Hence, relations for the growth and consumption rate in systems with finite end member thickness is developed
considering single and double phase layer in the interdiffusion zone. Two different
methodologies are used, the diffusion based and the physico-chemical approach to
develop the same relations. We have shown that the diffusion based approach is rather
straightforward; however, the physico-chemical approach is much more versatile than
the other method. It is found that the position of the marker plane becomes vague in
the second stage of the interdiffusion process in such a system, where two phases
grow simultaneously.
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