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The characterisation of stannosilicate glassesSears, Adam J. January 1998 (has links)
No description available.
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Moessbauer spectroscopic studies of tin in glassWilliams, Kyle Fiona Eirwen January 1995 (has links)
No description available.
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Modification of Float Glass Surfaces by Ion ExchangeKarlsson, Stefan January 2012 (has links)
Glass is a common material in each person’s life, e.g. drinking vessels, windows, displays, insulation and optical fibres. By modifying the glass surface it is possible to change the performance of the entire glass object, generally known as Surface Engineering. Ion exchange is a convenient technique to modify the glass surface composition and its properties, e.g. optical, mechanical, electrical and chemical properties, without ruining the surface finish of the glass. This thesis reports the findings of two different research tasks; characterisation of the single-side ion exchange process and the novel properties induced. The characterisation of the ion exchange process was mainly performed by utilising a novel analytical equipment: the Surface Ablation Cell (SAC), allowing continuous removal of the flat glass surface by controlled isotropic dissolution. SAC-AAS has provided concentration vs. depth profiles of float glass ion exchanged with K+, Cu+, Rb+ and Cs+. In addition, SEM-EDX has provided concentration vs. depth profiles of Ag+ ion exchanged samples and validation of a copper concentration vs. depth profile. From the concentration vs. depth profiles, the effective diffusion coefficients and activation energies of the ion exchange processes have been calculated. Depending on the treatment time and treatment temperature, penetration depths in the range of 5-10 μm (Rb+, Cs+), 20-30 μm (K+, Cu+) and 80-100 μm (Ag+) can be readily obtained. The effective diffusion coefficients followed the order Ag+>K+>Cu+>Rb+>Cs+. This is in accordance with the ionic radii for the alkali ions (K+<Rb+<Cs+) but reverse for the noble metal ions (Cu+<Ag+). The glass properties modified by single-side ion exchange have mainly been characterised by UV-VIS spectroscopy and flexural strength measurements. Cu+ and Ag+ ion exchange give rise to surface colouration, Cu+ copper-ruby and Ag+ yellow/amber. The surface-ruby colouration was found to depend on the residual tin ions in the tin-side of the float glass. The flexural strength was studied using the coaxial double ring-test method which also was suitable for holed specimens. The flexural strength of K+ ion exchanged float glass samples was found to substantially increase compared to untreated.
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The Discrimination and Association of Float Glass and The Quantitative Analysis of Liquids from Aerosols and Microdrops using Laser Induced Breakdown SpectroscopyCahoon, Erica M. 10 April 2012 (has links)
Glass is a common form of trace evidence found at many scenes of crimes in the form of small fragments. These glass fragments can transfer to surrounding objects and/or persons and may provide forensic investigators valuable information to link a suspect to the scene of a crime. Since the elemental composition of different glass sources can be very similar, a highly discriminating technique is required to distinguish between fragments that have originated from different sources.
The research presented here demonstrates that Laser Induced Breakdown Spectroscopy (LIBS) is a viable analytical technique for the association and discrimination of glass fragments. The first part of this research describes the optimization of the LIBS experiments including the use of different laser wavelengths to investigate laser-material interaction. The use of a 266 nm excitation laser provided the best analytical figures of merit with minimal damage to the sample. The resulting analytical figures of merit are presented. The second part of this research evaluated the sensitivity of LIBS to associate or discriminate float glass samples originating from the same manufacturing plants and produced at approximately the same time period. Two different sample sets were analyzed ranging in manufacturing dates from days to years apart. Eighteen (18) atomic emission lines corresponding to the elements Sr, K, Fe, Ca, Al, Ba, Na, Mg and Ti, were chosen because of their detection above the method detection limits and for presenting differences between the samples. Ten elemental ratios producing the most discrimination were selected for each set. When all the ratios are combined in a comparison, 99% of the possible pairs were discriminated using the optimized LIBS method generating typical analytical precisions of ~5% RSD.
The final study consisted of the development of a new approach for the use of LIBS as a quantitative analysis of ultra-low volume solution analysis using aerosols and microdrops. Laser induced breakdown spectroscopy demonstrated to be an effective technique for the analysis of as low as 90 pL for microdrop LIBS with 1 pg absolute LOD and 20 µL for aerosol LIBS with an absolute LOD of ~100 fg.
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TWO-DIMENSIONAL HEAT TRANSFER AND THERMAL STRESS ANALYSIS IN THE FLOAT GLASS PROCESSBusuladzic, Ines 08 August 2007 (has links)
No description available.
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Effets de l'irradiation alpha sur les propriétés physico-chimique de verres silicatés : Etude des propriétés mécaniques, structurales et de la durabilité chimique / Effect of alpha radiation on the physical and chemical properties of silicate glassesKarakurt, Gökhan 15 December 2014 (has links)
Cette thèse est dédiée à la compréhension de l’impact des irradiations alpha sur la stabilité mécanique et la durabilité chimique du verre nucléaire. Des irradiations externes aux ions He et aux ions Au ont été réalisées sur le verre SON68 afin de simuler l’effet des particules alpha et des noyaux de reculs. L’effet simultané des deux types de particules a été étudiée avec des irradiations à double faisceau He+Au. Pour comprendre les mécanismes fondamentaux à l'origine des modifications des propriétés physico-chimiques, les irradiations ont également été réalisées sur un verre borosilicaté à 6 oxydes appelé ISG, sur le verre à vitre Planilux et sur la silice vitreuse Spectrosil 2000. Les résultats obtenus révèlent que les deux types d’irradiation ont un impact sur la dureté, le module d’Young réduit et la densité des verres. La structure des échantillons irradiés a été analysée par RMN, Ramanet XPS. L’effet des irradiations sur la durabilité chimique a été mesuré avec des tests de lixiviations en mode statique dans une eau ultra-pure portée à 90°C. Les solutions de lixiviations ont été prélevées à intervalles de temps réguliers puis analysées par ICP-MS. L’altération chimique des échantillons a été caractérisée par la perte de masse normalisée des éléments traceurs B, Li, Si, Mo, Cs relâchés en solution. La couche d’altération a été caractérisée par imagerie MEB et par spectroscopie EDX. / Borosilicate glasses are intended to be used for the long-term confinement of high-level nuclear wastes. Alpha particles from the minor actinides induce modifications of the glass structure which could deteriorate the efficiency of the confinement. External irradiation with 1 MeV He ions and 7 MeV Au ions were performed in the SON68 glass in order to simulate effect of alpha particles and recoils nucleus. Dual beam irradiations composed by He+Au ions were also investigated in order to simulate both effects of those two kind of particles. To understand the fundamental origin in physico-chemical properties, irradiation were also carried out on a 6 oxides borosilicate glass called International Simplified Glass (ISG) and two commercially available glass Planilux and Spectrosil 2000, both from Saint-Gobain. The mechanical properties and chemical durability of each glass were studied as a function of the cumulated dose. Results show that both alpha particles and heavy ions lead to variation in hardness, reduced Young’s modulus and density. Characterization techniques such as Raman, RMN, and XPS spectroscopy were used to analyze structural modifications induced by radiations. Chemical durability of pristine and irradiated glasses was determined by monitoring the release of glass alteration elements B, Li, Si, Mo and Cs. The alteration layer was characterized by SEM imaging and EDX spectroscopy.
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Modely s neostrým rozhraním v teorii směsí / Diffuse interface models in theory of interacting continuaŘehoř, Martin January 2018 (has links)
We study physical systems composed of at least two immiscible fluids occu- pying different regions of space, the so-called phases. Flows of such multi-phase fluids are frequently met in industrial applications which rises the need for their numerical simulations. In particular, the research conducted herein is motivated by the need to model the float glass forming process. The systems of interest are in the present contribution mathematically described in the framework of the so-called diffuse interface models. The thesis consists of two parts. In the modelling part, we first derive standard diffuse interface models and their generalized variants based on the concept of multi-component continuous medium and its careful thermodynamic analysis. We provide a critical assessment of assumptions that lead to different models for a given system. Our newly formulated class of generalized models of Cahn-Hilliard-Navier-Stokes-Fourier (CHNSF) type is applicable in a non-isothermal setting. Each model belonging to that class describes a mixture of separable, heat conducting Newtonian fluids that are either compressible or incompressible. The models capture capillary and thermal effects in thin interfacial regions where the fluids actually mix. In the computational part, we focus on the development of an efficient and robust...
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