Global ETD Search

231	Automatic Liver and Tumor Segmentation from CT Scan Images using Gabor Feature and Machine Learning Algorithms Shrestha, Ujjwal 19 December 2018 (has links) No description available. Computer Science
232	Towards Mixed Molecular Layers for Dye-Sensitized Solar Cells : A Photoelectron Spectroscopy Study Oscarsson, Johan January 2016 (has links) The increasing demand for renewable energy has led to substantial research on different solar cell technologies. The dye-sensitized solar cell (DSC) is a technology utilizing dye molecules for light absorption. Dye molecules are adsorbed to a mesoporous semiconductor surface and after light absorption in the dye, charge separation occurs at this interface. Traditionally, DSCs have used layers of single dye species, but in recent efforts to enhance power conversion efficiency, more complex molecular layers have been designed to increase the light absorption. For example, the most efficient DSCs use a combination of two dye molecules, and such dye co-adsorption is studied in this thesis. A key to highly efficient DSCs is to understand the dye/semiconductor interface from a molecular perspective. One way of gaining this understanding is by using an element specific, surface sensitive technique, such as photoelectron spectroscopy (PES). In this thesis, PES is used to understand new complex dye/semiconductor interfaces. Dyes adsorbed to semiconductor surfaces are analyzed using PES in terms of geometric and electronic surface structure. The investigations ultimately target the effects of co-adsorbing dyes with other dyes or co-adsorbents. PES shows that Ru dyes can adsorb in mixed configurations to TiO2. Co-adsorption with an organic dye affects the configuration of the Ru dyes. As a consequence, shifts in energy level alignment and increased dye coverage are observed. The dyes are affected at a molecular level in ways beneficial for solar cell performance. This is called collaborative sensitization and is also observed in todays most efficient DSC. Dye molecules are generally sensitive to high temperatures and the substantial decrease in power conversion efficiency after heat-treatment can be understood using PES. Furthermore, comparing two mesoscopic TiO2 morphologies used in DSCs show differences in trap state density in the band gap, explaining the photovoltage difference in DSCs comprising these morphologies. Using mixed molecular layers on NiO results in significant improvements of p-type DSC power conversion efficiency. PES shows that changed adsorption configuration contribute to this effect. This thesis shows that PES studies can be used to obtain insight into functional properties of complex DSC interfaces at a molecular level. dye-sensitized solar cell DSC mesoscopic solar cell photoelectron spectroscopy PES XPS interface TiO2 NiO co-adsorption co-adsorbent collaborative sensitization mixed molecular layers
233	Etapas críticas na liofilização do pericárdio bovino / Critical steps during bovine pericardium freeze-drying Virgilio Tattini Junior 02 September 2008 (has links) Em um sistema biológico, a água é responsável por inúmeras reações metabólicas, assim como pela estabilidade estrutural dos constituintes celulares do material. A liofilização é um processo de secagem comumente utilizado para a conservação de materiais biológicos. Entretanto, devido a complexidade do processo e às mudanças térmicas aplicadas ao material, se as etapas da liofilização não forem bem conduzidas, poderão ocorrer danos estruturais irreversíveis. Este projeto tem como objetivo determinar as etapas críticas na liofilização do pericárdio bovino. Através das técnicas de caracterização térmica por calorimetria exploratória diferencial (DSC) e microscopia óptica acoplada a liofilização (FDM) determinaram-se as principais transições de fases do pericárdio bovino visando o aprimoramento do processo e a qualidade final do produto. Após a liofilização do material, utilizando-se diferentes protocolos de congelamento, concluiu-se que o pericárdio bovino apresenta suporte físico suficiente para ser liofilizado acima da temperatura de transição vítrea sem apresentar sinais de colapso estrutural. O protocolo de liofilização utilizando-se congelamento lento com o emprego do tratamento térmico apresentou os melhores resultados de umidade residual, tempo de liofilização e manutenção da estrutura conformacional do colágeno. / In biological system, water is responsible for many metabolic reactions as well as for structural stability of the material cellular constituents. Freeze-drying or lyophilization is a drying technique commonly used for the preservation of biological materials. However, given to the process complexity and to the thermal changes applied to the material, if all freeze-drying steps are not well determined and controlled, irreversible structural damages on the material may occur. The aim of this project is to determine the critical steps on the bovine pericardium tissue freeze-drying. Through two different thermal analysis techniques, Differential Thermal Analysis (DSC) and Freeze-drying microcopy (FDM), it was determined the main phase transitions of bovine pericardium to optimize the freeze-drying process and the quality of dried product. After freeze-drying under different freezing protocols it was concluded that bovine pericardium showed enough physical support to be dried above the glass transition temperature without showing any signs of structural collapse. The freeze-drying protocol using slow freezing rate and annealing showed the best results regarding residual moisture content, freeze-drying time and maintenance of the collagen conformational structure. Bioprótese Espectroscopia Raman Liofilização Microscopia Pericárdio bovino Tecidos biológicos Biological tissues Bovine pericardium Differential scanning calorimetry Freeze-drying Microscopy Raman spectroscopy
234	Etapas críticas na liofilização do pericárdio bovino / Critical steps during bovine pericardium freeze-drying Tattini Junior, Virgilio 02 September 2008 (has links) Em um sistema biológico, a água é responsável por inúmeras reações metabólicas, assim como pela estabilidade estrutural dos constituintes celulares do material. A liofilização é um processo de secagem comumente utilizado para a conservação de materiais biológicos. Entretanto, devido a complexidade do processo e às mudanças térmicas aplicadas ao material, se as etapas da liofilização não forem bem conduzidas, poderão ocorrer danos estruturais irreversíveis. Este projeto tem como objetivo determinar as etapas críticas na liofilização do pericárdio bovino. Através das técnicas de caracterização térmica por calorimetria exploratória diferencial (DSC) e microscopia óptica acoplada a liofilização (FDM) determinaram-se as principais transições de fases do pericárdio bovino visando o aprimoramento do processo e a qualidade final do produto. Após a liofilização do material, utilizando-se diferentes protocolos de congelamento, concluiu-se que o pericárdio bovino apresenta suporte físico suficiente para ser liofilizado acima da temperatura de transição vítrea sem apresentar sinais de colapso estrutural. O protocolo de liofilização utilizando-se congelamento lento com o emprego do tratamento térmico apresentou os melhores resultados de umidade residual, tempo de liofilização e manutenção da estrutura conformacional do colágeno. / In biological system, water is responsible for many metabolic reactions as well as for structural stability of the material cellular constituents. Freeze-drying or lyophilization is a drying technique commonly used for the preservation of biological materials. However, given to the process complexity and to the thermal changes applied to the material, if all freeze-drying steps are not well determined and controlled, irreversible structural damages on the material may occur. The aim of this project is to determine the critical steps on the bovine pericardium tissue freeze-drying. Through two different thermal analysis techniques, Differential Thermal Analysis (DSC) and Freeze-drying microcopy (FDM), it was determined the main phase transitions of bovine pericardium to optimize the freeze-drying process and the quality of dried product. After freeze-drying under different freezing protocols it was concluded that bovine pericardium showed enough physical support to be dried above the glass transition temperature without showing any signs of structural collapse. The freeze-drying protocol using slow freezing rate and annealing showed the best results regarding residual moisture content, freeze-drying time and maintenance of the collagen conformational structure. Biological tissues Bioprótese Bovine pericardium Differential scanning calorimetry Espectroscopia Raman Freeze-drying Liofilização Microscopia Microscopy Pericárdio bovino Raman spectroscopy Tecidos biológicos
235	Experimental study on Temperature regulating bi-component fibres containing paraffin wax in the core Tajul Islam Mollah, Mohammad January 2010 (has links) Putting on or taking off clothes helps the body to stay within the comfortable temperature range (toavoid shivering or sweating) at different activity levels and ambient conditions. Clothes with built-inthermo-regulating properties would mean maintained comfort without putting on or taking off clothesthat frequently. Integration of phase change materials (PCMs) in clothes is one way of achievingthermo-regulating properties. When the body temperature goes up, the PCM melts and absorbs theheat from the body in the form of latent heat (cooling effect). When the temperature drops, the PCMcrystallizes and the stored heat is released again (warming effect).Research on thermo regulating fibres of the bi-component type containing PCM in the core has beenconducted at Swerea IVF in Mölndal, Sweden, for some time. It has been found that high molecularweight HDPE is a suitable viscosity modifier for hydrocarbon waxes used as PCM. The preparation ofcore materials has so far been done in a batch wise fashion in the way that molten wax has beensoaked into pelletized HDPE at around 180°C during prolonged times followed by melt compoundingin a Brabender batch kneader (0.3 kg per batch). Besides being very impractical for larger productionvolumes the method involves long residence times at high temperatures which may induce thermaldegradation reactions. The objective of the present diploma (master’s thesis) work was to develop acontinuous mixing method to produce PCM/HDPE blends and to test the resulting material in bicomponentfibers with a Nylon (PA6) sheath and to characterize the resulting fiber properties in termsof strength and latent heat.It was proven possible to compound HDPE with large amounts (70%) of octadecane (PCM) on aBrabender twin screw extruder. HDPE was metered to the extruder hoper by means of a screw feederand wax was continuously fed to the hoper in the liquid state by means of a heated membrane pump.To facilitate mixing HDPE in form of powder instead of pellets was used. The extruded threads weresolidified in a water bath followed by granulation. Bi-component fibers were successfully producedfrom such materials. Fibers containing 15 to 42% Octadecane were produced showing heat of fusionsin the range 26 to 86 J/g and tenacities in the range 33 to 16 cN/tex. The heat of fusion of the fiberscompares favorable with existing commercial products showing values in the range 5-15 J/g (acrylicand cellulosic fibres containing microencapsulated hydrocarbon waxes). The peak melting point ofoctadecane measured by DSC was found to be depressed some 4-5°C in the fibers compared to pureoctadecane (28°C). Such a melting point depression is important to consider when choosing type ofhydrocarbon wax. / Program: Magisterutbildning i textilteknologi phase change material polymer compounding thermo regulating property bi component fibre core sheath ratio melt spinning polymer rheology dsc vibrodyn Engineering and Technology Teknik och teknologier
236	Caracterização estrutural das matérias-primas de isoniazida e rifampicina Ibiapino, Amanda Laura January 2013 (has links) Orientador: Fabio Furlan Ferreira / Dissertação (mestrado) - Universidade Federal do ABC, Programa de Pós-Graduação em Nanociências e Materiais Avançados, 2013 Tuberculose isoniazida rifampicina DIFRAÇÃO DE RAIOS X Método de Rietveld (MR) Espectroscopia no infravermelho Transformações de Fourier Termogravimetria (TG)
237	Estudo estrutural de compósitos de matriz polimérica reforçados com fibras de juta Almeida, Nuno Miguel Bastos de January 2012 (has links) Tese de Mestrado Integrado. Engenharia Mecânica. Faculdade de Engenharia. Universidade do Porto. 2012 Fibras de juta Fibras de linho Epóxido PLA Materiais compósitos Pré-impregnados Ensaios mecânicos Moldação manual Moldação por compressão a quente TGA DTA DSC MEV Máquina pré-impregnação
238	Etude des corrélations structure-propriétés tinctoriales des fibres d'acide polylactique (PLA) / A study of the correlations structure-coloration properties of poly (lactic acid) fibers Bilal, Mohammad-Bassem 23 September 2010 (has links) Les fibres d'acide polylactique (PLA), issues de ressources agricoles renouvelables, ont suscité à leur apparition un grand intérêt car il s'agit de fibres ayant les avantages des fibres synthétiques. Or très vite des inconvénients sont apparus en particulier lors de leur teinture : elles se saturent très facilement conduisant a des nuances pastel et les solidités aux lavages des teintures sont médiocres. Nous avons vérifié que la cristallinité des fibres de PLA est du même ordre de grandeur que celle du polyester classique (55- au pire 60%). Par contre les traitements aqueux type teinture font croître cette cristallinité, peut-être par hydrolyse des zones amorphes. Mais la teinture est très rapide, ce qui signifierait que les zones amorphes sont à peine orientées ce qui est confirmé par RX (un fond continu vraiment plat) et de ce fait elles ne retiennent pas le colorant. Les isothermes d'adsorption montrent également qu'il n'y a pas d'adsorption mais « solution » puisqu'elles sont de type Nernst et que la fixation de colorant décroît avec la croissance de la température. En plus, à chaque traitement aqueux de la fibre est hydrolysée ce qui entraîne une perte de colorant et une réduction lente des propriétés mécaniques de la fibre. Ce dernier phénomène étant relativement long d'où nous avons formulé une hypothèse que l'hydrolyse des bouts de chaine serait plus rapide que celle des milieux de chaine. / The fibers of poly (lactic acid) (PLA), derived from annually renewable agricultural resources, had a great potential when they were first introduced into the market as they have the advantages of synthetic fibers, as well as they are biodegradable. Some current challenges and limitations associated with these new fibers have constrained their popularity, especially when they were dyed. They easily become saturated leading to pastel shades and their washfastness is poor. We verified that the crystallinity of PLA fibers is comparable to that of conventional polyester (55 - 60% at worst). However, this crystallinity has increased during the wet treatment, especially dyeing, which may be due to the hydrolysis of amorphous regions. Rapid stricke of the dye means that the amorphous regions are barely oriented (hence X-ray background intensity is really flat) and they do not retain the dye molecules.The adsorption isotherms also show that there is no adsorption but it is a "solution" as they are of the Nernst type and the dye fixation decreases with increasing temperature. But each wet treatment leads to a fiber hydrolysis which causes a loss of dye and a slow loss of mechanical properties of the fiber. The latter phenomenon is relatively long leading to a hypothesis that the hydrolysis by side-group elimination would be faster than the degradation of weak points in the macromolecular polymer chains. Teinture de l'acide polylactique Dégradation du polymère Hydrolyse du polymère Changement structurel SAXS WAXS DSC Solution tampon Dyeing of polylactic acid Polymer degradation Hydrolysis of the polymer Structural Change Buffer
239	Interrupted ageing of Al-Mg-Si-Cu alloys Buha, Joka, School of Materials Science & engineering, UNSW January 2005 (has links) This thesis systematically investigates the effects of a recently developed modified ageing procedure of aluminium alloys, termed the T6I6 temper, on the microstructural development and mechanical properties of the Al ??? Mg ??? Si - Cu alloy 6061. For the T6I6 temper, a conventional single stage T6 temper is interrupted by an ageing period at a reduced temperature (65??C) to facilitate secondary precipitation, before resuming the final ageing at the temperature of the initial T6 treatment. The T6I6 temper was found to cause simultaneous increases in tensile properties, hardness, and toughness as compared with 6061 T6. Al ??? Mg ??? Si ??? Cu alloys are medium strength alloys widely used in the automotive industry and their further improvement is underpinned by stringent demands for weight reduction placed on the transportation industry in recent years. The potential for further improvement of the mechanical properties was found in the control of secondary precipitation that may take place even in some fully aged alloys when exposed to reduced temperatures. The overall improvement in the mechanical properties of 6061 T6I6 was attributed to the formation of finer and more densely dispersed precipitates in the final microstructure. The refinement of precipitates was facilitated by control of the precipitation processes and gradual evolution of the microstructure throughout each stage of the T6I6 treatment. The results indicated that the concentration and the chemical environment of the vacancies controlled the precipitation processes in this alloy. Findings also show that the proportion of the different precipitate phases present in the final microstructure, as well as the amount of the solute in these precipitates, can be controlled and modified utilizing secondary precipitation. A number of analytical techniques were used in this study. The evolution of the microstructure was studied using Transmission Electron Microscopy (TEM), High Resolution TEM (HRTEM) and Three Dimensional Atom Probe (3DAP). Vacancy-solute interactions were studied using Positron Annihilation Lifetime Spectroscopy (PALS) and 3DAP. The distribution of the solute was studied using 3DAP and Nuclear Magnetic Resonance (NMR). Differential Scanning Calorimetry (DSC) was used to identify precipitation reactions and to determine the stability of vacancy-associated aggregates. aluminium alloys Al-Mg-Si-Cu alloys AA6061 precipitation hardeninig secondary precipitation interrupted ageing T6I6 nanostructural characterisation mechanical properties TEM 3DAP PALS NMR DSC
240	Etude Calorimétrique et Diélectrique de Nanocomposites Silicones Perez, N.A. 27 November 2008 (has links) (PDF) L'objectif de cette étude est d'analyser l'évolution des propriétés calorimétriques et diélectriques d'un élastomère silicone lorsque des nanoparticules de silice (SiOx) y sont incorporées. L'obtention de ces nanocomposites a été réalisée par malaxage mécanique.<br />Les effets de la quantité (de 1 à 10% en poids) des nanoparticules de silice (15 nm de diamètre) sur les températures de transition vitreuse, de cristallisation et de fusion ont été analysés par calorimétrie différentielle à balayage (DSC) de –160°C à 20°C.<br />Ces analyses ont montré que les nanoparticules sont sans effet sur la température de transition vitreuse (–127,5°C). En revanche, la température de cristallisation se décale vers des températures d'autant plus basses que l'ajout de nanoparticules dans la matrice augmente.<br />Les analyses en spectroscopie diélectrique ont été réalisées sur la bande de fréquence [1mHz – 1MHz] et dans la plage de température [–150°C; 160°C]. A basse température les résultats obtenus par DSC ont été confirmés. Les études dans les hautes températures ont permis d'identifier une relaxation de type Maxwell-Wagner-Sillars (MWS) plus importante pour les nanocomposites. Une importante diminution de<br />la conductivité est observée avec l'augmentation de la quantité de nanoparticules incorporée. Ce résultat montre l'intérêt de l'ajout de nanoparticules dans des élastomères silicones pour le renforcement de l'isolation électrique. [PHYS:PHYS] Physics/Physics [SPI:OTHER] Engineering Sciences/Other polymère élastomères silicones PDMS LSR calorimétrie différentielle DSC spectroscopie diélectrique relaxation diélectrique transition vitreuse cristallisation conductivité SiOx nanocomposite nanoparticule

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