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A study of isostatic framework with application to manipulator designPadmanabhan, Babu 20 October 2005 (has links)
Isostatic frameworks are statically determinate trusses that are self contained (Le. they exist independent of support or foundation). Isostatic frameworks have been widely used as supporting structures, and recently they have been used as the structure for parallel manipulators. These truss-based manipulators could potentially solve the problems facing conventional manipulators and could make the design of high-degree-of-freedom manipulators feasible. The rigorous scientific study of isostatic frameworks and manipulators based on their structure has been limited. Recent developments in the design of large space structures and truss-based manipulators, however, demand rigorous design and mathematical tools. This dissertation provides a general theory for the design of structures based on frameworks and methods to analyze the kinematics of truss-based manipulators.
The objective of the first part of this dissertation is to solve the problems of identification, generation and classification of isostatic frameworks in greater depth than in any past work in this area. Original methods are discussed for the enumeration and generation of isostatic frameworks. The first part also presents an original method to determine the geometry of general frameworks and an improved method to find the forces in their members. The determination of geometry and forces are critical areas in structural design.
The second part of this dissertation presents a case study on one of the candidates for manipulator applications, the double-octahedral manipulator. The kinematic analyses of the double-octahedral manipulator includes methods to perform forward and inverse kinematic analysis, velocity and acceleration analysis, singularity analysis and workspace analysis. The closed-form solution to the inverse analysis presented herein is a major breakthrough in the development of the double-octahedral manipulator. Other analysis, such as velocity and acceleration, singularity, and workspace, depend on the inverse solution. It is believed that these solutions will help narrow the gap between theory and application of truss-based manipulators. The determination of singularities and works paces are application of recent ideas of other researchers. However, original implementations of these ideas have yielded astonishing results. The Jacobian and Hessian matrix presented in this dissertation should help in developing the control scheme for this device. C-Ianguage program codes for several of the methods are also provided. The methods have been tested based on the results obtained from these programs. The position analysis algorithms have also been tested on real hardware. Some of the methods developed here have been successfully employed for simulated and experimental vibration control studies. / Ph. D.
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Élaboration de spinelle MgAl2O4 transparent par frittage naturel et post-HIP pour des applications en protections balistiques / Development of transparent MgAl2O4 spinel by pressureless sintering and post-HIP for ballistic protection applicationsGajdowski, Caroline 03 July 2018 (has links)
Cette étude s’intéresse à l’amélioration et l’allégement des protections balistiques transparentes. L’utilisation conventionnelle de verre assure une haute efficacité face à un projectile, cependant associée à une masse élevée et à une forte épaisseur du blindage. Le remplacement de la face avant par une céramique polycristalline, telle que le spinelle MgAl2O4, assure un gain de performance et une réduction du volume de l’assemblage. L’élaboration de ce matériau requiert la combinaison d’une haute qualité optique dans le domaine du visible et de propriétés mécaniques élevées. Dans ce travail, l’application d’un frittage naturel sous vide d’une poudre commerciale de haute pureté a permis de limiter l’introduction d’impuretés néfastes à la transparence et la croissance granulaire. Une étape supplémentaire de pressage isostatique à chaud s’est montrée nécessaire à l’élimination des pores résiduels et à l’obtention de spinelles transparents de haute qualité optique (80% à 400-800 nm, e = 2 mm, Ø21 mm). Une étude de la microstructure avant et après post-traitement a permis de mettre en relation la taille des grains et des pores avant post-frittage avec la croissance granulaire observée pendant ce traitement. Une optimisation du procédé a ainsi pu être mise en place afin de limiter l’augmentation de la taille des grains et obtenir une microstructure homogène (~ 12 μm). Après un changement des dimensions des échantillons réussi (e = 4 mm, Ø60 mm), différents spinelles à propriétés microstructurales et mécaniques distinctes ont été sélectionnés pour une évaluation en conditions balistiques. / This work focuses on the improvement and the lightening of transparent ballistic armours. The conventional use of glass provides high efficiency against a projectile, however associated with a heavy and thick armour. The replacement of the strike face by a polycrystalline ceramic, such as MgAl2O4 spinel, leads to a performance gain and a decrease of the protection volume. The development of this material requires the combination of a high optical quality in the visible domain and high mechanical properties. In this work, pressureless sintering under vacuum of a high purity commercial powder allowed to minimize the addition of impurities, detrimental to the transparency, and the grain growth phenomenon. An additional step of hot isostatic pressing was necessary to eliminate residual porosity and to obtain transparent spinel with high optical quality (80% at 400-800 nm, t = 2 mm, Ø21 mm). An analysis of the microstructure before and after the post-treatment made it possible to determine the link between the grain and pore sizes before post-sintering and the observed grain growth during this treatment. An optimisation of the process was established in order to restrain the grain size increase, and thus to obtain a homogeneous microstructure (~ 12 μm). After a successful up-scaling of the samples (t = 4 mm, Ø60 mm), several spinel samples with distinctive microstructural and mechanical properties were selected in order to evaluate their performances through ballistic tests.
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Projeto e manufatura de membranas cerâmicas via prensagem isostática para separação de emulsões óleo vegetal/água por microfiltração tangencial / Project and manufacture of ceramic membranes way isostatic pressing and use of sucrose as porogenic agent for separation of vegetable oil/ water emulsions by tangential microfiltrationDelcolle, Roberta 10 June 2010 (has links)
Esta tese descreve o projeto e manufatura de membranas cerâmicas para separação de emulsões óleo/água. A escolha correta do material para a fabricação de membranas é importante para processos cujo desempenho depende da afinidade entre o meio poroso e o fluido. As condições de manufatura são também importantes, pois determinam a morfologia da membrana, que influencia fortemente as propriedades de transporte e conseqüentemente, a eficiência da membrana. Tendo isso em vista, este trabalho teve como objetivo desenvolver membranas cerâmicas tubulares (porosas e densas) por prensagem isostática, aplicáveis em processos de microfiltração para a separação de emulsões óleo-água. Para tanto, foi realizado um controle rigoroso do tamanho e distribuição dos poros através do uso da sacarose como agente porogênico. Suspensões de alumina e zircônia com sacarose de diferentes dimensões foram preparadas. Após esse processo a barbotina foi seca e granulada para obtenção do pó usado na conformação das membranas porosas ou como suporte das membranas densas. Para a manufatura das membranas densas, uma fina camada da suspensão foi depositada no núcleo do molde que foi preenchido com o pó (de alumina ou zircônia) e então submetido à co-prensagem (isostática) para obter simultaneamente o suporte e o filme de zircônia. Posteriormente, as membranas (porosas e densas) sofreram um tratamento térmico (para queima parcial da sacarose) e foram sinterizadas (a 1500°C). As membranas foram caracterizadas por MEV, porosimetria por intrusão de mercúrio, medidas de peso por imersão (para obtenção da porosidade e densidade aparente), ensaios de permeabilidade ao ar e à água. A caracterização morfológica das membranas constatou a formação de membranas porosas de alumina e de zircônia e de membranas densas: uma integral (\'ZR\'\'O IND.2\'/\'ZR\'\'O IND.2\') e outra composta (\'ZR\'\'O IND.2\'/\'AL IND.2\'\'O IND.3\'). A análise de porosimetria por intrusão de mercúrio apresentou tamanho médio de poros de 1,8 \'mü\'m para as membranas porosas e de 0,01-0,03 \'mü\'m e 1,8 \'mü\'m para as membranas densas, respectivamente para camada seletiva e suporte. Todas as membranas obtiveram porosidade total de aproximadamente 50%, que é considerada uma porosidade satisfatória. Os ensaios de permeabilidade ao ar demonstraram que as membranas de zircônia obtiveram maior permeabilidade do que as membranas de alumina. Já os ensaios de permeação de água, na condição de fluxo tangencial, mostraram que as membranas porosas apresentaram maior fluxo transmembrana do que as membranas densas, na mesma velocidade de escoamento. As membranas densas e porosas foram testadas na separação óleo-água e a maioria apresentou bom desempenho no processo de microfiltração e alta rejeição da fase óleo (entre 98 e 99%). Dentre essas membranas, a membrana densa composta (sinterizada a 1400°C) foi a que obteve melhor desempenho, pois apresentou fluxo permeado de aproximadamente 230 L/h.\'M POT.2\' e coeficiente de rejeição médio de 99,77%, os quais são valores desejáveis para a aplicação de membranas em processos industriais. / This thesis describes the project and manufacture of ceramic membranes for separation of oil/water emulsions. The selection of raw material for the manufacture of membranes is fundamental in processes whose performance depends on the affinity between the porous medium and the fluid. The manufacturing conditions are also important as they determine the membrane\'s morphology. Such morphology strongly influences the transport properties hence the membrane\'s performance. In this context, this work aims to develop tubular ceramic membranes (porous and asymmetric) by isostatic pressing which will be applicable to microfiltration processes for the oil-water emulsions separation. For such a purpose, a rigorous control was realized on the distribution and size of pores by use of the sucrose as porogenic agent. Suspensions of zirconia and alumina with sucrose of different dimensions were prepared. After that process, the slurry was dried and granulated to obtain the dust used in the manufacture of the membranes. For the manufacture of the supported zirconia membranes, a thin layer of suspension was deposited onto the nucleus of the mould, which was filled with the dust (of alumina or zirconia) and then, it was subjected to co-pressing (isostatic) to obtain the support and the zirconia top-layer, simultaneously. Next, the porous and supported membranes underwent a thermal treatment (for a partial burning of sucrose) and were sintered (until 1500°C). They were characterized by SEM, porosimetry by mercury intrusion, measurements of weight by immersion (for the determination of the apparent porosity and density) and water and air permeability tests. The morphologic characterization of membranes identified the formation of zirconia and alumina porous membranes, an asymmetric \'ZR\'\'O IND.2\' membrane (zirconia top-layer on the porous zirconia support) and a supported \'ZR\'\'O IND.2\'/\'AL IND.2\'\'O IND.3\' composite membrane. The results of porosimetry analysis by mercury intrusion presented a mean pore size of 1,8 \'mü\'m for the porous membranes and for the other membranes, 0,01-0,03 \'mü\'m and 1,8 \'mü\'m, respectively, for the top-layer and support. All membranes achieved a total porosity of about 50%, which is considered a satisfactory porosity. The air permeability tests showed that the zirconia membranes achieved higher permeability than the alumina membranes. Otherwise, the water permeation tests in cross-flow condition showed that the porous membranes (of alumina and zirconia) presented higher transmembrane flow than the asymmetric \'ZR\'\'O IND.2\' and supported \'ZR\'\'O IND.2\'/\'AL IND.2\'\'O IND.3\' composite membranes in the same flow average velocity. Such membranes were applied to oil-water emulsions separation and the most they presented good performance in the microfiltration process and high rejection of oil phase (between 98 and 99%). Among those membranes, the zirconia supported membrane (sintered until 1400°C) obtained the most performance because it showed transmembrana flow of about 230 L/h.\'M POT.2\' e rejection coefficient of 99,77%, which are appreciable values for the application of membranes in industrial processes.
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Pioneer Settlement in the Mesolithic of Northern SwedenOlofsson, Anders January 2003 (has links)
<p>The aim of the thesis is to cast light on the earliest settlement of northern Sweden. The starting point is lithic artifacts, which have been studied from a technological as well as a more conventional typological perspective (Papers I, II, and IV). Paper III deals primarily with geological and palaeoecological methods and my contribution is mainly confined to the lithic artifacts. The main research objectives are concerned with early postglacial colonization and cultural affiliation mirrored through technological traditions. Another “main thread” is a source-critical discussion regarding dating problems, and the chronological integrity of find contexts. The chronological position of artifact types in the North Swedish Mesolithic is another related problem being discussed.</p><p>The geographical area under investigation comprises northern Sweden sensu largo: Norrland plus the provinces of Värmland and Dalarna. The time period studied is the Mesolithic, with an emphasis on the earliest part, ca. 8500–7500 BP.</p><p>Paper I discusses the Mesolithic in the province of Värmland. There are traits indicating both an affiliation with the Lihult/Nøstvet sphere (for example, Lihult axes and saws/knives of sandstone) as well as other features more common in an eastern/northern context (quartz use, bipolar reduction, and, at least for the final Mesolithic and Neolithic, slate artifacts).</p><p>Paper II aims at elucidating microblade technology in northern Sweden as regards chronological position and cultural context. It was found that microblade production from handle cores (also called wedge-shaped cores) was introduced at about the same time in northern Sweden as in other areas of Scandinavia where these artifacts occur, ca. 8000–7500 BP. The handle core tradition continued until ca. 5500/5000 BP.</p><p>Paper III deals with lake-tilting caused by non-uniform glacio-isostatic uplift. This phenomenon has been used to identify potential areas of Mesolithic occupation in the Arjeplog area, Lapland. Surveys and excavations within the research project "Man, Fire, and Landscape", have significantly increased the number of Mesolithic sites in the area. The investigations have resulted in the discovery of the oldest firmly dated archaeological site in northern Sweden, Dumpokjauratj, in Arjeplog parish, Lapland, with a maximum date of 8630 ± 85 BP.</p><p>Paper IV discusses the pioneering phase of occupation in northern Sweden, in the light of the above-mentioned site of Dumpokjauratj and a site at Garaselet in northern Västerbotten. These are further compared with contemporary sites in surrounding areas of Fennoscandia. The majority of the assemblages are dominated by platform reduction, even if bipolar reduction also occurs at the earliest sites. Slate artifacts found at Dumpokjauratj suggest connections with the Finnish Mesolithic, which is the only cultural context in our region with documented slate use at this early point in time. But there are also traits that do not specifically point towards Finland, e.g. frequent use of fine-grained flint-like materials and porphyry, and (at Dumpokjauratj) a lanceolate microlith made of a microblade of this fine-grained igneous rock. The latter suggests associations with the Scandinavian Mesolithic in general.</p><p>In any event, the early dates from Dumpokjauratj show that interior Lapland was occupied soon after deglaciation, probably within a few hundred years.</p>
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Pioneer Settlement in the Mesolithic of Northern SwedenOlofsson, Anders January 2003 (has links)
The aim of the thesis is to cast light on the earliest settlement of northern Sweden. The starting point is lithic artifacts, which have been studied from a technological as well as a more conventional typological perspective (Papers I, II, and IV). Paper III deals primarily with geological and palaeoecological methods and my contribution is mainly confined to the lithic artifacts. The main research objectives are concerned with early postglacial colonization and cultural affiliation mirrored through technological traditions. Another “main thread” is a source-critical discussion regarding dating problems, and the chronological integrity of find contexts. The chronological position of artifact types in the North Swedish Mesolithic is another related problem being discussed. The geographical area under investigation comprises northern Sweden sensu largo: Norrland plus the provinces of Värmland and Dalarna. The time period studied is the Mesolithic, with an emphasis on the earliest part, ca. 8500–7500 BP. Paper I discusses the Mesolithic in the province of Värmland. There are traits indicating both an affiliation with the Lihult/Nøstvet sphere (for example, Lihult axes and saws/knives of sandstone) as well as other features more common in an eastern/northern context (quartz use, bipolar reduction, and, at least for the final Mesolithic and Neolithic, slate artifacts). Paper II aims at elucidating microblade technology in northern Sweden as regards chronological position and cultural context. It was found that microblade production from handle cores (also called wedge-shaped cores) was introduced at about the same time in northern Sweden as in other areas of Scandinavia where these artifacts occur, ca. 8000–7500 BP. The handle core tradition continued until ca. 5500/5000 BP. Paper III deals with lake-tilting caused by non-uniform glacio-isostatic uplift. This phenomenon has been used to identify potential areas of Mesolithic occupation in the Arjeplog area, Lapland. Surveys and excavations within the research project "Man, Fire, and Landscape", have significantly increased the number of Mesolithic sites in the area. The investigations have resulted in the discovery of the oldest firmly dated archaeological site in northern Sweden, Dumpokjauratj, in Arjeplog parish, Lapland, with a maximum date of 8630 ± 85 BP. Paper IV discusses the pioneering phase of occupation in northern Sweden, in the light of the above-mentioned site of Dumpokjauratj and a site at Garaselet in northern Västerbotten. These are further compared with contemporary sites in surrounding areas of Fennoscandia. The majority of the assemblages are dominated by platform reduction, even if bipolar reduction also occurs at the earliest sites. Slate artifacts found at Dumpokjauratj suggest connections with the Finnish Mesolithic, which is the only cultural context in our region with documented slate use at this early point in time. But there are also traits that do not specifically point towards Finland, e.g. frequent use of fine-grained flint-like materials and porphyry, and (at Dumpokjauratj) a lanceolate microlith made of a microblade of this fine-grained igneous rock. The latter suggests associations with the Scandinavian Mesolithic in general. In any event, the early dates from Dumpokjauratj show that interior Lapland was occupied soon after deglaciation, probably within a few hundred years.
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Densification of nano-sized boron carbideShupe, John 12 January 2009 (has links)
Boron carbide nano-powders, singly-doped over a range of compositions, were
pressurelessly-sintered at identical temperature and atmospheric conditions in a dif-
ferential dilatometer to investigate sintering behavior. Samples that achieved relative
densities greater than 93% of theoretical density were post-HIPed. Post-HIPing re-
sulted in an increase in relative density as well as an increase in Vicker's hardness. To
optimize the sintering behavior, nano-powders with multiple dopants were prepared
based on the results of single dopant experiments. These powders were studied using
the same heating schedule as the single dopant samples. The powder with optimized
composition was selected, and 44.45 mm diameter disks were pressed to determine
the effects of sample size.
Powder composition #166 with Al, Ti, W and Mg additions was processed using
di¢çerent methods in order to create defect-free green bodies after uniaxial press-
ing. The 44.45 mm diameter compacts were heat-treated to remove organics and
B₂O₃coatings on particles and then encapsulated in an evacuated fused silica am-
pule. Encapsulated samples were HIPed at temperatures below the coarsening region
observed in the dilatometric traces of multiply-doped nano-powders. The E-HIPed
sample showed a relative density of 96% with a limited extent of nano-sized grain
microstructure.
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New observations of relative sea level from the Northern Cascadia Subduction Zone: Cordilleran ice sheet history and mantle rheologyBelanger, Kevin Karl 26 April 2013 (has links)
New relative sea-level (RSL) observations dating from the late Pleistocene and early Holocene, during and after the collapse of the Cordilleran ice-sheet (CIS), are provided for two regions in southern coastal British Columbia. They record the glacial isostatic adjustment (GIA) response of the Earth to the changing surface load of the waning CIS. The data provide a new RSL curve for Sechelt, on the mainland coast north of Vancouver, and extend and revise a previously constructed curve for Barkley Sound on the west coast of Vancouver Island. The observations create a new profile of RSL curves oriented southwest-northeast across Vancouver Island and the Strait of Georgia. A previously-defined profile of RSL curves is oriented northwest-southeast profile along the east coast of Vancouver Island. The two profiles intersect in the central Strait of Georgia.
The new RSL curves sample different parts of the Cascadia Subduction Zone (CSZ) and provide constraints on the history of the CIS. The Juan de Fuca plate subducts beneath the North American plate in roughly the same southwest to northeast direction as the RSL profile. GIA modelling of the RSL observations along this profile may indicate spatial variations related to the structure of the Cascadia Subduction Zone (CSZ). The CIS flowed roughly from northeast to southwest over the regions of interest. RSL observations along this path indicate how sea-level change differed with distance from the edge of the ice-sheet towards its centre.
The CIS model of James et al. (2009b) is refined to fit observed sea levels while applying glacial geological constraints to regional ice sheet advance and retreat. Sea level in Barkley Sound dropped from greater than 27 m elevation before 15 cal kyr BP to -46 m below present around 12 cal kyr BP. At Sechelt, sea level closely follows the same trend as in the central Strait of Georgia, dropping from over 150 m before 14 cal kyr BP and falling past present levels after 12.4 cal kyr BP to a poorly constrained lowstand between 12 and 9 cal kyr BP.
The initial crustal uplift rate near Sechelt was at least 85 mm/yr, comparable to that of the central Strait of Georgia. The sea-level observations are best fit with predictions employing an Earth model with a 60-km effective lithosphere thickness and asthenospheric viscosity and thickness of 4 × 1019 Pa s and 380 km, respectively. The transition zone and lower mantle viscosities are based on the VM2 Earth model (Peltier 2002). Sea level in Barkley Sound fell quickly (15-30 mm/yr), and observed sea level is best fit with the same asthenospheric viscosity, but with a thinner 30-km thick lithosphere, consistent with the regional tectonic structure. Revisions to the ice model are consistent with radiocarbon constraints on ice sheet history and provide good agreement with the observed sea-level history for the study regions as well as RSL histories previously described for the Strait of Georgia and southern Vancouver Island. / Graduate / 0372
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Projeto e manufatura de membranas cerâmicas via prensagem isostática para separação de emulsões óleo vegetal/água por microfiltração tangencial / Project and manufacture of ceramic membranes way isostatic pressing and use of sucrose as porogenic agent for separation of vegetable oil/ water emulsions by tangential microfiltrationRoberta Delcolle 10 June 2010 (has links)
Esta tese descreve o projeto e manufatura de membranas cerâmicas para separação de emulsões óleo/água. A escolha correta do material para a fabricação de membranas é importante para processos cujo desempenho depende da afinidade entre o meio poroso e o fluido. As condições de manufatura são também importantes, pois determinam a morfologia da membrana, que influencia fortemente as propriedades de transporte e conseqüentemente, a eficiência da membrana. Tendo isso em vista, este trabalho teve como objetivo desenvolver membranas cerâmicas tubulares (porosas e densas) por prensagem isostática, aplicáveis em processos de microfiltração para a separação de emulsões óleo-água. Para tanto, foi realizado um controle rigoroso do tamanho e distribuição dos poros através do uso da sacarose como agente porogênico. Suspensões de alumina e zircônia com sacarose de diferentes dimensões foram preparadas. Após esse processo a barbotina foi seca e granulada para obtenção do pó usado na conformação das membranas porosas ou como suporte das membranas densas. Para a manufatura das membranas densas, uma fina camada da suspensão foi depositada no núcleo do molde que foi preenchido com o pó (de alumina ou zircônia) e então submetido à co-prensagem (isostática) para obter simultaneamente o suporte e o filme de zircônia. Posteriormente, as membranas (porosas e densas) sofreram um tratamento térmico (para queima parcial da sacarose) e foram sinterizadas (a 1500°C). As membranas foram caracterizadas por MEV, porosimetria por intrusão de mercúrio, medidas de peso por imersão (para obtenção da porosidade e densidade aparente), ensaios de permeabilidade ao ar e à água. A caracterização morfológica das membranas constatou a formação de membranas porosas de alumina e de zircônia e de membranas densas: uma integral (\'ZR\'\'O IND.2\'/\'ZR\'\'O IND.2\') e outra composta (\'ZR\'\'O IND.2\'/\'AL IND.2\'\'O IND.3\'). A análise de porosimetria por intrusão de mercúrio apresentou tamanho médio de poros de 1,8 \'mü\'m para as membranas porosas e de 0,01-0,03 \'mü\'m e 1,8 \'mü\'m para as membranas densas, respectivamente para camada seletiva e suporte. Todas as membranas obtiveram porosidade total de aproximadamente 50%, que é considerada uma porosidade satisfatória. Os ensaios de permeabilidade ao ar demonstraram que as membranas de zircônia obtiveram maior permeabilidade do que as membranas de alumina. Já os ensaios de permeação de água, na condição de fluxo tangencial, mostraram que as membranas porosas apresentaram maior fluxo transmembrana do que as membranas densas, na mesma velocidade de escoamento. As membranas densas e porosas foram testadas na separação óleo-água e a maioria apresentou bom desempenho no processo de microfiltração e alta rejeição da fase óleo (entre 98 e 99%). Dentre essas membranas, a membrana densa composta (sinterizada a 1400°C) foi a que obteve melhor desempenho, pois apresentou fluxo permeado de aproximadamente 230 L/h.\'M POT.2\' e coeficiente de rejeição médio de 99,77%, os quais são valores desejáveis para a aplicação de membranas em processos industriais. / This thesis describes the project and manufacture of ceramic membranes for separation of oil/water emulsions. The selection of raw material for the manufacture of membranes is fundamental in processes whose performance depends on the affinity between the porous medium and the fluid. The manufacturing conditions are also important as they determine the membrane\'s morphology. Such morphology strongly influences the transport properties hence the membrane\'s performance. In this context, this work aims to develop tubular ceramic membranes (porous and asymmetric) by isostatic pressing which will be applicable to microfiltration processes for the oil-water emulsions separation. For such a purpose, a rigorous control was realized on the distribution and size of pores by use of the sucrose as porogenic agent. Suspensions of zirconia and alumina with sucrose of different dimensions were prepared. After that process, the slurry was dried and granulated to obtain the dust used in the manufacture of the membranes. For the manufacture of the supported zirconia membranes, a thin layer of suspension was deposited onto the nucleus of the mould, which was filled with the dust (of alumina or zirconia) and then, it was subjected to co-pressing (isostatic) to obtain the support and the zirconia top-layer, simultaneously. Next, the porous and supported membranes underwent a thermal treatment (for a partial burning of sucrose) and were sintered (until 1500°C). They were characterized by SEM, porosimetry by mercury intrusion, measurements of weight by immersion (for the determination of the apparent porosity and density) and water and air permeability tests. The morphologic characterization of membranes identified the formation of zirconia and alumina porous membranes, an asymmetric \'ZR\'\'O IND.2\' membrane (zirconia top-layer on the porous zirconia support) and a supported \'ZR\'\'O IND.2\'/\'AL IND.2\'\'O IND.3\' composite membrane. The results of porosimetry analysis by mercury intrusion presented a mean pore size of 1,8 \'mü\'m for the porous membranes and for the other membranes, 0,01-0,03 \'mü\'m and 1,8 \'mü\'m, respectively, for the top-layer and support. All membranes achieved a total porosity of about 50%, which is considered a satisfactory porosity. The air permeability tests showed that the zirconia membranes achieved higher permeability than the alumina membranes. Otherwise, the water permeation tests in cross-flow condition showed that the porous membranes (of alumina and zirconia) presented higher transmembrane flow than the asymmetric \'ZR\'\'O IND.2\' and supported \'ZR\'\'O IND.2\'/\'AL IND.2\'\'O IND.3\' composite membranes in the same flow average velocity. Such membranes were applied to oil-water emulsions separation and the most they presented good performance in the microfiltration process and high rejection of oil phase (between 98 and 99%). Among those membranes, the zirconia supported membrane (sintered until 1400°C) obtained the most performance because it showed transmembrana flow of about 230 L/h.\'M POT.2\' e rejection coefficient of 99,77%, which are appreciable values for the application of membranes in industrial processes.
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Slinování pokročilých keramických materiálů / Sintering of advanced ceramic materialsPrůdek, Miloš Unknown Date (has links)
V předložené diplomové práci bylo studováno slinování hexagonálního Al2O3 a kubického MgAl2O4 pomocí slinovacích cyklů složených z beztlakého předslinutí metodou dvojstupňového slinování s následným doslinutím s využitím tlaku (HIPováním). Cílem bylo pokusit se snížit (při zachování vysoké dosažené hustoty) střední velikost zrn a tím zvýšit tvrdost keramiky popř. optickou transparenci. Hlavní úsilí bylo věnováno optimalizaci předslinutí pomocí různých slinovacích cyklů. Přestože bylo vyzkoušeno velké množství různých kombinací teplot a prodlev dvojstupňového slinování, nepodařilo se výrazným způsobem zvýšit výslednou tvrdost vzorků. V případě kubického MgAl2O4 bylo dosaženo hustot blížících se teoretické hustotě, což se projevilo v optické transparentnosti vzorků.
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CFD analyses of the gas flow inside the vessel of a hot isostatic pressÅkerberg, Andreas January 2012 (has links)
Hot isostatic pressing (HIP) is a thermal treatment method that is used to consolidate, densify or bondcomponents and materials. Argon gas is commonly used as the pressure medium and is isostaticallyapplied to the material with an excess pressure of 500-2000 bar and a temperature of 500-2200oC. WithHIP treatment being a well-established technology for the last decades, one is now striving to obtain anincreased understanding of local details in the internal gas flow and heat flux inside the HIP apparatus.The main objective of this work is to assess the potential of using computational fluid dynamics (CFD) asa reliable tool for future HIP development. Two simulations are being performed of which the first one isa steady-state analysis of a phase in the HIP-cycle called sustained state. The second simulation is atransient analysis, aiming to describe the cooling phase in the HIP-cycle. The most suitable modelingapproaches are determined through testing and evaluation of methods, models, discretization schemes andother solver parameters. To validate the sustained state simulation, the solution is compared tomeasurements of operating pressure, heat dissipation rate out through the HIP vessel and localtemperature by the vessel wall. However, no validation of the cooling simulations has been conducted. Asensitivity analysis was also performed, from which it could be established that a mesh refinement ofstrong temperature gradients resulted in an increase of wall heat dissipation rate by 1.8%. Both of thesimulation models have shown to yield satisfactory solutions that are consistent with the reality. With theachieved results, CFD has now been introduced into the HIP field and the presented modeling methodsmay serve as guidelines for future simulations.
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