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121	Desenvolvimento de requisitos de desempenho para elastomeros de isoladores da rede de energia eletrica / Development of performance requirements for elastomers insulators of electricity network Noronha, Fabio 15 August 2018 (has links) Orientadores: Lucia Helena Innocentini Mei, Joceli Maria Giacomini Angelini / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Quimica / Made available in DSpace on 2018-08-15T13:39:32Z (GMT). No. of bitstreams: 1 Noronha_Fabio_M.pdf: 6615415 bytes, checksum: f72688fb0000126501c64a7267950cb0 (MD5) Previous issue date: 2010 / Resumo: Atualmente, os materiais utilizados como isoladores elétricos vêm sendo substituídos por materiais poliméricos por apresentarem vantagens em relação aos isoladores cerâmicos. Dentre estas vantagens, podem-se citar maior desempenho, melhor resistência ao vandalismo e menor peso. O objetivo desta dissertação foi o estabelecimento de desenvolver requisitos de desempenho para os Isoladores Poliméricos (EPDM- Monômero Dieno/Etileno/Propileno e Silicone) usados na rede elétrica, através de resultados obtidos em ensaios de envelhecimento natural e artificial, tendo como enfoque as linhas de transmissão de 69 kV e 138 kV. Foi realizado um estudo do estado da arte em Isoladores Poliméricos e do estado atual de aplicação e desempenho dos mesmos em campo. Estudos experimentais foram desenvolvidos em produtos retirados de campo e produtos novos, envelhecidos artificialmente em laboratório, segundo metodologias aplicáveis a polímeros. Em paralelo foram estudadas mantas elastoméricas de Silicone e EPDM para elaboração de critérios comparativos. Através dos resultados obtidos, foram sugeridos alguns requisitos de desempenho que poderão ser utilizados em especificações dos mesmos. Nesta dissertação, são apresentados, principalmente, estes resultados obtidos por meio das técnicas de ensaio de Tensões Elétricas, Rugosidade, Densidade, Dureza, FTIR-Infravermelho com Transformada de Fourier, DSC-Calorimetria Exploratória, DMTA-Análise Térmica Dinâmico Mecânica e Resistência à Tração. Os resultados obtidos mostraram a importância de controle da rugosidade bem como da necessidade de aditivação do polímero com sistema de termo e foto estabilização / Abstract: Currently, the materials used as electrical insulators are being replaced by polymeric materials have advantages as compared to ceramic insulators. Among these advantages, we can cite higher performance, better resistance to vandalism and lower weight. The objective of this thesis was the establishment of developing performance requirements for Polymeric Insulators (EPDM monomer diene / ethylene / propylene and Silicone) used in power systems, through results from trials of natural and artificial aging, focusing on the lines transmission of 69 kV and 138 kV. We conducted a study of the state of the art in Polymeric Insulators and current state of implementation and performance of the same field. Experimental studies have been developed into products removed from the field and new, artificially aged in the laboratory, according to the methods applied to polymers. Were studied in parallel webs of silicone elastomer and EPDM for developing benchmarks. Through the results, suggested some performance requirements that could be used in the same specifications. In this thesis, are presented, mainly, these results obtained by the techniques of test voltages, roughness, density, hardness, FTIR-Fourier Transform Infrared, Scanning Calorimetry-DSC, DMTA Dynamic-Mechanical Thermal Analysis and Tensile Strength . The results showed the importance of controlling the roughness and the need for additives with the polymer system and picture stabilization term / Mestrado / Ciencia e Tecnologia de Materiais / Mestre em Engenharia Química EPDM Compositos polimericos - Deterioração Envelhecimento - Aspectos moleculares Silicones Polímeros - Propriedades elétricas EPDM Polymeric composites - Deterioration Aging - Molecular aspects Silicone Polymers - Electrical properties
122	Modélisation multi-physiques et simulations numériques du moulage par injection mono et bi matières thermoplastique / silicone liquide / Multiphysics modeling and numerical simulation of mono and bi materials injection molding of thermoplastic / liquid silicone Ou, Huibin 02 February 2015 (has links) La famille des élastomères silicones LSR (Liquid Silicone Rubber) de haute technicité est identifiée comme celle possédant les plus forts arguments de développement au cours des prochaines décennies en raison de leurs propriétés spécifiques et de leurs facilités de mise en forme en grande série. Notamment, le moulage par injection du LSR sur d’autres matières telles que les thermoplastiques ou les métaux est aujourd’hui possible, ce qui ouvre la possibilité d’obtenir des composants multi-matières, multi-couleurs et de nouvelles fonctionnalités. Cette thèse se concentre sur la transformation des élastomères silicones LSR dans le but de mieux appréhender les phénomènes impliqués, afin d’améliorer les procédés d’élaboration et d’optimiser les conditions de transformation des composants élastométriques mono ou bi-matières à géométrie et propriété fonctionnelle bien définie. Les comportements rhéologique, cinétique et thermique des élastomères silicones ont été étudiés et caractérisés sous des conditions réelles de mise en œuvre par différentes méthodes associées. Un modèle thermo-rhéo-cinétique a été développé et ensuite implémenté dans un code de calcul de remplissage Cadmould® pour simuler le moulage par injection des élastomères silicones LSR ou encore le surmoulage de thermoplastiques. Pour la validation des modèles choisis et des paramètres identifiés, les essais d’injection sur l’outillage industrielle instrumenté ont été réalisés et confrontés à des résultats numériques obtenus. Enfin, la caractérisation de l’adhésion et l’adhérence interfaciale entre les thermoplastiques et les élastomères silicones a été réalisé sous différentes sollicitations complexes. De plus, l’évolution d’adhérence interfaciale des assemblages collés au cours de la vulcanisation des élastomères silicones a été caractérisée par l’essai de traction en utilisant un rhéomètre rotatif sous différentes modes de chauffage. / The family of high technology silicone elastomers LSR (Liquid Silicone Rubber) is identified as having the strongest arguments for development in the coming decades due to their unique properties and easy forming in large series. In particular, the injection molding of LSR on other materials such as thermoplastics or metals is possible today, which opens the possibility of obtaining multi-material, multi-color and new features components. The work presented in this thesis focuses on the transformation of silicone elastomers in order to better understand the phenomena involved, as to improve production processes and optimize processing conditions for mono or bi-material components in geometry and property functional well defined. The rheological, curing kinetic and thermal behaviors of silicone elastomers have been studied and characterized under real conditions of production by different methods combined. A thermo-rheo-kinetic model was then developed and implemented in commercial computer software Cadmould® to simulate the injection molding process of LSR or the overmolding process of LSR on to thermoplastics. For the validation of the models chosen and the parameters identified, the injection molding tests on industrial instrumented tools were performed and compared to numerical results. Finally, the characterization of interfacial adhesion between the thermoplastic and silicone elastomers was carried out under various adhesion tests. Moreover, the evolution of interfacial adhesion in thermoplastic/silicone components during the vulcanization of silicone elastomers has been characterized by the tensile test using a rotating rheometer in different heating cycles Élastomères silicones Thermoplastiques Rhéologie Vulcanisation Moulage par injection Surmoulage Adhésion interfaciale Silicone elastomers Thermoplastics Rheology Curing kinetic Injection molding Overmolding Interfacial adhesion 679
123	Étude de la spectrométrie de plasma induit par laser pour l’analyse en ligne de liquides / Study of laser-induced breakdown spectroscopy for the on-line analysis of liquid samples Trichard, Florian 04 December 2014 (has links) Le contrôle des procédés représente un enjeu majeur pour les industries chimiques et pétrochimiques afin de garantir la qualité des produits, le contrôle des coûts, le maintien de la productivité et la maîtrise des risques. L'analyse menée directement au coeur des procédés constitue la voie la plus efficace. Cependant, dans la majorité des applications, les analyses élémentaires sont réalisées essentiellement en laboratoire et très rarement en ligne, par la mise en oeuvre de différentes technologies, le plus souvent lourdes et onéreuses. Ce travail de thèse s'inscrit dans le cadre d'un grand projet d'innovation qui couvre le champ de l'analyse élémentaire en ligne, domaine actuellement peu étudié. La technique d'analyse retenue est la spectrométrie LIBS en raison de sa rapidité et de son application à tout état de la matière sans préparation d'échantillon, ce qui lui offre un fort potentiel pour l'analyse en ligne. Cette technique est investiguée afin de réaliser des analyses en ligne d'éléments présents dans des matrices liquides : saumures, huiles silicone et produits pétroliers. L'optimisation des différents paramètres de mesure est réalisée et une approche d'optimisation s'appuyant sur un plan d'expériences est proposée. Différents modes d'échantillonnage de liquide et plusieurs montages LIBS sont étudiés afin de répondre aux problématiques évoquées. Enfin, une transposition au monde industriel est présentée avec le suivi du soufre en ligne dans des produits pétroliers sur un pilote industriel. Les résultats sont encourageants, mais la stabilité perfectible des mesures dans le temps implique d'explorer de nouvelles pistes d'amélioration / Process control is a major challenge for chemical and petrochemical industries so as to ensure product quality, cost control, sustainable productivity and risk management. To do so, carrying out the analysis directly at the core of the process is the most efficient way. However, for most applications, elemental analyzes are mainly performed in the laboratory and rarely on-line, which requires the implementation of different technologies, usually complex and expensive. This work is part of a large innovative project that covers the field of on-line elemental analysis, a research area still understudied to this day. The analytical technique selected here is the Laser Induced Breakdown Spectroscopy. Indeed, its speed and its capability to analyze all states of matter without sample preparation, gives it a great potential for on-line analysis. This technique is investigated in order to achieve on-line analysis of elements contained in various liquid matrices: brines, silicone oils and petroleum products. The optimization of different measurement parameters is performed, including an experimental design based approach. Different liquid sampling configurations and several LIBS setups are designed in order to tackle the issues encountered. Finally, a transposition to the industrial world is presented through on-line monitoring of sulfur in petroleum products on an industrial pilot process. The results are promising, but improving the stability of measurements over time still requires further research LIBS Analyse élémentaire Analyse en ligne Plasma Liquides pétroliers Plan d’expériences Soufre Huiles silicones LIBS Elemental analysis On-line analysis Plasma Petroleum liquids Experimental design Sulfur Silicone oils 543.6
124	Silicone blends for aeronautic applications / Mélanges de silicones pour l'aéronautique Spigolis, Camille 12 April 2018 (has links) Ces travaux de thèse portent sur le développement d’un joint silicone pour la connectique dans l’aéronautique. Ce joint silicone doit être résistant aux solvants ainsi qu’aux huiles susceptibles de rentrer en contact avec celui-ci, et posséder de bonnes propriétés thermiques et mécaniques. Pour ce faire, les paramètres influençant ces propriétés ont été étudiés, comme la composition de la matrice, les conditions de sa réticulation et la formulation via différentes charges. Des matériaux silicones tels que le polydiméthylsiloxane (PDMS) et le polytrifluoropropylméthylsiloxane (PTFPMS) ont été sélectionnés pour composer la matrice. Leur flexibilité, leur large plage de température d’utilisation ainsi que leur excellente résistance aux attaques chimiques en font des matériaux de choix pour ce genre d’application. L’étude des mélanges de PDMS et de PTFPMS a démontré que les proportions idéales sont de 70/30 PDMS/PTFPMS. Le type de mélangeur sélectionné est une calandre bi-rouleaux, dont les rouleaux sont chauffés à 40°C. La réticulation de la matrice a été le sujet d’une étude approfondie. La cinétique de réticulation a été étudiée et l’influence des paramètres de réticulation tels que la température de réticulation, la nature et la quantité de peroxyde sur les propriétés finales ont été discutées. Finalement, l’influence de l’ajout de différentes charges sur le gonflement, la résistance thermique et les propriétés mécaniques de l’élastomère a été étudiée afin d’élaborer la formulation du joint silicone. / Polydimethylsiloxane (PDMS) and polytrifluoropropylmethylsiloxane (PTFPMS) elastomers are popular material in the aeronautic and connector fields. Their flexibility, wide service temperature range and chemical resistance make them first-choice materials for such applications. PTFPMS provides oil and apolar solvent resistance to the final material, while PDMS provides resistance to polar solvents, greater thermal resistance than PTFPMS, and cost reduction. Typically, connector seals comprising PDMS and PTFPMS can be composed of blends of homopolymers, of copolymers or of blends of homopolymers and copolymers. This present work deals only with blends of homopolymers. First, commercial PDMS and PTFPMS bases were selected and characterised, the blending process chosen and the PDMS/PTFPMS ratio tuned so as to minimise swelling in acetone and methylcyclohexane while maximising thermal properties. The optimal blend composition comprised 30 wt% PTFPMS. The second part of this work explored the influence of crosslinking conditions on final properties of the cured PDMS/FS blend. Crosslinking parameters, such as the temperature (160 and 180°C), the nature (DCP and DBPH) and the quantity (0.5 and 1 wt%) of peroxide, were varied. It appeared that co vulcanisation between PDMS and PTFPMS, occurs in certain conditions. Swelling as well is influenced by crosslinking conditions but not thermal properties. Finally, the formulation of the ideal elastomer was developed. Fillers, such as TiO2, CaCO3, quartz, CeO, a pigment, Fe2O3 and a platinum compound, were selected and their influence on thermal, mechanical and swelling properties studied. Regarding thermal and solvent properties, a high loading of fillers is a good strategy, however, an increase of permanent set was observed with the augmentation of filler fraction. Final formulations were selected for the compromise they offered between thermal and swelling properties and mechanical behaviour on the lab scale. Morphology observation revealed well dispersed domains, comparable to that of the non additivated blend. Matériaux Elastomères silicones Fluorosilicone Mélange Réticulation Formulation Gonflement macroscopique Propriétés thermiques Propriétés mécaniques Materials Silicone elastomer Fluorosilicone Blends Crosslinking Formulation Solvent resistance Thermal properties Mechanical properties 620.194 072
125	Composites conducteurs polymères hautement déformables pour la récupération d’énergie houlomotrice / Conductive and highly stretchable polymer composites for wave energy harvesting Iglesias, Sophie 23 April 2018 (has links) Ces travaux de thèse ont porté sur l’élaboration d’électrodes déformables pour la récupération d’énergie houlomotrice. En effet, la conversion de l’énergie mécanique des vagues en électricité est possible via un système entièrement souple et basé sur la technologie des polymères électroactifs (ou EAP). Ces matériaux ont la capacité de se déformer sous stimuli électrique, d’où la nécessité de développer des matériaux conducteurs déformables. Le matériau EAP choisi pour l’étude est un élastomère silicone. La formulation de composites à matrice élastomère silicone chargée en particules conductrices carbonées (graphite, nanofeuillets de graphite et nanotubes de carbone) est ainsi la piste suivie pour composer des électrodes déformables. Deux méthodes de mélange, en voie fondu, ont été explorées. La première utilise un mélangeur planétaire, et la seconde utilise en plus un mélangeur tri-cylindre. L’influence sur les propriétés électriques des composites, de la méthode de mélange, de la nature de la charge conductrice ainsi du taux de charges, a été analysée. Aussi, l’étude de la percolation électrique ainsi que l’étude des mécanismes de conduction mis en jeux dans les différents composites ont été réalisées, et complétées par l’observation de la morphologie en microscopie optique et en microscopie électronique. Le comportement mécanique des composites en traction a également été analysé. Enfin, les propriétés couplées électro-mécaniques des composites les plus prometteurs ont été testées. Les mesures permettent de proposer une formulation à base de nanotubes de carbone comme électrode déformable. / This PhD work presents the development of stretchable electrodes for wave energy harvesting. Indeed, it is possible to convert the mechanical energy of the waves into electricity thanks to a flexible system based on electroactive polymer (EAP) technology. As EAPs have the ability to deform under electrical stimuli, deformable conductive materials are needed. In this study, the chosen EAP is a silicone elastomer. Composites formulated with silicone elastomer matrix filled with carbonaceous conductive particles (graphite, graphite nanoplatelets and carbon nanotubes) were thus developed. Two mixing methods, by melt compounding, have been explored. The first uses a planetary mixer, and the second uses a three roll-mill. The influence of the mixing method, the nature of the fillers and the filler rate on the electrical properties of the composites has been analyzed. The morphology, as well as the percolation and the conduction mechanisms have been studied. The tensile properties of the composites were also analyzed. Finally, the electromechanical coupled properties of the most promising composites were tested, allowing us to propose a formulation as a stretchable electrode. Matériaux Silicones Materiaux composites Electrodes déformables Nanotube de carbone Nanofeulles de graphite Percolation Mécanismes de condut Materials Silicone elastomer Composite Stretchable electrodes Carbon nanotube Graphite nanoplatelets Percolation Conduction mechanisms 620.192 072
126	Estudo experimental comparativo de remendos arteriais de polidimetilsiloxano com reforço de tecido de poliéster (PDMSr) versus politetrafluoretileno expandido (PTFEe) em aorta de coelhos / Patch of polydimethylsiloxane reinforced with polyester fabric for aortic angioplasty in rabbits Sassaki Neto, Paulo Isao 15 October 2014 (has links) Introdução: Apesar de bons resultados descritos na literatura, o substituto ideal para a utilização como remendo no fechamento arterial ainda não existe. Por este motivo, ainda há espaço para a busca por remendo que seja biocompatível, e que apresente facilidade de manuseio e resultados satisfatórios. Avaliamos remendos arteriais de silicone (polidimetilsiloxano com reforço em poliéster - PDMSr) em comparação com remendos arteriais de PTFEe. Objetivo: O objetivo deste trabalho é comparar, em modelo experimental, em coelhos, os resultados de remendos arteriais feitos em PDMSr com remendos de PTFEe. Materiais e Método: A amostra foi definida em 10 animais que completassem todas as etapas da pesquisa em cada grupo. Os animais foram submetidos à laparotomia mediana e abertura longitudinal da aorta de aproximadamente 8mm, realizando-se o seu fechamento com remendo do grupo selecionado, seguido do fechamento por planos. Os animais foram mantidos em biotério até o 60º PO, quando, então, realizou-se arteriografia de controle, e análise macro e microscópica de peça. Resultados: Para se atingir a amostra desejada, foram necessários 12 procedimentos no grupo PDMSr e 16 no grupo PTFEe. Ocorreram 2 óbitos no grupo PDMSr e 6 no grupo PTFEe. Apesar do número maior de óbitos no grupo PTFEe não houve diferença estatística na sobrevida entre os grupos. Um animal do grupo PDMSr apresentou monoparesia em pata posterior direita e um animal do grupo PTFEe apresentou hérnia incisional. Não houve diferença estatística nas complicações entre os grupos. O tempo operatório foi estatisticamente maior no grupo PTFEe quando comparamos todos os animais, fato que não se repetiu quando excluímos os animais que faleceram. O peso e o tempo operatório foram estatisticamente maiores nos animais que morreram. Todos os animais que chegaram ao final do tempo de estudo apresentavam aorta patente. Na análise macroscópica da peça, houve, estatisticamente, maior reação tecidual periprótese no grupo PTFEe. A microscopia eletrônica de varredura evidenciou cobertura de todo o remendo de PDMSr por tecido similar ao endotélio, enquanto, nos remendos de PTFEe, o crescimento limitou-se às bordas da linha de sutura e ilhas isoladas no seu centro. Conclusão: O material estudado apresentou resultados comparáveis ao do PTFEe, porém com menor reação tecidual local e maior proliferação celular para a luz do vaso. Apesar de novos estudos serem necessários, inclusive para avaliação de uso em humanos, o presente estudo apresenta resultados promissores que encorajam a continuidade de sua pesquisa / Introduction: Although good results are reported for various materials for use as patches for arterial closure, as yet none of these is ideal. Therefore, research is continuing into development of a patch that is biocompatible and provides ease of handling, while having satisfactory outcomes. A new silicone arterial patch (polydimethylsiloxane reinforced with polyester fabric, PDMSr) was compared with patches made of expanded polytetrafluoroethylene (ePTFE). Objective: To compare the outcomes between arterial patches made of PDMSr with those made of ePTFE, in an experimental rabbit model. Materials and Method: Rabbits were placed in two groups, and received either PDMSr or ePTFE arterial patches (PDMSr group and ePTFE group, respectively). The animals underwent laparotomy and longitudinal opening of the aorta, which was then closed with the selected patch, followed by suture of all layers. The animals were kept in their cages until the 60th postoperative day, when arteriography, removal of the aorta, and macroscopic and optic and scanning electron microscopic analyzes of the aorta were performed. Ten rabbits from each group that had completed all stages of the research were included in analyses. Results: Twelve procedures were performed in the PDMSr group and 16 in the ePTFE group. There were 2 deaths in the PDMSr group and 6 in the ePTFE group. Despite the higher number of deaths in the ePTFE group, there was no statistical difference in survival rate between the groups. One animal in the PDMSr group developed monoparesis in its right hind paw and 1 animal in the ePTFE group had an incisional hernia. There was no statistical difference in complications between the groups. The operative time was significantly longer in the ePTFE group when all animals were included in analysis, but not when animals that died were excluded. Body weight was significantly greater and operative time was significantly longer in animals that died. Postsurgical aortic patency in the survival animals was 100% in both groups by arteriography. Macroscopically, tissue reaction around the prosthesis was greater in the ePTFE group (statistically significant). Microscopically, the PDMSr patches were entirely covered with a cellular endothelium-like tissue, while tissue growth on the ePTFE patches was limited to the edges of the suture line and to isolated central islands. Conclusion: The two materials showed comparable outcomes; however, PDMSr showed cellular proliferation to the entire graft, and less local inflammatory reaction compared with ePTFE. Although further studies are required, including assessment in humans, the results of the present study indicate that PDMSr shows promise as an arterial patch material Abdominal/surgery Aorta abdominal/cirurgia Coelhos Comparative study Degree of vascular patency Dimethylpolysiloxanes Dimetilpolisiloxanos Endotélio vascular Enxerto vascular Estudo comparativo Experimental implants Grau de desobstrução vascular Implante de prótese vascular Implantes experimentais Poliésteres Politetrafluoretileno Polyesters Polytetrafluoroethylene Prótese vascular Rabbits Silicones Silicones Vascular endothelium Vascular graft Vascular prosthesis Vascular prosthesis implantation
127	Reabilitação protética na região auricular: análise por elementos finitos de implantes maxilofaciais extraorais conexão hexágono externo e cone Morse, investigação da fotoestabilidade e caracterização espectroscópica de um elastômero maxilofacial tipo-A / Prosthetic rehabilitation in the auricular region: finite elements analysis of extraoral maxillofacial implants, photostability investigation and spectroscopy characterisation of modified maxillofacial elastomers type-A Pimentel, Marina Leite 12 April 2017 (has links) O grande desafio da Implantodontia é alcançar resultados a longo prazo com maior preservação dos tecidos ósseos, resposta adequada dos tecidos conjuntivos e manutenção da estabilidade secundária adequada para a retenção de próteses. Estes fatores evitam a perda indesejável tanto do tratamento reabilitador quanto dos tecidos ósseos de suporte. A região extraoral apresenta menores espessuras ósseas em comparação às regiões de maxila e mandíbula, especialmente no osso temporal. Portanto, os seguintes aspectos foram investigados: (i) Análise pelo Método dos Elementos Finitos (FEA) de 16 modelos virtuais, com aplicação de forças estáticas de tensão e compressão nos pontos médios entre os implantes. Três implantes maxilofaciais extraorais foram posicionados no osso temporal, onde um deles foi posicionado sobre o processo mastóide. Este estudo foi totalmente realizado em ambiente computacional. Foram empregados dois tipos de conexões protéticas e intermediários retos de conicidades 20º e 45º, posicionados virtualmente no modelo de osso temporal, com paralelismo entre eles. Foi desenhada uma barra virtual para retenção protética do tipo barra-clipe da prótese auricular. Foram consideradas as melhores configurações aquelas apresentando distribuição uniforme e branda das tensões de von Mises sobre o tecido ósseo adjacente aos implantes. (ii) Confecção de corpos de prova com graus variáveis de pigmentação para (a) melhorar a reprodutibilidade da coloração (b) entender e reduzir o processo de descoloração para melhorar a longevidade das próteses. Um elastômero maxilofacial tipo A foi pigmentado intrinsecamente de acordo com os seis tons da Escala de Fitzpatrick. Uma técnica de pigmentação foi desenvolvida a partir dos resultados obtidos a partir de uma Escala de Fitzpatrick impressa em papel e dos pigmentos intrínsecos de cores primárias. Este dimetil-metilvinil-siloxano reforçado por platina A 223-30 (Factor II, Inc., Lakeside, AZ, USA) apresenta dureza \"Shore-A\" 30. As amostras foram expostas a fotoenvelhecimento acelerado, e sua degradação mapeada com Espectroscopia UV/Vis/NIR. Concluiu-se que: (i) Os implantes com conexão cone Morse plataforma 3.7 tem melhor comportamento biomecânico com intermediários de 45o e altura de 2mm. Sugere-se planejamento cirúrgico visando a instalação a 3 horas para o temporal esquerdo e 9 horas para o temporal direito, mais 6 horas (mastóide). Implantes com conexão cone Morse plataforma 4.0 apresentaram comportamento biomecânico desejável com intermediários de 20o e alturas de 2mm or 4mm. Para implantes com conexão cone Morse plataforma 4.0, sugere-se a instalação a 6-9-12 horas para o temporal direito, e 12-6-3 para o esquerdo, visando comportamento biomecânico adequado. Sugere-se que os implantes extraorais Brånemark hexágono externo com plataforma 4.1 regular ou expandida sejam preferencialmente empregados com intermediários de 20o. (ii) O SiO2 5% pode ser adicionado à preparação do silicone para retardar o desbotamento da prótese maxilofacial. O TiO2 traz mudanças visuais significativas e pode ser considerado como opacificador. / Major challenges in Implantology include: achieving longevity of implants, bone tissue preservation, connective tissue suitable answer and maintenance of secondary stability in order to retain prosthesis. These factors avoid the undesirable loss of both rehabilitation treatment and supporting bone tissues. The extraoral region has less bone depth compared to the maxilla and mandible regions, especially for the temporal bone. Therefore, the following aspects were investigated: (i) Finite Elements Analysis (FEA) of 16 virtual models, with static application of tension and compression forces in medium points between implants. Three extraoral maxillofacial implants were placed on the temporal bone, which one of them was placed on the mastoid process. This study was made entirely in a computational environment. Two prosthetic connection types and straight Intermediários were employed, with conicities of 20º and 45º, placed virtually on the temporal bone model, mutually parallel. A virtual bar for bar-clip prosthetic retention of auricular prosthesis was designed. The best configurations were considered to be the ones presenting uniform and mild von Mises tension distribution over the bone tissue around the implants. (ii) Generation of samples with varying degree of pigmentation to (a) improve the reproducibility of the colouration (b) understand and minimise the discolouration process to improve prosthetics longevity. A maxillofacial elastomer type A was intrinsically pigmented according to the six tones of the Fitzpatrick Scale. A pigmentation technique was developed from spectroscopy outcomes of paper printed Fitzpatrick Scale and the primary colors pigments. This platinum reinforced dimethyl methylvinyl siloxane A 223-30 (Factor II, Inc., Lakeside, AZ, USA) presents \"Shore-A\" hardness 30. The samples were exposed to accelerated photo aging, and their degradation mapped with UV/Vis/NIR Spectroscopy. The effects of exclusion of oxygen and inclusion of nanoparticle fillers during prosthetic formulation were investigated. It was concluded that: (i) Morse taper prosthetic connection 3.7 platform implants, should be employed with 45o abutments with 2mm height. The surgical planning shall be for placement 3 hours for the left temporal bone and 9 hours for the right, and in 6 hours (mastoid). Morse taper prosthetic connection 4.0 platform implants behaved biomechanically desirably with 20o abutments in 2mm or 4mm heights. For the Morse taper connection 4.0 platform implants, their placement shall be in 6-9-12 hours, for the right temporal, and 12-3-6, for the left temporal, in order to achieve proper biomechanical behaviour. The Brånemark extraoral external hexagon implant, with 4.1 platform (normal or expanded) should preferrably be used with 20o abutments. (ii) The SiO2 5% may be added to the silicone preparation in order to slow maxillofacial prosthesis colour fading. The TiO2 brings visually significant changes and may be considered as an opacifier. Análise de Elementos Finitos Coloring Agents Dental Implant-Abutment Design Espectroscopia NIR Finite Elements Analysis Fotoestabilidade Implante de Prótese Maxilofacial Interface Implante Dentário-Pivô Morse Interface Osso-Implante Maxillofacial Prosthesis Photostability Pigmentos Orgânicos Prosthesis and Implants Prótese Maxilofacial Próteses e Implantes Silicones Silicones Spectroscopy Near Infra-Red
128	Reabilitação protética na região auricular: análise por elementos finitos de implantes maxilofaciais extraorais conexão hexágono externo e cone Morse, investigação da fotoestabilidade e caracterização espectroscópica de um elastômero maxilofacial tipo-A / Prosthetic rehabilitation in the auricular region: finite elements analysis of extraoral maxillofacial implants, photostability investigation and spectroscopy characterisation of modified maxillofacial elastomers type-A Marina Leite Pimentel 12 April 2017 (has links) O grande desafio da Implantodontia é alcançar resultados a longo prazo com maior preservação dos tecidos ósseos, resposta adequada dos tecidos conjuntivos e manutenção da estabilidade secundária adequada para a retenção de próteses. Estes fatores evitam a perda indesejável tanto do tratamento reabilitador quanto dos tecidos ósseos de suporte. A região extraoral apresenta menores espessuras ósseas em comparação às regiões de maxila e mandíbula, especialmente no osso temporal. Portanto, os seguintes aspectos foram investigados: (i) Análise pelo Método dos Elementos Finitos (FEA) de 16 modelos virtuais, com aplicação de forças estáticas de tensão e compressão nos pontos médios entre os implantes. Três implantes maxilofaciais extraorais foram posicionados no osso temporal, onde um deles foi posicionado sobre o processo mastóide. Este estudo foi totalmente realizado em ambiente computacional. Foram empregados dois tipos de conexões protéticas e intermediários retos de conicidades 20º e 45º, posicionados virtualmente no modelo de osso temporal, com paralelismo entre eles. Foi desenhada uma barra virtual para retenção protética do tipo barra-clipe da prótese auricular. Foram consideradas as melhores configurações aquelas apresentando distribuição uniforme e branda das tensões de von Mises sobre o tecido ósseo adjacente aos implantes. (ii) Confecção de corpos de prova com graus variáveis de pigmentação para (a) melhorar a reprodutibilidade da coloração (b) entender e reduzir o processo de descoloração para melhorar a longevidade das próteses. Um elastômero maxilofacial tipo A foi pigmentado intrinsecamente de acordo com os seis tons da Escala de Fitzpatrick. Uma técnica de pigmentação foi desenvolvida a partir dos resultados obtidos a partir de uma Escala de Fitzpatrick impressa em papel e dos pigmentos intrínsecos de cores primárias. Este dimetil-metilvinil-siloxano reforçado por platina A 223-30 (Factor II, Inc., Lakeside, AZ, USA) apresenta dureza \"Shore-A\" 30. As amostras foram expostas a fotoenvelhecimento acelerado, e sua degradação mapeada com Espectroscopia UV/Vis/NIR. Concluiu-se que: (i) Os implantes com conexão cone Morse plataforma 3.7 tem melhor comportamento biomecânico com intermediários de 45o e altura de 2mm. Sugere-se planejamento cirúrgico visando a instalação a 3 horas para o temporal esquerdo e 9 horas para o temporal direito, mais 6 horas (mastóide). Implantes com conexão cone Morse plataforma 4.0 apresentaram comportamento biomecânico desejável com intermediários de 20o e alturas de 2mm or 4mm. Para implantes com conexão cone Morse plataforma 4.0, sugere-se a instalação a 6-9-12 horas para o temporal direito, e 12-6-3 para o esquerdo, visando comportamento biomecânico adequado. Sugere-se que os implantes extraorais Brånemark hexágono externo com plataforma 4.1 regular ou expandida sejam preferencialmente empregados com intermediários de 20o. (ii) O SiO2 5% pode ser adicionado à preparação do silicone para retardar o desbotamento da prótese maxilofacial. O TiO2 traz mudanças visuais significativas e pode ser considerado como opacificador. / Major challenges in Implantology include: achieving longevity of implants, bone tissue preservation, connective tissue suitable answer and maintenance of secondary stability in order to retain prosthesis. These factors avoid the undesirable loss of both rehabilitation treatment and supporting bone tissues. The extraoral region has less bone depth compared to the maxilla and mandible regions, especially for the temporal bone. Therefore, the following aspects were investigated: (i) Finite Elements Analysis (FEA) of 16 virtual models, with static application of tension and compression forces in medium points between implants. Three extraoral maxillofacial implants were placed on the temporal bone, which one of them was placed on the mastoid process. This study was made entirely in a computational environment. Two prosthetic connection types and straight Intermediários were employed, with conicities of 20º and 45º, placed virtually on the temporal bone model, mutually parallel. A virtual bar for bar-clip prosthetic retention of auricular prosthesis was designed. The best configurations were considered to be the ones presenting uniform and mild von Mises tension distribution over the bone tissue around the implants. (ii) Generation of samples with varying degree of pigmentation to (a) improve the reproducibility of the colouration (b) understand and minimise the discolouration process to improve prosthetics longevity. A maxillofacial elastomer type A was intrinsically pigmented according to the six tones of the Fitzpatrick Scale. A pigmentation technique was developed from spectroscopy outcomes of paper printed Fitzpatrick Scale and the primary colors pigments. This platinum reinforced dimethyl methylvinyl siloxane A 223-30 (Factor II, Inc., Lakeside, AZ, USA) presents \"Shore-A\" hardness 30. The samples were exposed to accelerated photo aging, and their degradation mapped with UV/Vis/NIR Spectroscopy. The effects of exclusion of oxygen and inclusion of nanoparticle fillers during prosthetic formulation were investigated. It was concluded that: (i) Morse taper prosthetic connection 3.7 platform implants, should be employed with 45o abutments with 2mm height. The surgical planning shall be for placement 3 hours for the left temporal bone and 9 hours for the right, and in 6 hours (mastoid). Morse taper prosthetic connection 4.0 platform implants behaved biomechanically desirably with 20o abutments in 2mm or 4mm heights. For the Morse taper connection 4.0 platform implants, their placement shall be in 6-9-12 hours, for the right temporal, and 12-3-6, for the left temporal, in order to achieve proper biomechanical behaviour. The Brånemark extraoral external hexagon implant, with 4.1 platform (normal or expanded) should preferrably be used with 20o abutments. (ii) The SiO2 5% may be added to the silicone preparation in order to slow maxillofacial prosthesis colour fading. The TiO2 brings visually significant changes and may be considered as an opacifier. Análise de Elementos Finitos Espectroscopia NIR Fotoestabilidade Implante de Prótese Maxilofacial Interface Implante Dentário-Pivô Morse Interface Osso-Implante Pigmentos Orgânicos Prótese Maxilofacial Próteses e Implantes Silicones Coloring Agents Dental Implant-Abutment Design Finite Elements Analysis Maxillofacial Prosthesis Photostability Prosthesis and Implants Silicones Spectroscopy Near Infra-Red
129	Estudo experimental comparativo de remendos arteriais de polidimetilsiloxano com reforço de tecido de poliéster (PDMSr) versus politetrafluoretileno expandido (PTFEe) em aorta de coelhos / Patch of polydimethylsiloxane reinforced with polyester fabric for aortic angioplasty in rabbits Paulo Isao Sassaki Neto 15 October 2014 (has links) Introdução: Apesar de bons resultados descritos na literatura, o substituto ideal para a utilização como remendo no fechamento arterial ainda não existe. Por este motivo, ainda há espaço para a busca por remendo que seja biocompatível, e que apresente facilidade de manuseio e resultados satisfatórios. Avaliamos remendos arteriais de silicone (polidimetilsiloxano com reforço em poliéster - PDMSr) em comparação com remendos arteriais de PTFEe. Objetivo: O objetivo deste trabalho é comparar, em modelo experimental, em coelhos, os resultados de remendos arteriais feitos em PDMSr com remendos de PTFEe. Materiais e Método: A amostra foi definida em 10 animais que completassem todas as etapas da pesquisa em cada grupo. Os animais foram submetidos à laparotomia mediana e abertura longitudinal da aorta de aproximadamente 8mm, realizando-se o seu fechamento com remendo do grupo selecionado, seguido do fechamento por planos. Os animais foram mantidos em biotério até o 60º PO, quando, então, realizou-se arteriografia de controle, e análise macro e microscópica de peça. Resultados: Para se atingir a amostra desejada, foram necessários 12 procedimentos no grupo PDMSr e 16 no grupo PTFEe. Ocorreram 2 óbitos no grupo PDMSr e 6 no grupo PTFEe. Apesar do número maior de óbitos no grupo PTFEe não houve diferença estatística na sobrevida entre os grupos. Um animal do grupo PDMSr apresentou monoparesia em pata posterior direita e um animal do grupo PTFEe apresentou hérnia incisional. Não houve diferença estatística nas complicações entre os grupos. O tempo operatório foi estatisticamente maior no grupo PTFEe quando comparamos todos os animais, fato que não se repetiu quando excluímos os animais que faleceram. O peso e o tempo operatório foram estatisticamente maiores nos animais que morreram. Todos os animais que chegaram ao final do tempo de estudo apresentavam aorta patente. Na análise macroscópica da peça, houve, estatisticamente, maior reação tecidual periprótese no grupo PTFEe. A microscopia eletrônica de varredura evidenciou cobertura de todo o remendo de PDMSr por tecido similar ao endotélio, enquanto, nos remendos de PTFEe, o crescimento limitou-se às bordas da linha de sutura e ilhas isoladas no seu centro. Conclusão: O material estudado apresentou resultados comparáveis ao do PTFEe, porém com menor reação tecidual local e maior proliferação celular para a luz do vaso. Apesar de novos estudos serem necessários, inclusive para avaliação de uso em humanos, o presente estudo apresenta resultados promissores que encorajam a continuidade de sua pesquisa / Introduction: Although good results are reported for various materials for use as patches for arterial closure, as yet none of these is ideal. Therefore, research is continuing into development of a patch that is biocompatible and provides ease of handling, while having satisfactory outcomes. A new silicone arterial patch (polydimethylsiloxane reinforced with polyester fabric, PDMSr) was compared with patches made of expanded polytetrafluoroethylene (ePTFE). Objective: To compare the outcomes between arterial patches made of PDMSr with those made of ePTFE, in an experimental rabbit model. Materials and Method: Rabbits were placed in two groups, and received either PDMSr or ePTFE arterial patches (PDMSr group and ePTFE group, respectively). The animals underwent laparotomy and longitudinal opening of the aorta, which was then closed with the selected patch, followed by suture of all layers. The animals were kept in their cages until the 60th postoperative day, when arteriography, removal of the aorta, and macroscopic and optic and scanning electron microscopic analyzes of the aorta were performed. Ten rabbits from each group that had completed all stages of the research were included in analyses. Results: Twelve procedures were performed in the PDMSr group and 16 in the ePTFE group. There were 2 deaths in the PDMSr group and 6 in the ePTFE group. Despite the higher number of deaths in the ePTFE group, there was no statistical difference in survival rate between the groups. One animal in the PDMSr group developed monoparesis in its right hind paw and 1 animal in the ePTFE group had an incisional hernia. There was no statistical difference in complications between the groups. The operative time was significantly longer in the ePTFE group when all animals were included in analysis, but not when animals that died were excluded. Body weight was significantly greater and operative time was significantly longer in animals that died. Postsurgical aortic patency in the survival animals was 100% in both groups by arteriography. Macroscopically, tissue reaction around the prosthesis was greater in the ePTFE group (statistically significant). Microscopically, the PDMSr patches were entirely covered with a cellular endothelium-like tissue, while tissue growth on the ePTFE patches was limited to the edges of the suture line and to isolated central islands. Conclusion: The two materials showed comparable outcomes; however, PDMSr showed cellular proliferation to the entire graft, and less local inflammatory reaction compared with ePTFE. Although further studies are required, including assessment in humans, the results of the present study indicate that PDMSr shows promise as an arterial patch material Aorta abdominal/cirurgia Coelhos Dimetilpolisiloxanos Endotélio vascular Enxerto vascular Estudo comparativo Grau de desobstrução vascular Implante de prótese vascular Implantes experimentais Poliésteres Politetrafluoretileno Prótese vascular Silicones Abdominal/surgery Comparative study Degree of vascular patency Dimethylpolysiloxanes Experimental implants Polyesters Polytetrafluoroethylene Rabbits Silicones Vascular endothelium Vascular graft Vascular prosthesis Vascular prosthesis implantation
130	Disproportionation and ring-opening polymerization of silmethylene-siloxane derivatives / Redistribution et polymérisation par ouverture de cycle de dérivés silméthylène siloxanes Pasquet, Cédric 24 July 2013 (has links) Les poly(silméthylènesiloxane)s, aussi dénommés silicones hybrides, sont constitués d’un squelette portant un groupement méthylène entre 2 unités SiOSi. La synthèse de ces polymères par polycondensation ne permet pas d’atteindre des masses molaires très élevées, contrairement aux produits issus de la polymérisation par ouverture de cycle. Ce manuscrit décrit la procédure choisie pour aboutir à une synthèse contrôlée de poly(silméthylènesiloxane)s, des précurseurs (monomères, amorceurs) aux polymères. Le monomère cyclique silméthylène a été préparé par cyclisation de le 1,3-dichlorotetraméthylsilméthylène. Ce dernier peut être généré par redistribution de sous-produits de l’industrie de type halogénures d’alkylsilanes. Deux voies de redistribution ont été étudiées, la méthylation par le méthyllithium, et la dismutation des chlorosilanes en présence d’AlCl3 et de tétraméthylsilane. Cette dernière méthode conduit à une nouvelle distribution de chlorosilanes et chlorosilméthylènes jamais obtenue auparavant. La polymérisation par ouverture de cycle en présence d’acide triflique du 1,1,3,3,5,5,7,7-octamethyl-2,6-dioxa-1,3,5,7-tetrasilacyclooctane conduit à des poly(silméthylènesiloxane)s terminés silanol. Suivant la pureté du monomère, différentes masses molaires peuvent être atteintes. La température réactionnelle joue un rôle crucial afin d’éviter toute cyclisation des chaînes. Par comparaison avec des monomères organiques conventionnels (ether, oxiranes, etc...), le mécanisme de polymérisation implique deux espèces en équilibre, un ion silyl-oxonium et un ester silyl-triflate. Une augmentation de la température de réaction déplace cet équilibre vers les espèces ioniques, responsables des réactions de rétroscission. Ainsi la température optimale de réaction a été localisée à 25°C. La polymérisation par ouverture de cycle a été également testée en présence de catalyseur (acide triflique) et d’un amorceur (molécule portant une (des) fonction(s) silanol). Dans les conditions de température données, des polymères de masses molaires et de fonctionnalités contrôlées sont obtenus. Ces expériences ouvrent la porte à de nouvelles voies de polymérisation des cyclosiloxanes, mettant en lumière la compétition entre deux mécanismes de polymérisation, la propagation par bouts de chaînes activés (ACE) et par monomères activés (AM). / Polysilmethylenesiloxanes are belonging to the “hybrid” silicone family. The presence of a methylene group into the polymer backbone enhances their thermal stability, which is particularly interesting in high-tech applications. The synthesis of such polymers by polycondensation did not so far lead to high molar mass polymers, contrary to those prepared by ring-opening polymerization. The synthesis of such polymers is described in this manuscript, from the monomer to the macromolecule. The silmethylene cyclic dimer, the monomer of interest, is synthesized by cyclization of 1,3-dichlorotetramethylsilmethylene. This latter can be generated from the disproportionation of the direct process residue, a by-product of the silicone industry. The disproportionation proceeds either by methylation with methyl lithium, or by Me/Cl interchange reaction catalyzed by AlCl3 in presence of tetramethylsilane. This latter led to a selective dechlorination of chlorosilanes and chlorosilmethylenes in mild conditions, which has not been yet observed with the DPR. Cationic ring-opening polymerization in presence of triflic acid of such silmethylene cyclic dimer led to bis-silanol polysilmethylenesiloxanes. Depending on the purity of monomer, high molar masses can be targeted. The reaction temperature also plays a critical role in order to avoid any cyclization of the growing chains. While triflic acid plays a role of catalyst, it does not allow controlling molar masses. Comparisons with conventional organic monomers were made to identify the polymerization mechanism which involves two propagating species in equilibrium, a silyl-oxonium ion and a silyltriflate ester. An increase of the reaction temperature shifts this equilibrium towards ionic species, responsible of back- and end-biting reactions. Thus the optimal reaction temperature of ROP of the silmethylene cyclic dimer has been set at 25°C previously and confirmed here. The ROP reaction of the silmethylene cyclic dimer in presence of triflic acid and silanol molecule allows designing the obtained molar masses, while keeping a certain control of end-groups. Variations of molar masses with the silanol content speaks for a polymerization occurring through an activated monomer mechanism. Experiments done to confirm this mechanism open routes to the polymerization of other cyclosiloxanes where the competition between the activated chain end (ACE) and the activated monomer (AM) mechanisms could be controlled. Polymère Silicone hybride Polysilméthylènesiloxane Polymérisation par ouverture de cycle Redistribution Résidu du procédé Acide triflique Amorceur Monomère activé Bout de chaîne activé Polymers Silicones Polysilmethylenesiloxane Ring-Opening polymerization Disproportionation Process residue Triflic acid Initiator Activated monomer Activated chain end 547.807 2

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