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31	Particle breakage mechanics in milling operation Wang, Li Ge January 2017 (has links) Milling is a common unit operation in industry for the purpose of intentional size reduction. Considerable amount of energy is consumed during a grinding process and much of the energy is dissipated as heat and sound, which often makes grinding into an energy-intensive and highly inefficient operation. Despite many attempts to interpret particle breakage during a milling process, the grindability of a material in a milling operation remains aloof and the mechanisms of particle breakage are still poorly understood. Hence the optimisation and refinement in the design and operation of milling are in great need of an improved scientific understanding of the complex failure mechanisms. This thesis aims to provide an in-depth understanding of particle breakage associated with stressing events that occur during milling. A hybrid of experimental, theoretical and numerical methods has been adopted to elucidate the particle breakage mechanics. This study covers from single particle damage at micro-scale to bulk comminution during the whole milling process. The mechanical properties of two selected materials, i.e. alumina and zeolite were measured by indentation techniques. The breakage test of zeolite granules subjected to impact loading was carried out and it was found that tangential component velocity plays an increasingly important role in particle breakage with increasing impact velocity. Besides, single particle breakage via in-situ loading was conducted under X-ray microcomputed tomography (μCT) to study the microstructure of selected particles, visualize the progressive failure process and evaluate the progressive failure using the technique of digital image correlation (DIC). A new particle breakage model was proposed deploying a mechanical approach assuming that the subsurface lateral crack accounts for chipping mechanism. Considering the limitation of existing models in predicting breakage under oblique impact and the significance of tangential component velocity identified from experiment, the effect of impact angle is considered in the developed breakage model, which enables the contribution of the normal and tangential velocity component to be rationalized. The assessment of breakage models including chipping and fragmentation under oblique impact suggests that the equivalent normal velocity proposed in the new model is able to give close prediction with experimental results sourced from the public literature. Milling experiments were performed using the UPZ100 impact pin mill (courtesy by Hosokawa Micron Ltd. UK) to measure the comminution characteristics of the test solids. Several parameters were used to evaluate the milling performance including product size distribution, relative size span, grinding energy and size reduction ratio etc. The collective data from impact pin mill provides the basis for the validation of numerical simulation results. The Discrete Element Method (DEM) is first used to model single particle breakage subject to normal impact loading using a bonded contact model. A validation of the bonded contact model was conducted where the disparity with the experimental results is discussed. A parametric study of the most significant parameters e.g. bond Young’s modulus, the mean tensile bond strength, the coefficient of variation of the strength and particle & particle restitution coefficient in the DEM contact model was carried out to gain a further understanding of the effect of input parameters on the single particle breakage behavior. The upscaling from laboratory scale (single particle impact test) to industrial process scale (impact pin mill) is achieved using Population Balance Modelling (PBM). Two important functions in PBM, the selection function and breakage function are discussed based on the single particle impact from both experimental and numerical methods. An example of predicting product size reduction via PBM was given and compared to the milling results from impact pin mill. Finally, the DEM simulation of particle dynamics with emphasis on the impact energy distribution was presented and discussed, which sheds further insights into the coupling of PBM and DEM.
32	[en] CHARACTERIZATION OF IRON ORE PELLETS BY MULTIMODAL MICROSCOPY AND IMAGE ANALYSIS / [pt] CARACTERIZAÇÃO DE PELOTAS DE MINÉRIO DE FERRO POR MICROSCOPIA MULTIMODAL E ANÁLISE DE IMAGENS REYNEL MARTÍNEZ CASTELLANOS 16 August 2016 (has links) [pt] Pelotas de minério de ferro são formadas a partir da aglomeração de finos de minério e constituem o principal insumo para o processo de redução na indústria siderúrgica. As frações de fases sólidas e de poros afetam propriedades tais como resistência à compressão, permeabilidade a gases durante o processo de redução, e redutibilidade. No presente trabalho desenvolveu-se um método automático para a identificação e a quantificação automáticas das fases sólidas e poros presentes em pelotas de minério de ferro, mediante a correlação de imagens obtidas por duas técnicas diferentes – microscopia ótica (MO) e eletrônica de varredura (MEV). Imagens em mosaico cobrindo completamente uma seção transversal equatorial da pelota foram capturadas em MO e MEV. Utilizando técnicas de processamento de imagens, as fases e os poros foram identificados e quantificados em cada tipo de imagem. No entanto, cada técnica apresenta limitações na discriminação de certas fases, impedindo uma quantificação completa. Por outro lado, a combinação de imagens dos dois tipos permite discriminar todas as fases. Para isso as imagens de MO e MEV foram automaticamente registradas utilizando pontos de referência homólogos obtidos pela técnica SIFT – Scale Invariant Feature Transform. Após o registro, fases e poros foram individualmente identificadas e quantificadas, levando a resultados muito mais precisos do que os obtidos separadamente. Comparou-se também o resultado de porosidade com o obtido por microtomografia de raios-x (MicroCT). Para isso, um procedimento de correlação identificou a camada de uma tomografia 3D mais similar às imagens de MO ou MEV, foi realizado o registro e mediu-se a fração de área de poros. O valor encontrado foi muito menor na imagem de MicroCT, fato atribuído à pior resolução espacial desta técnica. / [en] Iron ore pellets are formed by an agglomeration process and currently constitute the main source for the reduction process in steel making. The fractions of solid phases and pores directly affect pellets´ properties such as compression resistance, gas permeability during the reduction process, and reducibility. In this work a method for the automatic identification and quantification of phases and pores in iron ore pellets was developed, based on the correlation between images obtained with two different techniques – optical microscopy (OM) and scanning electron microscopy (SEM). Mosaic images covering the full equatorial cross section of a pellet were acquired with OM and SEM. Employing digital image processing techniques the phases and pores were identified and quantified in each type of image. However, each imaging technique has limitations in the discrimination of certain phases, preventing a full quantification. On the other hand, the combination of the two types of images allows discriminating all phases. For that, OM and SEM images were automatically registered using homologous reference points obtained with the SIFT – Scale Invariant Feature Transform technique. After registration, phases and pores were individually identified and quantified, leading to much more accurate results than those provided separately by OM or SEM. The porosity was also compared with that provided by x-ray MicroCT. For that, a correlation procedure identified the closest matching MicroCT layer to the OM or SEM images, the image was registered and the pore fraction was measured. The obtained value is much lower for the MicroCT image, what was attributed to the worse spatial resolution of the technique. [pt] ANALISE DE IMAGENS [en] IMAGE ANALYSIS [pt] CARACTERIZACAO MICROESTRUTURAL [en] MICROSTRUCTURAL CHARACTERIZATION [pt] PELOTA DE MINERIO DE FERRO [pt] MICROSCOPIA MULTIMODAL [pt] MICROTOMOGRAFIA COMPUTADORIZADA [en] MICROCOMPUTED TOMOGRAPHY
33	Avaliação da remoção de debris dentinários após diferentes métodos de irrigação final e sua influência na obturação do sistema de canais radiculares, utilizando a microtomografia computadorizada / Hard-tissue debris removal after different final irrigation methods and its influence on the filling of the root canal system, using micro-computed tomography Laila Gonzales Freire 03 June 2014 (has links) A instrumentação do canal radicular possui como conseqüência a formação de debris dentinários, os quais acumulam-se especialmente nas áreas mais complexas do sistema de canais radiculares. Por este motivo, atenção especial tem sido concedida aos métodos de agitação da substâ ncia química auxiliar, com o intuito de melhorar a sua eficácia química e mecânica. No entanto, não está claro se debris dentinários removidos do interior do canal radicular possuem efeito na qualidade da obturação. Portanto, os objetivos deste estudo foram, com o auxílio da microtomografia computadorizada (micro-CT): avaliar e quantificar a presença de debris dentinários em canais curvos, após o preparo químico-cirúrgico; comparar a remoção desses debris, após uso de Irrigação Ultrassônica Passiva (IUP) ou do sistema EndoVac; e avaliar a qualidade da obturação dos mesmos canais, mensurando o volume de material obturador e de espaços vazios. Vinte e quatro raízes mesiais de molares inferiores humanos extraídos foram divididos aleatoriamente em 2 grupos (n=12), de acordo com o método de irrigação final a ser avaliado. Cada espécime foi submetido a quatro escaneamentos: exame préoperatório, exame pós-preparo, exame pós-irrigação final e exame pós-obturação, com um microtomógrafo de raios-X SkyScan 1176, a uma resolução de 17,42 m. Após preparo químico-cirúrgico os grupos receberam irrigação final com IUP ou com o sistema EndoVac e em seguida obturados com a técnica termoplástica de ondas contínuas de condensação. Após a reconstrução das imagens resultantes dos quatro escaneamentos, o corregistro das mesmas foi realizado com o programa DataViewer. Os programas CTAn e CTvol foram utilizados para binarização dos objetos de interesse, análise volumétrica e reconstrução de modelos 3D do canal radicular, dos debris dentinários e do material obturador. Os dados foram analisados estatisticamente com o programa GraphPad Prism por meio do teste t de Student (p < 0,05). As análises de micro-CT revelaram debris dentinários acumulados no interior dos canais radiculares, ocupando uma porcentagem média em relação ao volume do canal de 2,71% para o grupo IUP e 4,10% para o grupo EndoVac. Não houve diferença entre os grupos quanto à remoção de debris dentinários, nem em relação ao volume de material obturador e de espaços vazios (p > 0,05). Concluiu-se que a IUP e o sistema EndoVac foram igualmente eficientes na remoção de debris dentinários, reduzindo em média 50% do seu volume. Também, a ativação dos irrigantes pelos dois métodos não interferiu na qualidade da obturação do canal radicular. / Root canal preparation has as a consequence the formation of hard-tissue debris, which accumulates specially in the complex areas of the root canal system. For this reason, special attention has been given to methods of agitation of the irrigants, aiming to improve its chemical and mechanical efficiency. However, it is not clear if dentin debris removed from the root canal have impact on the quality of root canal filling. Therefore, the objectives of this study were, with the aid of microcomputed tomography (micro-CT): evaluate and quantify the presence of hard-tissue debris in curved root canals, after chemical-surgical preparation; compare the removal of such debris after final irrigation with Passive Ultrasonic Irrigation (PUI) or with the EndoVac system; and evaluate the quality of filling of the same root canals, measuring the volume of filling material and voids. Twenty-four mesial roots of extracted mandibular human molars were randomly divided into 2 groups (n = 12) according to the method of final irrigation being evaluated. Each specimen was subjected to four scans: preoperative, post-operative, post-final irrigation and post-filling, with a microcomputed tomography SkyScan 1176, at a resolution of 17,42 m. After chemosurgical preparation groups received final irrigation with Passive Ultrasonic Irrigation (PUI) or with EndoVac system and were then filled with the continuous wave condensation thermoplastic technique. After the reconstruction of the images resulted from the four scans, co-registration was performed with the DataViewer software. CTAn and CTvol softwares were used for binarization of the objects of interest, volumetric analysis and reconstruction of 3D models of the root canal, hardtissue debris and the filling material. Data were statistically analyzed with the GraphPad Prism program through t students test (p < 0,05). The analysis of micro- CT showed hard-tissue debris accumulated inside the root canal, occupying an average percentage of 2.71 % for the PUI group and 4.10 % for EndoVac group. There was no difference between the groups regarding the removal of hard-tissue debris, or in relation to the volume of filling material and voids (p > 0.05). It was concluded that the EndoVac and PUI were equally efficient in the removal of hardtissue debris, reducing an average of 50% of its volume. Also, irrigants activation with the two methods did not affect the quality of root canal filling. Debris dentinários Irrigação do canal radicular Microtomografia computadorizada Obturação do canal radicular Root canal filling Root canal irrigation
34	Avaliação do preparo de canais radiculares com instrumentos rotatórios torcidos e usinados, por meio de cortes transversais e da microtomografia computadorizada / Evaluation of root canal preparation with rotary instruments twisted and ground by means of cross sections and microcomputed tomography Laila Gonzales Freire 02 August 2010 (has links) O preparo químico-cirúrgico é uma das etapas mais importantes do tratamento endodôntico, pois promove a desinfecção do sistema de canais radiculares através da limpeza e da modelagem. Realizar o preparo de canais curvos é um grande desafio, devido à ocorrência freqüente de acidentes operatórios como o transporte do canal. A introdução de instrumentos fabricados em ligas de níquel-titânio (NiTi) contribuiu consideravelmente para a melhora na qualidade da instrumentação dos canais. Os diferentes sistemas rotatórios que são apresentados continuamente ao profissional devem ser estudados com detalhes, pois o seu comportamento pode variar de acordo com o desenho de cada instrumento e as suas características de produção. O objetivo deste estudo foi avaliar, ex vivo, a qualidade do preparo de canais curvos realizado pelos sistemas rotatórios Twisted File (TF; Sybron Endo), torcidos, e EndoSequence (ES; Brasseler), usinados, quanto à habilidade em manter o canal centralizado, analisando a extensão e a direção dos eventuais transportes e o índice de centralização do instrumento (IC), por meio de cortes transversais e da microtomografia computadorizada (CT). Trinta molares inferiores foram divididos em dois grupos, e preparados conforme o delineamento de cada método: G1 - Bramante Modificado e G2 - CT. No G1, os dentes foram incluídos em blocos de resina, e seccionados a 2,0, 3,5 e 5,0 mm do ápice radicular. As secções foram fotografadas, e os blocos, remontados, foram submetidos à instrumentação rotatória. No G2, os dentes foram incluídos em material de moldagem e escaneados com um microtomógrafo, antes e após o preparo. As imagens das seções transversais foram reconstruídas e os cortes axiais correspondentes às distâncias de 2,0, 3,5 e 5,0 mm do ápice radicular foram selecionados. Os resultados foram submetidos ao teste estatístico não-paramétrico Mann-Whitney, para comparações duas a duas. Em ambos os grupos, o transporte do canal e o IC para os sistemas TF e ES foram semelhantes, havendo diferença estatística significante apenas no G2, na secção 3,5 mm, quando o sistema TF causou menos transporte do que o sistema ES, obtendo também um melhor IC (p < 0,05). Quando realizada a comparação entre os métodos, independentemente do instrumento utilizado, o transporte do canal foi significantemente menor (0,17 mm) no grupo 2, do que no grupo 1 (0,27 mm) (p < 0,05). A 3,5 e 5,0 mm, o sistema TF promoveu menos transporte no grupo 2 do que no grupo 1 (p < 0,05). Para o sistema ES, diferença estatística foi encontrada a 2,0 mm, aonde o transporte também foi menor no grupo 2 (p < 0,05). Concluiu-se que os sistemas TF e ES se comportaram de modo semelhante quanto ao transporte do canal e ao IC, permitindo o preparo de canais curvos com pouco desvio. Os dois instrumentos apresentaram desvios tanto para o sentido mesial, quanto para o sentido distal. E quando comparados apenas os métodos de avaliação, no método da CT o transporte do canal foi menor do que no método de Bramante Modificado. / The chemomechanical preparation is one of the most important phases of endodontic treatment, because it promotes disinfection of the root canal system by cleaning and shaping. The preparation of curved canals is a major challenge due to the frequent occurrence of operative accidents as the canal transportation. The introduction of instruments of nickel-titanium (NiTi) alloy has contributed considerably to the improvement of canal instrumentation quality. The different rotary systems that are continuously presented to dental professionals should be studied in detail, because their mechanical properties can vary according to the design of each instrument and the manufacture characteristics. The aim of this study was to evaluate, ex vivo, the quality of preparation of curved canals and centering ability of the rotary systems Twisted File (TF) (Sybron Endo), twisted, and EndoSequence (ES) (Brasseler), ground, analyzing the extent and direction of any transportation and the centering ratio of instrument, by cross sections and microcomputed tomography (CT). Thirty lower molars were divided into two groups, and prepared according to the design of each method: G1 Bramante Modified and G2 - CT. In G1, the teeth were embedded in resin blocks and sectioned at 2,0, 3,5 and 5,0 mm from the apex. The sections were photographed and the blocks were reassembled and subjected to rotary instrumentation. In G2, the teeth were embedded in an impression material and scanned with a microtomograph, before and after preparation. The images were reconstructed from the cross sections and the axial sections corresponding to distances of 2,0, 3,5 and 5,0 mm from the apex were selected. The results were submitted to statistical nonparametric test Mann-Whitney. In both groups, the canal transportation and IC for TF and ES systems were similar, with statistical difference only for the 3.5 mm section, while TF system caused less canal transportation than ES system, obtaining also better IC (p <0.05). When compared only the methods, regardless of instrument used, the canal transportation was significantly smaller (0.17 mm) in group 2 than in group 1 (0.27 mm) (p <0.05). At 3.5 and 5.0 mm, TF system promoted less transportation in group 2 than in group 1 (p <0.05). For ES system, statistical difference was found at 2.0 mm, where transportation was also lower in group 2 (p <0.05). It was concluded that the systems TF and ES behaved similarly about the canal transportation and the centering ability, allowing the preparation of curved canals with little deviation. The two instruments showed deviations for both the mesial and distal direction. When comparing only the methods of assessment, at CT the canal transportation was lower than in Bramante Modified method. Instrumentação rotatória Instrumentos endodônticos Microtomografia computadorizada Níquel-titânio Preparo do canal radicular Endodontic instruments Microcomputed tomography Nickel-titanium Root canal preparation Rotary instrumentation
35	Semi-quantitative röntgentomographische Untersuchungen zur Biodistribution von magnetischen Nanopartikeln in biologischem Gewebe Rahn, Helene 12 December 2011 (has links) Im Rahmen der vorliegenden Dissertationsschrift „Semi-quantitative röntgentomographische Untersuchungen zur Biodistribution von magnetischen Nanopartikeln in biologischem Gewebe“ wurden tomographische Untersuchungen an biologischen Objekten durchgeführt. Bei diesen Objekten handelt es sich um Gewebeproben nach minimal-invasiven Krebstherapien wie zum Beispiel magnetischem Drug Targeting und magnetischer Wärmebehandlung. Der Erfolg dieser Therapien ist sowohl abhängig von der korrekten Verteilung der magnetischen Nanopartikel als auch von der Tatsache, dass diese in der Zielregion in einer ausreichenden Menge vorhanden sind. Das Vorliegen dieser beiden Voraussetzungen ist in der vorliegenden Arbeit untersucht worden. Dabei lag der Schwerpunkt der Arbeit auf der Quantifizierung von magnetischem Material in unterschiedlichen biologischen Gewebeproben mittels Röntgenmikrocomputertomographie (XµCT). Für diesen Zweck wurde ein Kalibrationssystem mit speziellen Phantomen entwickelt, mit dessen Hilfe eine Nanopartikelkonzentration einem Grauwert voxelweise zugewiesen werden kann. Mit Hilfe der Kalibration kann der Nanopartikelgehalt sowohl in monochromatischen als auch in polychromatischen tomographischen Daten im Vergleich zu magnetorelaxometrischen Ergebnissen mit wenigen Prozent Abweichung ermittelt werden. Trotz Polychromasie und damit einhergehenden Artefakten können 3-dimensionale röntgentomographische Datensätze mit einer geringfügigen Konzentrationsabweichung im Vergleich zur quantitativen Messmethode Magnetorelaxometrie semi-quantitativ ausgewertet werden. / The success of the minimal invasive cancer therapies, called magnetic drug targeting and magnetic heating treatment, depends strongly on the correct distribution of the magnetic nanoparticles on one side. On the other side it depends on the fact that a sufficient amount of magnetic nanoparticles carrying drugs is accumulated in the target region. To study whether these two requirements are fulfilled motivates this PhD thesis „Semi-quantitative X-ray-tomography examinations of biodistribution of magnetic nanoparticles in biological tissues“. The analysis of the distribution of the magnetic nanoparticles in tumours and other tissue examples is realized by means of X-ray-micro computer tomography (XμCT). The work focuses on the quantification of the magnetic nanoparticles in different biological tissue samples by means of XµCT. A calibration of the tomographic devices with adequate phantoms, developed in the frame of this work, opens now the possibility to analyze tomographic data in a semi-quantitative manner. Thus, the nanoparticle concentration can be allocated voxel-wise to the grey values of the three-dimensional tomographic data. With the help of calibration of the tomography equipments used, polychromatic as well as monochromatic three-dimensional representations of objects can be analyzed with regard to the biodistribution of magnetic nanoparticles as well as with regard to their quantity. The semi-quantitative results have been compared with results obtained with a quantitative measurement method magnetorelaxometry (MRX). Thereby a good agreement of the semi-quantitative and quantitative data has been figured out. info:eu-repo/classification/ddc/620 ddc:620
36	The effect of acid etching on remineralization of incipient caries lesions : a micro-ct study Yeslam, Hanin E. January 2009 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / Etching of enamel caries lesions has been demonstrated to enhance remineralization. However, this effect reaches a plateau after a period of time. This study aimed at investigating the effectiveness of additional acid etching on remineralization. Forty 1 mm × 2 mm human enamel blocks with chemically induced artificial incipient lesions were used. Ten specimens were randomly selected at the end of demineralization for transverse microradiography (TMR) analysis. The remaining specimens were then divided into three groups (n = 10). Group A was remineralized by a pH cycling system with 1100 ppm sodium fluoride for 20 days. In group B, the specimens were etched with 35-percent phosphoric acid for 30 s and then remineralized. Group C was remineralized by same procedure as group B plus and given an additional acid etch after 10 days of remineralization. Mineral density was measured by x-ray microtomography (µ-CT). The volumetric mineral content [VM (µm3×105)] was determined between 91 and 0-wt%. The µ-CT % mineral recovery (%) was calculated using the formula 100×(remineralize VM - demineralization VM) / (sound VM - demineralization VM). One-hundred-μm sections of demineralized and remineralized specimens were used to assess the mineral loss (IML: vol%×µm) and lesion depth (µm) using TMR. The three groups showed no significant difference in mineral change or mineral content for µ-CT or TMR lesion depth. The TMR IML showed a significant difference between the demineralized specimens and the three remineralized groups. The correlation between TMR IML and TMR lesion depth was 0.66 (p < 0.0001). The µ-CT percent mineral recovery from demineralization was correlated with neither TMR IML nor TMR lesion depth. When evaluated with µ-CT, the twice-acid-etched group presented lower mineral gain values than the group etched only once with acid. Also, the twice-etched group presented lower mineral gain and greater TMR IML compared with the non-acid etch group. TMR images revealed reduction of surface layer in the acid-etched groups, especially in the twice-etched group, in which significant reduction or loss of surface layer occurred. Based on these results, we conclude that additional acid etching with 35-percent phosphoric acid does not enhance remineralization compared with a single application of acid etching. We believe that the viable existence of the surface layer is essential for remineralization of the lesion. Further investigations into the accuracy of µ-CT to detect minute mineral changes in incipient caries lesions are probably needed. Dental caries Incipient caries lesions Microradiography Microcomputed tomography Micro CT TMR Fluoride Acid etching Remineralization Tooth Remineraliztion -- methods Acid Etching, Dental. Dental Caries -- prevention and control Dental Enamel -- ultrastructure
37	Avaliação do efeito de duas técnicas de instrumentação na zona de risco de molares inferiores curvos por microtomografia computadorizada e análise de imagens / Effect of two instrumentation techniques in the risk zone of curved molars by microcomputed tomography and image analysis Karina Andrade Di Giorgi 25 February 2010 (has links) Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / O objetivo deste estudo foi avaliar a espessura mínima radicular remanescente e o desgaste porcentual do terço cervical em raízes mesiais de molares inferiores, após a instrumentação com as técnicas ProTaper Universal e Lima única F2. Foram obtidos 100 primeiros molares inferiores com raízes completamente separadas. Desse total, foram selecionados e incluídos no estudo somente 22 que possuíam dois canais distintos na raiz mesial, comprimento entre 20 e 22 mm e grau de curvatura da raiz mesial com angulação variando entre 10 e 20. Destes, 8 foram eliminados por possuírem uma anatomia muito discrepante, o que limitava o processamento e análise digital das imagens (PADI). Os dentes foram acessados e a patência apical foi realizada em todos os canais determinando o comprimento de trabalho. Em cada dente, cada canal mesial foi instrumentado por uma técnica diferente. As amostras foram posicionadas em um dispositivo de montagem e digitalizadas através de microtomografia computadorizada antes e depois de serem completamente instrumentadas. O volume de interesse, correspondente à região de zona de risco, com uma grande margem de tolerância, tanto em direção apical quanto em direção cervical, foi determinado por 234 fatias, totalizando um comprimento vertical de 3,5 mm, para avaliação quantitativa comparativa. Através de PADI mediu-se, de forma automática, a espessura mínima radicular nos dois canais mesiais, antes e após a instrumentação, para todas as fatias de todos os dentes. A partir destes dados foi calculado o desgaste porcentual. Após o tratamento estatístico das mais de 6500 medidas obtidas, pôde-se concluir que não existiu diferença no desgaste da zona de risco produzido pelas duas técnicas de instrumentação testadas. Em todos os casos a espessura radicular remanescente permaneceu dentro de uma margem de segurança, não havendo, portanto, nenhum caso de rasgo ou perfuração. Dessa forma, ambas as técnicas estudadas foram consideradas seguras quanto ao desgaste da zona de risco da raiz mesial dos molares inferiores. / The aim of the present study was to evaluate the minimal remaining root canal thickness and percentage of dentin removed of the cervical third of the mesial roots mandibular molars after instrumentation with the ProTaper Universal and Single File F2 Techniques. From a total of 100 teeth, only 22 were selected and included in the study by having two distinct canals in the mesial root with length between 20 and 22 mm and degree of curvature presenting angle between 10 and 20. Eight specimens were eliminated because they have a very disparate anatomy that limited the digital processing and analysis of the images (PADI). The teeth were accessed and patency was performed in all canals determining the working length. In each tooth, each mesial canal was instrumented by a different technique. The samples were placed in a mounting device and scanned by microcomputed tomography before and after instrumentation. The corresponding volume of interest to the region of the risk zone was determined by 234 slices, with a total vertical length of 3.5 mm, for quantitative comparative evaluation with a high degree of tolerance. The PADI performed the measures automatically of the minimal thickness of root in both mesial canals, before and after instrumentation for all slices of each tooth. From these data, the percentage of dentin removed was calculated. After statistical analysis of more than 6500 measurements, it was concluded that there was no difference in the wear of the risk zone produced by the two instrumentation techniques tested. In all instrumented specimens, the root thickness remained within a security margin, thus, no case of strip perforation was observed. Therefore, both techniques were considered safe to be used in mesial root of mandibular molars. Endodontia Instrumentação endodôntica Zona de risco ProTaper universal Técnica da lima única Microtomografia computadorizada Análise de imagens Endodontics Root canal instrumentation Risk zone ProTaper universal Single file technique Microcomputed tomography Image analysis ENDODONTIA
38	[en] NON-DESTRUCTIVE, MICROSTRUCTURAL AND MECHANICAL PERFORMANCE EVALUATION OF METAL POLYMER HYBRID STRUCTURES / [pt] AVALIAÇÃO NÃO-DESTRUTIVA, MICROESTRUTURAL E DESEMPENHO MECÂNICA DE JUNTAS HIBRIDAS PRODUZIDAS COM METAL E POLÍMERO RAPHAEL PEREIRA PINTO 28 January 2019 (has links) [pt] A indústria de transporte tem enfrentado rigorosas políticas econômicas e ambientais para a redução do consumo de combustível e consequentemente redução na emissão de CO2. Uma solução promissora para suprir tais exigências encontra-se na redução do peso da estrutura de carros e aviões através do uso de estruturas híbridas. Técnicas de união convencionais geralmente são inadequadas para produzir juntas híbridas de metal e polímero. Sendo assim, tecnologias de junção inovadoras estão sendo desenvolvidas para surprir tais limitações, como por exemplo: União pontual por fricção (FSpJ), rebitagem por fricção (FricRiveting) e união por energia ultra-sônica (U-Joining). Esta dissertação de mestrado foi desenvolvida para avaliar juntas híbridas produzidas com baixo (BAE) e alto aporte energético (AAE). O monitoramento da temperatura, a análise microestrutural, a resistência mecânica e os respectivos modos de falhas das juntas foram avaliados para as três técnicas de fricção. Neste contexto, técnicas de microscopia, microtomografia de raio-x e ensaios de resistência mecânica foram escolhidas para tal finalidade. Juntas de AAE produzidas por união pontual de fricção apresentaram 43 porcento maior resitência mecânica comparado com juntas de BAE e ambas falharam no centro da área de junção. Juntas de AAE produzidas por rebitagem apresentaram 46 porcento maior resitência mecânica e falha do rebite metálico fora da placa polimérica, comparado com juntas de BAE que teve o rebite metálico arrancado da placa polimérica. A resitência ao cisalhamento das juntas de AAE (fratura da placa polimérica) produzidas por energia ultra-sônica foi 85 porcento maior que as juntas de BAE (fratura dos pinos combinado com falhas coesivas e adesivas). / [en] The transportation industry has been facing stringent environmental regulations to decrease fuel consumption and CO2 emissions. A promising solution to fulfill these demands is decreasing the structural weight of vehicles and airplanes by combining lightweight alloys and fiber-reinforced polymers in hybrid structures. Conventional joining technologies are usually inadequate to produce high performance joints. To overcome these limitations, advanced joining technologies are under development such as: Friction Spot Joining (FSpJ), Friction Riveting (FricRiveting) and Ultrasonic Joining (U-Joining). This master dissertation was devised to evaluate FSp, FricRiveting and U-Joining joints produced with different heat input levels (low and high) in terms of process temperature development, microstructural features, quasi-static mechanical performance and the respective failure mechanisms. In this context, microscopy techniques (i.e. optical, confocal laser and scanning electron), X-Ray micro-computed tomography (microCT), lap shear and T-Pull testing were chosen for this purpose. FSp joints produced under HHI joining condition achieved an ultimate lap shear force (ULSF) 43 percent higher than LHI joints, whereas HEI joints produced by FricRiveting process achieved ultimate tensile force (UTF) 46 percent higher than LEI joints. The lap shear strength of ultrasonically joined joints produced under HEI joining condition was up to 85 percent higher than LEI joints. FSp joints failured in the center of the overlap area while friction-riveted joints failured through the rivet (HEI) and full rivet pull-out (LEI). Ultrasonically joined joints failured through the polymer (HEI), whereas LEI joints failured through a combination of shearing of the metallic pins and a mixed cohesive (CF) and adhesive (AF) failure. [pt] MICROTOMOGRAFIA COMPUTADORIZADA [en] MICROCOMPUTED TOMOGRAPHY [pt] UNIAO PONTUAL POR FRICCAO [en] FRICTION SPOT JOINING - FSPJ [pt] REBITAGEM POR FRICCAO [en] FRICTION RIVETING - FRICRIVETING [pt] UNIAO POR ENERGIA ULTRASSONICA [en] ULTRASONIC JOINING - U-JOINING [pt] ESTRUTURAS HIBRIDAS [en] HYBRID STRUCTURES
39	Avaliação do efeito de duas técnicas de instrumentação na zona de risco de molares inferiores curvos por microtomografia computadorizada e análise de imagens / Effect of two instrumentation techniques in the risk zone of curved molars by microcomputed tomography and image analysis Karina Andrade Di Giorgi 25 February 2010 (has links) Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / O objetivo deste estudo foi avaliar a espessura mínima radicular remanescente e o desgaste porcentual do terço cervical em raízes mesiais de molares inferiores, após a instrumentação com as técnicas ProTaper Universal e Lima única F2. Foram obtidos 100 primeiros molares inferiores com raízes completamente separadas. Desse total, foram selecionados e incluídos no estudo somente 22 que possuíam dois canais distintos na raiz mesial, comprimento entre 20 e 22 mm e grau de curvatura da raiz mesial com angulação variando entre 10 e 20. Destes, 8 foram eliminados por possuírem uma anatomia muito discrepante, o que limitava o processamento e análise digital das imagens (PADI). Os dentes foram acessados e a patência apical foi realizada em todos os canais determinando o comprimento de trabalho. Em cada dente, cada canal mesial foi instrumentado por uma técnica diferente. As amostras foram posicionadas em um dispositivo de montagem e digitalizadas através de microtomografia computadorizada antes e depois de serem completamente instrumentadas. O volume de interesse, correspondente à região de zona de risco, com uma grande margem de tolerância, tanto em direção apical quanto em direção cervical, foi determinado por 234 fatias, totalizando um comprimento vertical de 3,5 mm, para avaliação quantitativa comparativa. Através de PADI mediu-se, de forma automática, a espessura mínima radicular nos dois canais mesiais, antes e após a instrumentação, para todas as fatias de todos os dentes. A partir destes dados foi calculado o desgaste porcentual. Após o tratamento estatístico das mais de 6500 medidas obtidas, pôde-se concluir que não existiu diferença no desgaste da zona de risco produzido pelas duas técnicas de instrumentação testadas. Em todos os casos a espessura radicular remanescente permaneceu dentro de uma margem de segurança, não havendo, portanto, nenhum caso de rasgo ou perfuração. Dessa forma, ambas as técnicas estudadas foram consideradas seguras quanto ao desgaste da zona de risco da raiz mesial dos molares inferiores. / The aim of the present study was to evaluate the minimal remaining root canal thickness and percentage of dentin removed of the cervical third of the mesial roots mandibular molars after instrumentation with the ProTaper Universal and Single File F2 Techniques. From a total of 100 teeth, only 22 were selected and included in the study by having two distinct canals in the mesial root with length between 20 and 22 mm and degree of curvature presenting angle between 10 and 20. Eight specimens were eliminated because they have a very disparate anatomy that limited the digital processing and analysis of the images (PADI). The teeth were accessed and patency was performed in all canals determining the working length. In each tooth, each mesial canal was instrumented by a different technique. The samples were placed in a mounting device and scanned by microcomputed tomography before and after instrumentation. The corresponding volume of interest to the region of the risk zone was determined by 234 slices, with a total vertical length of 3.5 mm, for quantitative comparative evaluation with a high degree of tolerance. The PADI performed the measures automatically of the minimal thickness of root in both mesial canals, before and after instrumentation for all slices of each tooth. From these data, the percentage of dentin removed was calculated. After statistical analysis of more than 6500 measurements, it was concluded that there was no difference in the wear of the risk zone produced by the two instrumentation techniques tested. In all instrumented specimens, the root thickness remained within a security margin, thus, no case of strip perforation was observed. Therefore, both techniques were considered safe to be used in mesial root of mandibular molars. Endodontia Instrumentação endodôntica Zona de risco ProTaper universal Técnica da lima única Microtomografia computadorizada Análise de imagens Endodontics Root canal instrumentation Risk zone ProTaper universal Single file technique Microcomputed tomography Image analysis ENDODONTIA

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