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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
71

Pasta de gesso com incorporação de resíduo de gesso e aditivo retardador de pega / Gypsum plaster with gypsum residue incorporation and setting retardant additive

Trovão, Ana Paula Milagres 10 August 2012 (has links)
Made available in DSpace on 2016-12-23T14:05:51Z (GMT). No. of bitstreams: 1 Ana Paula Milagres Trovao.pdf: 5557007 bytes, checksum: b2950e914a7a368c32f59e43ed00eb12 (MD5) Previous issue date: 2012-08-10 / The use of plaster in civil construction generates a large amount of waste, but it is a material that posses properties that makes it a highly competitive product. The main cause of the generation of this waste is the rapid hardening of the pastes. The incorporation of waste gypsum into the gypsum pastes results in an acceleration of the hardening process, which might increase the volume of residues generated. This dissertation aimed to develop procedure to incorporate the gypsum residue into plaster pastes without compromising the paste mechanical properties and, especially without accelerating its hardening process. Tests have been developed to evaluate the plaster pastes setting time, consistency, workability and temperature reading in the plaster pastes in the fresh state and evaluate the hardness and axial compressive strength in the hardened state. Tests results showed the viability of the incorporation of 5% gypsum waste in substitution of gypsum in the plaster paste when combined with borax retardant additive, which promoted extension of the workable time of the paste and an increase in the pastes mechanical properties / A utilização do gesso pela construção civil gera um grande volume de resíduos, no entanto é um material que apresenta propriedades que o torna altamente competitivo no mercado. A principal causa da geração desse resíduo é o rápido endurecimento das pastas. A incorporação de resíduo de gesso às pastas provoca a aceleração no processo de endurecimento, podendo aumentar ainda mais o volume de resíduos gerados. Essa dissertação teve como objetivo buscar a forma de incorporação do resíduo às pastas de gesso para revestimento de parede, sem comprometer suas propriedades mecânicas e principalmente não acelerar seu endurecimento. Foram realizados os ensaios de tempo de pega, consistência, consistência útil e leitura de temperatura nas pastas em seu estado fresco além dos ensaios de dureza e compressão axial destas no estado endurecido. Os ensaios apontaram a viabilidade da incorporação de 5% de resíduo de gesso em substituição do gesso quando associado ao aditivo retardador bórax, que promoveu ampliação do tempo de utilização da pasta e o aumento nas propriedades mecânicas ensaiadas
72

Desenvolvimento e caracterização de compósitos piezoelétricos de PZT com matriz cimentícia e borracha natural /

Santos, Josiane Alexandrino dos. January 2018 (has links)
Orientador: Jose Antonio Malmonge / Resumo: O uso de materiais inteligentes tem sido cada vez mais utilizado pelo ramo de engenharia civil, devido à crescente demanda por construções que têm como função não só atenderem ao crescente aumento populacional, como agirem também como facilitadores da vida humana. Dentro dos estudos em desenvolvimento nesta área, o que vem ganhando destaque é o desenvolvimento de sensores compósitos de materiais piezoelétricos à base de cimento, que sejam capazes de atuar no monitoramento e detecção de possíveis falhas nas estruturas civis em tempo real e contínuo. Alguns dos grandes problemas encontrados no desenvolvimento de sensores piezoelétricos baseados em matrizes cimentícias, encontram se na degradação das propriedades dos sensores frente às condições ambientais em tempo contínuo a que estes são submetidos, bem como, a possibilidades de as fases de preenchimento interferirem diretamente no processo de cura da matriz, reduzindo suas propriedades mecânicas desejáveis. Buscando resolver tais problemas, o presente trabalho teve como objetivo a obtenção e caracterização de compósitos piezoelétricos utilizando como matriz o cimento modificado com borracha natural (BN) e titanato zirconato de chumbo (PZT) como fase piezoelétrica. O PZT foi escolhido como fase piezoelétrica devido seu alto valor do coeficiente piezoelétrico enquanto a inserção da BN buscou garantir aos compósitos, resistência à passagem de água, umidade e a resistência a soluções nocivas ao cimento, atuando no aumento da dura... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: The use of intelligent materials has been increasingly used by the civil engineering industry, in response to the increasing demand for constructions that serve, not only to attend to the increasing population, but also to act as facilitators of human life. Within the studies under development in this area, the one that has being gaining prominence is the development of composite sensors of cement-based piezoelectric materials, that can act in the monitoring and detection of possible failures in civil structures in real and continuous time. Some of the major problems encountered in the development of piezoelectric sensors based on cementitious matrices lie in the degradation of the properties of the sensors, both as against the environmental conditions in continuous time to which they are subjected, as well as the possibility that filling phases interfere directly in the process of curing the matrix, reducing its desirable mechanical properties. In order to solve such problems, the present study aimed to obtain and characterize of a composite piezoelectric array of modified cement with natural rubber (NR) and lead zirconate titanate (PZT) as the piezoelectric layer. The PZT was chosen as the piezoelectric phase because of its high piezoelectric coefficient, while the BN insertion sought to guarantee the resistance of the composites to the passage of water, moisture and noxious solutions to the cement, in order to increase not only the durability, as well the piezoeletric prop... (Complete abstract click electronic access below) / Mestre
73

Resíduo Industrial de vidro moído em argamassa de cimento Portland.

Paiva, Otávio Augusto 07 August 2009 (has links)
Made available in DSpace on 2015-04-22T22:08:50Z (GMT). No. of bitstreams: 1 DISSERTACAO_OTAVIO AUGUSTO PAIVA.pdf: 8701931 bytes, checksum: fa7ddfc8f71e05d7fe06a55c98faefc8 (MD5) Previous issue date: 2009-08-07 / Fundação de Amparo à Pesquisa do Estado do Amazonas / The experimental program of the present project was developed in order to evaluate the residue performance of ground plain glasses in cement based paste and mortar. Different conditions of grounding were used to generate a material with particles of the same order of magnitude of the cement particles. The ground glass residue (GGR) displayed physicalchemistry characteristics compatible to the ones of pozzolan, with relevance to the pozzolanic activity index (PAI). PAI equal to 104% was obtained, which is higher than that 75% -minimum value required by the Brazilian standard. The GGR was used in paste and mortar as a partial replacement of cement of 0%, 10%, 15% and 20% in mass, considering a waterbinder ratio of 0,4. The GGR behavior was evaluated through the X-Ray diffraction, thermal analysis, compressive strength, modulus of elasticity, porosity, water absorption, and alkaliaggregate reaction. The results did not indicate difference between the mechanical strength of the pastes with GGR and reference mixture after 28 days of curing. In mortars, the results of mechanical strength of the GGR mixtures were adequate from 7 days due to the filler and pozzolanic effects, mainly the 20% GGR mortar. In particular, the GGR provided increasing of compressive strength of 14% and 22% after 28 and 56 days of curing, respectively. / O programa experimental realizado no presente projeto foi desenvolvido de forma a avaliar o desempenho do resíduo de vidros planos moídos em pastas e argamassas a base de cimento Portland. Foram estudadas diferentes condições de moagem que possibilitassem a obtenção de um material com partículas da mesma ordem de gRandeza das partículas do cimento. O resíduo de vidro moído (RVM) apresentou características físico-químicas compatíveis às da pozolana, com destaque para o índice de atividade pozolânica. Obteve-se valor de 104%, empregando o cimento, que é superior a 75%, prescrito na norma brasileira. O RVM foi aplicado em pastas e argamassas como substituto parcial do cimento, para teores de 0%, 10%, 15%, e 20% em massa, para uma relação água-aglomerante de 0,4. O comportamento do RVM foi avaliado através de ensaios de difração de raios X, análise térmica, resistência à compressão, porosimetria, absorção, permeabilidade, módulo de elasticidade e reação álcaliagregado. Os resultados indicaram que as resistências mecânicas das pastas com RVM alcançaram o valor da resistência de referência a partir dos 28 dias. Nas argamassas foram obtidos resultados satisfatórios de resistência mecânica a partir dos 7 dias, iniciado pelo efeito de preenchimento e, posteriormente, pelo efeito pozolânico que superou os resultados de referência após os 28 dias, principalmente para o teor de 20%. Particularmente, o RVM aumentou a resistência à compressão em 14 e 22% após os 28 e 56 dias de cura, respectivamente.
74

Avaliação da alteração das propriedades da pasta de cimento em ambiente de repositório / Assessment of cement paste properties changes in repository environment

Eduardo Gurzoni Alvares Ferreira 30 April 2013 (has links)
Pasta de cimento é um material comum em repositórios para rejeitos radioativos, atuando como material estrutural e de imobilização. Sua utilização como material de preenchimento em um repositório tipo poço tubular profundo para fontes seladas, no entanto, requer um maior tempo de vida útil do material. O conhecimento de seu comportamento em longo prazo é necessário para garantir a segurança da instalação em milhares de anos. O presente trabalho avaliou as alterações na pasta de cimento induzidas por fatores de degradação, como ataque de agentes agressivos, alta temperatura e presença de campo de radiação. Corpos de prova (cps) de pasta de cimento foram submetidos a ensaios acelerados de degradação e os efeitos deletérios foram avaliados por meio de ensaios de resistência mecânica, variação dimensional, lixiviação/penetração de íons, DRX, TGA e MEV. Observou-se que a hidratação dos cps foi beneficiada pela imersão (em água destilada ou em solução salina) e alta temperatura, resultando em uma resistência maior. O armazenamento à seco prejudicou a hidratação, mantendo a resistência mais baixa. O tempo de imersão e a irradiação não foram capazes de alterar a mineralogia e a resistência da pasta de cimento. / Cement paste is widely used in repositories for radioactive wastes, acting as structural and immobilization material. However, its use as backfill material in boreholes for sealed sources requires a longer service life of this material. The assessment of the cement paste behavior in long term is needed to improve the confidence that the material will perform as required during the service life of the facility. This research evaluated the changes in cement paste induced by degradation parameters. Portland cement paste specimens (cps) were submitted to accelerated degradation tests and the damage effects was evaluated by mechanical strength, variation of sample mass and volume, leaching/penetration of ions, XRD, TGA and SEM. It was observed that cps hydration was benefited by immersion (in distilled water or salt solution) and high temperatures, resulting in a higher strength. Dry storage, however, influenced the hydration process and maintained strength lower. Time of treatment and irradiation were not able to alter mineralogy and durability of cement paste.
75

Mesoporous titania beads for use in dye-sensitized solar cells

Mallows, John January 2017 (has links)
A range of titanium dioxide (titania) samples provided by Huntsman Pigments and Additives were investigated for their suitability for use in various optoelectronic devices, specifically dye-sensitized solar cells (DSSCs). Five of the titania samples are 1-20 micrometre size spherical 3D porous beads made up of titania nanoparticles and a further six samples are porous titania nanoparticle clusters of no specific shape, all of which possess high surface areas from 85 to 276 m2g-1. The samples were compared to commercially available nanocrystalline TiO2 powders and paste. All of the samples were initially assessed for suitability in DSSC devices by investigating various properties such as crystal phase, particle size, band gap, morphology and N719 dye adsorption, both as a powder sample and as a sintered film, employing techniques such as powder x-ray diffraction, UV/Vis spectroscopy and scanning electron microscopy. Different methods of formulating the samples into pastes for application to a substrate were attempted and electrochemical properties of a selection of films were also compared. The more promising titania samples were formulated into dye-sensitized solar cells and cell efficiencies calculated. DSSC devices were also fabricated with low temperature (125oC) sintering of the titania layer to assess the suitability of the samples for use in devices with flexible substrates. Initial devices incorporating the Huntsman TiO2 samples provided low efficiencies (< 0.1%). The samples were then modified with pre-sintering treatment prior to paste formulation to optimize crystallinity, particle size, porosity and surface area. The modified titania bead samples showed great promise in low temperature sintered devices, providing device efficiencies of 2.8%, more than double that of those incorporating the standard P25 TiO2 (1.3%). After sample modification a superior solar cell performance (3.2%) was also observed in 510oC sintered devices when compared to the standard P25 TiO2 devices (2.9%), with higher photocurrent and open circuit voltage than devices fabricated from commercially optimized TiO2 paste. Devices were also fabricated using pre-sensitized titania in an attempt to reduce device manufacturing time. The modified samples again showed good performance, providing working devices with efficiencies comparable to the equivalent pre-sensitized P25 devices.
76

Aplicação da espectroscopia na região do visível e infravermelho próximo na avaliação não-destrutiva de materiais cimentícios / Application of visible and near-infrared spectroscopy in the non-destructive evaluation of cement materials

Santos, Rochelle Schneider dos January 2014 (has links)
O século 21 vem sendo caracterizado pela urbanização acelerada em países economicamente emergentes. O aumento das construções em áreas urbanas, quando mal planejado, ocasiona problemas estruturais e espaciais que afetam diretamente os cidadãos e seu entorno. Muitas pesquisas científicas propõem métodos para monitorar a qualidade dos materiais utilizados em obras de engenharia. As inspeções de qualidade mais aplicadas são feitas em materiais relacionados à estrutura, como o concreto. Todo o concreto utilizado em obra é obrigatoriamente submetido ao ensaio à compressão axial, que rompe os corpos-de-prova. Estes ensaios destrutivos não são realizados in loco e todo o material utilizado é descartado após análise. Neste sentido, o sensoriamento remoto pode ser utilizado no mapeamento e monitoramento de materiais de construção, permitindo investigar e identificar diversos componentes de forma não-destrutiva. Os materiais podem ser inspecionados diretamente no local da obra, de uma forma rápida, não-invasiva e de baixo custo, características imprescindíveis no processo contínuo da construção civil. Neste trabalho foi utilizado o equipamento espectrorradiômetro FieldSpec 3 para medir materiais cimentícios à base de cimento Portland (pasta de cimento, argamassa e concreto). Nas amostras de pasta de cimento e argamassa, analisou-se o comportamento espectral de quatro diferentes resistências mecânicas e nas amostras de concreto avaliou-se a diferença entre o comportamento espectral de concretos submetidos a carregamento precoce e concretos de referência. As curvas espectrais geradas pelo registro da radiação eletromagnética refletida e absorvida das amostras foram interpretadas com base na teoria de espectroscopia vibracional e eletrônica. Esta dissertação tem um caráter inovador e a técnica aplicada é extremamente promissora e praticável como um método alternativo. Na literatura não existem estudos que já fizeram esta investigação, nem trabalhos acadêmicos com o propósito de diferenciar resistências mecânicas a partir da análise e interpretação de assinaturas espectrais destes materiais. O objetivo deste trabalho é mostrar uma técnica auxiliar inédita para analisar corpos-de-prova sólidos, utilizando a espectroscopia no visível e infravermelho próximo. O resultado deste estudo constatou que as amostras de pasta e de argamassa apresentaram contraste espectral e detectou a presença e proporção de água nas amostras. Também identificaram-se diferenças entre o comportamento espectral dos concretos de referência e o dos pré-carregados, evidenciando-se a aplicabilidade desta ferramenta na identificação da microfissuração do concreto. Com auxílio da transformada de wavelet foi possível comprovar estatisticamente o contraste espectral e que a profundidade das feições de absorção da água é inversamente proporcional à resistência mecânica, para materiais cimentícios como a pasta e argamassa. A técnica apresentada foi considerada bastante promissora como ferramenta auxiliar na avaliação da qualidade de materiais cimentícios à base de cimento Portland. / The 21st century has been characterized by rapid urbanization in economically emerging countries. The increase of constructions in urban areas, when not planned correctly, causes structural and spatial problems that directly affect citizens and their surroundings. Many scientific researches propose methods to monitor the quality of materials used in engineering works. The quality inspections more applied are made in materials related to the structure, like concrete. All the concrete used in the side work must be submitted to axial compression test, which breakes the samples. These destructive tests are not done in loco and all the material used is discarded after analysis. This way, the remote sensing can be used for mapping and monitoring of construction materials, allowing to investigate and to identify many components in a non-destructive way. The materials can be inspected directly inside the side work, in a quick way, non-invasive and low cost, indispensable characteristics in the ongoing process of civil construction. In this work a piece of equipment FieldSpec 3 spectroradiometer was used to measure cement materials based on Portland cement (cement paste, mortar and concrete). In the cement paste and mortar samples was analyzed the spectral behavior of four different compressive strengths and in the concrete samples was analyzed the difference between the spectral behavior of concretes submitted to early loading and concretes of reference. The spectral curves produced by register of electromagnetic radiation reflected and absorbed of the samples were interpreted based on the theory vibrational and electronic spectroscopy. This dissertation is an innovation and the technique applied is extremely promising and feasible as an alternative method. In the literature there are no studies that have already done this research or academic papers with the purpose of differentiate compressive strengths from the analysis and interpretation of their spectral signatures. The objective of this work is to show an original technique to analyze solid samples using the spectroscopy in the visible and near infrared. The result of this study found that the samples of cement past and mortar showed spectral contrast and detected the presence and proportion of water in the samples. Besides it identified differences between the spectral behavior of early loading and concretes of reference, highlighting the applicability of this tool in the identification of the concrete microcracking. With the help of wavelet transform was possible to prove statistically the spectral contrast and that the depth of water absorption features is inversely proportional to the compressive strength, for cement materials such as paste and mortar. The technique presented was considered very promising as an assistant technique in quality appraisal of cement material based on Portland cement, may complement information obtained by conventional techniques.
77

The efficacy of 37% phosphoric acid + Mi Paste Plus on remineralization of enamel white spot lesions

Clark, Kristin Dumboski 01 May 2011 (has links)
Purpose: This in vitro study evaluated the effectiveness of using a 37% phosphoric acid liquid etchant along with MI Paste Plus™ powered technology compared to using MI Paste Plus™ alone or to an artificially created saliva solution in decreasing the demineralization and enhancing the remineralization of artificial carious lesions created on extracted human teeth. The teeth were analyzed and compared using polarized light microscopy, quantitative light-induced fluorescence, and digital photography. Materials and Methods: One hundred three recently extracted non-carious human third molar teeth without observable white-spot lesions, decalcification, or dental fluorosis were selected for this twelve day study and randomly divided into four treatment groups as follows: Group 1 (Control) - Artificial saliva solution (27 teeth) Group 2 (MIP) - MI Paste Plus™ application for 30 minutes daily for 12 days (26 teeth) Group 3 (15MIP) - 15 second etch every third day and MI Paste Plus™ application for 30 minutes daily for 12 days (25 teeth) Group 4 (1MIP) - 1 minute etch on day one ONLY and application of MI Paste Plus™ for 30 minutes daily for 12 days (25 teeth). Results: Results of one<–>way ANOVA revealed there was a significant effect for the type of treatment on the lesion depth (p = 0.0027). The post-hoc Tukey-Kramer's test indicated there was a statistically significant difference between the two groups (15MIP and 1MIP) that incorporated an acid etch in combination with MI Paste Plus™ and the group with exposure to MI Paste Plus™ alone (MIP). In addition, results of one<–>way ANOVA showed that there was no statistically significant effect for type of treatment on the change in fluorescence (p = 0.1417) or the change in density (p = 0.1934). Conclusions: The results of the present study revealed there was a significant effect for the type of treatment on the lesion depth (p = 0.0027). However, the only significant difference found was between the two groups (15MIP and 1MIP) that incorporated an acid etch in combination with MI Paste Plus™ and the group with exposure to MI Paste Plus™ alone (MIP). Thus, daily applications of MI Paste Plus™, with or without an acid etch, did not produce a statistically significant difference in mean lesion depth when compared to the control (artificial saliva group). In addition, the results of the present study showed that there was no statistically significant effect for type of treatment on the change in fluorescence (p = 0.1417) or the change in density (p = 0.1934). Further research is needed to evaluate MI Paste Plus™ capability in prevention of demineralization and/or enhancement of remineralization by conducting randomized clinical trials.
78

Liquefaction of Early Age Cemented Paste Backfill

Saebimoghaddam, Abdolreza 01 September 2010 (has links)
Modern mines require systems that quickly deliver backfill to support the rock mass surrounding underground openings. Cemented Paste Backfill (CPB) is one such backfilling method, but concerns have been raised about CPB’s liquefaction susceptibility especially when the material has just been placed, and if it is exposed to earthquakes or large mining induced seismic events. Conventional geotechnical earthquake engineering for surface structures is now relatively advanced and well accepted, and so the objective of this thesis is to consider how that framework might be extended to assess the liquefaction potential of CPB. Seismic records were analyzed for earthquakes and for large mining induced events. Important seismological trends were consistent for rockbursts and earthquakes when the signals were recorded at distances as proximate as one kilometre, suggesting that the conventional earthquake engineering approach might plausibly be adapted for such design situations. For production blasts and for more proximate locations to rockbursts, much higher frequencies dominate and therefore new design methods may be required. Monotonic triaxial tests conducted on normally consolidated uncemented mine tailings demonstrated that the material is initially contractive up to a phase transition point, beyond which dilation occurs. Most importantly the material never exhibits unstable strain softening behaviour in compression, and only temporary or limited liquefaction in extension. The addition of 3% binder results in initial sample void ratios that are even higher than their uncemented counterparts, and yet the material friction is slightly enhanced when tested at 4 hours cure. These results suggest that the flow liquefaction phenomenon commonly associate with undrained loose sand fills will not occur with paste backfill. Cyclic triaxial test results analyzed in terms of number of cycles to failure for a given cyclic stress ratio exhibited a trend consistent with previous tests on similar materials. However, the addition of 3% binder and testing at 4 hours cure resulted in an order of magnitude larger number of cycles to failure – a surprising and dramatic increase, suggesting good resistance of the material to cyclic mobility. Future research is recommended to build on these results and develop more robust methods for liquefaction assessment of CPB.
79

Electromagnetic Characterization of Cemented Paste Backfill in the Field and Laboratory

Thottarath, Sujitlal 28 July 2010 (has links)
Cemented Paste Backfill (CPB) is a relatively new backfilling technology for which a better understanding of binder hydration is required. This research uses electromagnetic (EM) wave-based techniques to non-destructively study a CPB consisting of tailings, sand, process water and binder (90% blast-furnace slag; 10% Portland cement). EM experiments were performed using a broadband network analyzer (20 MHz to 1.3 GHz) in the lab and capacitance probes (70 MHz) in the lab and field. Results showed that the EM properties are sensitive to curing time, operating frequency and specimen composition including binder content. The volumetric water content interpreted from dielectric permittivity varied little with curing. Temporal variations in electrical conductivity reflected the different stages of hydration. Laboratory results aided interpretation of field data and showed that a reduction in binder content from 4.5% to 2.2% delays setting of CPB from 0.5 days to over 2 days, which has important implications for mine design.
80

Electromagnetic Characterization of Cemented Paste Backfill in the Field and Laboratory

Thottarath, Sujitlal 28 July 2010 (has links)
Cemented Paste Backfill (CPB) is a relatively new backfilling technology for which a better understanding of binder hydration is required. This research uses electromagnetic (EM) wave-based techniques to non-destructively study a CPB consisting of tailings, sand, process water and binder (90% blast-furnace slag; 10% Portland cement). EM experiments were performed using a broadband network analyzer (20 MHz to 1.3 GHz) in the lab and capacitance probes (70 MHz) in the lab and field. Results showed that the EM properties are sensitive to curing time, operating frequency and specimen composition including binder content. The volumetric water content interpreted from dielectric permittivity varied little with curing. Temporal variations in electrical conductivity reflected the different stages of hydration. Laboratory results aided interpretation of field data and showed that a reduction in binder content from 4.5% to 2.2% delays setting of CPB from 0.5 days to over 2 days, which has important implications for mine design.

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