12 resultados para SILICONE RUBBER
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Dissertação para obtenção do Grau de Mestre em Engenharia e Gestão Industrial
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The use of wastes and industrial by-products as building materials is an important issue in order to decrease costs with waste management and the embodied energy of building products. Scrap tire rubber has been studied as aggregate for cementitious materials. Natural hydraulic limes are natural binders with particular characteristics of both air and hydraulic binders. Their specifications became stricter with the last version of EN 459-1:2010. In this study scrap tire rubber was used as additional aggregate of mortars, based on NHL3.5 and natural sand. Different particle size fractions and proportions of scrap tire rubber were used: a mix obtained almost directly from industry (only after sieving for preparation of particle sizes similar to mortar aggregate) and separated fine, medium and coarse fractions; 0%, 18%, 36% and 54% weight of binder, corresponding to 2.5%, 5% and 7.5% weight of sand. The influence of the rubbers´ additions on the mortars´ fresh state, mechanical and physical performance is presented, namely by flow table consistency, water retention, fresh bulk density, dynamic elasticity modulus, flexural and compressive strength, open porosity and bulk density, capillary absorption, drying and thermal conductivity. The use of the rubber mix coming from the waste tire industry seems advantageous and may open possibilities for use as raw material by the mortars industry.
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The use of wastes and industrial by-products as building materials is an important issue in order to decrease costs with waste management and the embodied energy of building products. In this study scrap tire rubber was used as additional aggregate of mortars based on natural hydraulic lime NHL 3.5 and natural sand. Different particle size fractions and proportions of scrap tire rubber were used: a mix obtained directly from industry and separated fine, medium and coarse fractions; 0 %, 18 %, 36 % and 54 % of the weight of binder, corresponding to 2.5 %, 5 % and 7.5 % of the weight of sand. As mortars based on NHL specifications became stricter with the current version of EN 459–1:2015, the influence of the rubber’s additions on the mortars’ fresh state, mechanical and physical performance is presented in this work: flow table consistency, water retention, dynamic elasticity modulus, flexural and compressive strength, open porosity and bulk density, capillary absorption, drying and thermal conductivity are studied. The use of the rubber mix coming from the waste tire industry seems advantageous and may open possibilities for use as raw material by the mortars industry.
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Este trabalho, cujo objectivo centra-se no desenvolvimento de um sistema primário para medição da densidade absoluta de líquidos, compara resultados obtidos através de diferentes metodologias, no que diz respeito ao valor da incerteza, demonstrando assim, qual o melhor método de pesagem a utilizar. A medição da densidade de líquidos efectua-se através do método da pesagem hidrostática, que consiste em pesar uma esfera de silicone fora do líquido (pesagem no ar) e de seguida pesá-la em suspensão num líquido. Para tal, a balança hidrostática possui um dispositivo que suspende a esfera para a sua imersão no líquido. Também é usado o densímetro digital como método de comparação com a pesagem hidrostática. O padrão de densidade utilizado foi a esfera de silicone pois os cristais de silicone são os melhores materiais, devido à elevada estabilidade na determinação da densidade. A densidade do ar é uma das magnitudes de influência mais comum em metrologia, influenciando diversas áreas de medida, incluindo massa, densidade do líquido, volume, entre outros. Por isso, foi importante determinar a densidade do ar medindo a temperatura, a pressão e a humidade relativa e aplicando a equação CIPM. Para medições de densidade por pesagem hidrostática, a água destilada é o líquido normalmente usado. A densidade da água, ρL, foi determinada pela fórmula M. Tanaka, Fujii e Masui, a uma temperatura de 20⁰C, aproximadamente. Após a determinação da densidade, foi estimada a incerteza associada ao valor da mensuranda, pois é a incerteza que define a qualidade do resultado da densidade. A validação de um resultado, como suporte à decisão, é impossível sem o conhecimento da incerteza associada ao próprio resultado. A fonte de incerteza que mais contribuiu para a incerteza global da densidade do líquido foi a massa da esfera. Considerando que o balanço de incertezas é influenciado por diversos factores inerentes ao próprio método, realizou-se uma abordagem ao desenho de experiências, através da análise de variância (ANOVA), cuja técnica permite determinar quais os parâmetros significativos. A fonte de incerteza que mais contribuiu para a incerteza global da densidade do líquido foi “Entre Ensaios”. Através do método ANOVA, verifica-se também que a amostra líquida é estável e homogénea devido a apresentar uma incerteza pequena.
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Dissertação apresentada na Faculdade de Ciências e Tecnologia da Universidade Nova de Lisboa para obtenção do grau académico de Mestre em Engenharia Civil, na especialidade de Reabilitação de Edifícios. A presente dissertação foi preparada no âmbito do Convénio existente entre o Laboratório Nacional de Engenharia Civil(LNEC) e a Faculdade de Ciências e Tecnologia, tendo sido realizada no LNEC
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Dissertação apresentada na Faculdade de Ciências e Tecnologia da Universidade Nova de Lisboa para obtenção do grau de Mestre em Conservação e Restauro
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Dissertação para obtenção do Grau de Mestre em Conservação e Restauro, Especialização em Arte Contemporânea
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Dissertação para obtenção do Grau de Mestre em Energias Renováveis - Conversão Eléctrica e Utilização Sustentáveis
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Dissertação para obtenção do Grau de Mestre em Engenharia de Materiais
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Nowadays, existing 3D scanning cameras and microscopes in the market use digital or discrete sensors, such as CCDs or CMOS for object detection applications. However, these combined systems are not fast enough for some application scenarios since they require large data processing resources and can be cumbersome. Thereby, there is a clear interest in exploring the possibilities and performances of analogue sensors such as arrays of position sensitive detectors with the final goal of integrating them in 3D scanning cameras or microscopes for object detection purposes. The work performed in this thesis deals with the implementation of prototype systems in order to explore the application of object detection using amorphous silicon position sensors of 32 and 128 lines which were produced in the clean room at CENIMAT-CEMOP. During the first phase of this work, the fabrication and the study of the static and dynamic specifications of the sensors as well as their conditioning in relation to the existing scientific and technological knowledge became a starting point. Subsequently, relevant data acquisition and suitable signal processing electronics were assembled. Various prototypes were developed for the 32 and 128 array PSD sensors. Appropriate optical solutions were integrated to work together with the constructed prototypes, allowing the required experiments to be carried out and allowing the achievement of the results presented in this thesis. All control, data acquisition and 3D rendering platform software was implemented for the existing systems. All these components were combined together to form several integrated systems for the 32 and 128 line PSD 3D sensors. The performance of the 32 PSD array sensor and system was evaluated for machine vision applications such as for example 3D object rendering as well as for microscopy applications such as for example micro object movement detection. Trials were also performed involving the 128 array PSD sensor systems. Sensor channel non-linearities of approximately 4 to 7% were obtained. Overall results obtained show the possibility of using a linear array of 32/128 1D line sensors based on the amorphous silicon technology to render 3D profiles of objects. The system and setup presented allows 3D rendering at high speeds and at high frame rates. The minimum detail or gap that can be detected by the sensor system is approximately 350 μm when using this current setup. It is also possible to render an object in 3D within a scanning angle range of 15º to 85º and identify its real height as a function of the scanning angle and the image displacement distance on the sensor. Simple and not so simple objects, such as a rubber and a plastic fork, can be rendered in 3D properly and accurately also at high resolution, using this sensor and system platform. The nip structure sensor system can detect primary and even derived colors of objects by a proper adjustment of the integration time of the system and by combining white, red, green and blue (RGB) light sources. A mean colorimetric error of 25.7 was obtained. It is also possible to detect the movement of micrometer objects using the 32 PSD sensor system. This kind of setup offers the possibility to detect if a micro object is moving, what are its dimensions and what is its position in two dimensions, even at high speeds. Results show a non-linearity of about 3% and a spatial resolution of < 2µm.
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Digital microfluidics (DMF) is a field which has emerged in the last decade as a re-liable and versatile tool for sensing applications based on liquid reactions. DMF allows the discrete displacement of droplets, over an array of electrodes, by the application of voltage, and also the dispensing from a reservoir, mixing, merging and splitting fluidic operations. The main drawback of these devices is due to the need of high driving volt-ages for droplet operations. In this work, alternative dielectric layers combinations were studied aiming the reduction of these driving voltages. DMF chips were designed, pro-duced and optimized according to the theory of electrowetting-on-dielectric, adopting different combinations of parylene-C and tantalum pentoxide (Ta2O5) as dielectric ma-terials, and Teflon as hydrophobic layer. With both devices’ configurations, i.e., Parylene as single dielectric, and multilayer chips combining Parylene and Ta2O5, it was possible to perform all the fluidic opera-tions in the microliter down to hundreds of nanoliters range. Multilayer chips presented significant reduction on driving voltages for droplet op-erations in silicone oil filler medium: from 70 V (parylene only) down to 30 V (parylene/Ta2O5) for dispensing; and from 50 V (parylene only) down to 15 V (parylene/Ta2O5) for movement. Peroxidase colorimetric reactions were successfully performed as proof-of-concept, using multilayer configuration devices.
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A existência de um Efeito Electroreológico (ER) constata-se quando se verifica uma variação acentuada das propriedades reológicas induzidas pelas presença de um campo electrico numa amostra. Este fenómeno é tipico mas não exclusivamente observado em suspensões de particulas polarizáveis. Neste trabalho levou-se a cabo o estudo do efeito electroreológico de uma suspensão, em óleo de silicone, de nanofibras de polianilina (PANI) dopadas com ácido canforsulfónico (CSA). Foram preparadas soluções poliméricas com diferentes concentrações de nanofibras (1 e 2 % p/p) em dois óleos de silicone de diferentes viscosidades, 20 e 50 cSt. O estudo das propriedades electroreológicas foi efectuado tanto em regime estacionário, com a taxa de corte a variar entre 0.01 e 1000 s-1, como em regime oscilatório, com a frequência angular a variar entre 0.1 e 20 Hz, ambos na presença de campos eléctricos com intensidades até 2kV.mm-1 e à temperatura ambiente. As suspensões de nanofibras de polianilina dopadas com ácido canforsulfónico dispersas em óleo de silicone apresentam um efeito electroreológico intenso, visivel através de um aumento superior a 2 décadas no valor da viscosidade para baixas taxas de corte e valores elevados de campo eléctrico, demonstrando assim a sua potencialidade como material inteligente .
