887 resultados para castor oil-based polyurethane
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Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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Esta pesquisa teve como objetivo o estudo do comportamento mecânico de um eco-compósito em estrutura laminada para aplicação como painéis divisórios de ambientes utilizando uma resina comercial poliuretana a base natural de óleo de mamona, uma resina comercial de poliéster insaturada e um tecido de juta como reforço, obtido de sacarias. A fração em massa de produto natural (juta) ou de base natural (poliuretana a base de óleo de mamona) totalizou 44,32%, habilitando sua denominação como eco-compósito. Foram realizados os ensaios de tração, de compressão, de flexão, de impacto Charpy e de impacto por queda de dardo nos materiais constituintes do compósito para verificação da contribuição de cada material para as propriedades do compósito. Os ensaios de tração foram realizados na matriz de poliuretana, na matriz de poliéster, no tecido de juta, na matriz híbrida (resina de poliuretana e resina de poliéster) e no compósito. Os ensaios de compressão foram realizados na matriz de poliuretana, na matriz de poliéster, na matriz híbrida e no compósito. Os ensaio de flexão foram realizados na matriz de poliéster, na matriz híbrida e no compósito. Os ensaios de impacto foram realizados na matriz de poliuretana, na matriz de poliéster, na matriz híbrida e no compósito. Os resultados obtidos mostram que o compósito apresenta bom comportamento quando submetido a impacto e a esforços de tração.
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This study aimed to investigate physical performance of particleboards produced with waste from sawmills, containing different wood species, and two adhesives: urea-formaldehyde (UF) based resin and castor-oil (PU) based bi-component polyurethane resin. Panels were produced with nominal density 0.8gcm(-3); pressing temperature 110 degrees C; pressing time 10 min; specific pressure 5 MPa. Water absorption (2 and 24h); thickness swelling (2 and 24h); density; and moisture content were investigated. Results confirmed that the produced panels presented compatible physical properties in comparison with other researches referred in literature, proving the feasibility of inputs employed. Panels produced PU showed better performance than those produced with UF.
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Products derived from wood or engineered products are becoming interesting alternatives to the replacement of solid wood in various applications, from structural components to the furniture industry and packaging. Among these products, there are panels built by strands, particles and fibers, each one having their particular characteristics and potential of use. Since the different types of panels are produced, waste generation is part of the process, and that more technological it is, it still generates losses of raw materials. Based on the need for rational use of raw materials and using almost full of industrially processed wood, It arises the proposal of this work, which seeks to use waste from the lamination, like pieces of strands, broken strands, strands rough, cracked strands to produce panels with structural characteristics of the OSL panel (Oriented Strand Lumber), LSL (Laminated Strand Lumber) and OSB (Oriented Strand Lumber). Besides the use of waste, this paper seeks an alternative to the use of the adhesive, because the industry uses formaldehyde-based adhesives, which over the press, they emit large amounts of formaldehyde, which is very aggressive to humans and environment. The panels made with polyurethane resin based on castor oil and hot-pressed were characterized by physical and mechanical tests according to specifications of European Standard (EN). High values of tensile strength, elastic modulus and density were found in the results of tests. Adding to stable values of swelling and moisture content, the panel studied adds attractive features to the panel market, especially in the civil construction
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Pós-graduação em Engenharia Civil - FEIS
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High molecular weight semi crystalline thermoplastic poly(ester urethanes), TPEUs, were prepared from a vegetable oil-based diisocyanate, aliphatic diol chain extenders and poly(ethylene adipate) macro diol using one-shot, pre-polymer and multi-stage polyaddition methods. The optimized polymerization reaction achieved ultra-high molecular weight TPEUs (>2 million as determined by GPC) in a short time, indicating a very high HPMDI diol reactivity. TPEUs with very well controlled hard segment (HS) and soft segment (SS) blocks were prepared and characterized with DSC, TGA, tensile analysis, and WAXD in order to reveal structure property relationships. A confinement effect that imparts elastomeric properties to otherwise thermoplastic TPEUs was revealed. The confinement extent was found to vary predictably with structure indicating that one can custom engineer tougher polyurethane elastomers by "tuning" soft segment crystallinity with suitable HS block structure. Generally, the HPMDI-based TPEUs exhibited thermal stability and mechanical properties comparable to entirely petroleum-based TPEUs. (C) 2014 Elsevier Ltd. All rights reserved.
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In recent years the production of products derived from wood and bamboo are increasing, due to the search for a more rational exploitation of these raw materials. Amongst these products, the particleboards production combine sustainability and rationality in the use of these materials. In this context, this work has the objective to study the application of alternative raw materials in the manufacture of Medium Density Particleboards (MDP), using residues from industrial processimg of coffee and bamboo. MDP had been produced with particles of giganteus bamboo of the Dendrocalamus species and particle of coffee rind in the intermediate layer of the particleboard, bonded with polyurethane resin based on castor oil. The physical and mechanical characterization was carried out accordingly to NBR 14810-3 (2006). The physical properties evaluated were: of water absorption for 2h and 24h; thickness swallowing for 2h and 24h; density, humidity content. The mechanical properties evaluated were: Tensile strength, static bending (MOR and MOE). The results were compared with NBR 14810-2 (2006) and also with the ANSI A208-1 (1993). The physical performance of these particleboards was below the values recommend by the Brazilian norm. Also the mechanical characteristics are not improve, demonstrating that the inclusion of coffee rind did not benefit the physical characteristics and nor the mechanical ones. However it can be used as construction materials for partitions and ceiling panels.
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In recent years the production of products derived from wood and bamboo are increasing, due to the search for a more rational exploitation of these raw materials. Amongst these products, the particleboards production combine sustainability and rationality in the use of these materials. In this context, this work has the objective to study the application of alternative raw materials in the manufacture of Medium Density Particleboards (MDP), using residues from industrial processimg of coffee and bamboo. MDP had been produced with particles of giganteus bamboo of the Dendrocalamus species and particle of coffee rind in the intermediate layer of the particleboard, bonded with polyurethane resin based on castor oil. The physical and mechanical characterization was carried out accordingly to NBR 14810-3 (2006). The physical properties evaluated were: of water absorption for 2h and 24h; thickness swallowing for 2h and 24h; density, humidity content. The mechanical properties evaluated were: Tensile strength, static bending (MOR and MOE). The results were compared with NBR 14810-2 (2006) and also with the ANSI A208-1 (1993). The physical performance of these particleboards was below the values recommend by the Brazilian norm. Also the mechanical characteristics are not improve, demonstrating that the inclusion of coffee rind did not benefit the physical characteristics and nor the mechanical ones. However it can be used as construction materials for partitions and ceiling panels.
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No presente trabalho, considerou o estudo do potencial de utilização de sacos de cimento e embalagens de longa vida com o intuito de agregar valor a esses resíduos, mediante a fabricação de painéis de partículas para uso como forro em protótipos de galpões avícolas. Para fabricação desse material foi utilizado sacos de cimento descartados nas obras civis, embalagens longa vida residuais e resina poliuretana bicomponente à base de óleo de mamona. O estudo foi dividido em quatro etapas: 1) Caracterização da matéria-prima (sacos de cimento); 2) Efeito da densidade e teor de resina nas propriedades físicas, mecânicas e térmicas de painéis de partículas de saco de cimento; 3) Avaliação do desempenho de embalagens longa vida e verniz como revestimentos dos painéis selecionados na etapa anterior; 4) Determinação do desempenho térmico de protótipos de aviários executados em escala reduzida e distorcida com forro de painel de saco de cimento e embalagem longa vida. Os resultados obtidos indicaram: Em razão do painel com 0,6 g.cm-3 e 12% de resina ter apresentado melhor desempenho nas propriedades investigadas, essa combinação foi selecionada para avaliar o desempenho do material (físicas, mecânicas e térmicas) quando revestido com embalagens longa vida, adotando a testemunha e o verniz como um revestimento comparativo. Dentre os revestimentos avaliados, os painéis com embalagens de longa vida, foram superiores aos revestidos com verniz, quando comparados as suas propriedades físicas, mecânicas e térmicas. Dessa maneira, painéis com 0,6 g.cm-3 e 12% de resina revestidos embalagens longa vida, foram testados como forro quanto ao desempenho térmico (primavera, verão, outono e inverno) em protótipos em escala reduzida e distorcida, mediante a determinação de índices de conforto térmico (Entalpia e IAPfc) para aves de corte. A associação do forro sob o protótipo permitiu reduzir a temperatura interna do ar e dos índices de conforto térmico na primavera, verão e outono, enquanto que no inverno não foi constatado eficácia do material. Dentre as estações estudadas, o verão e a primavera, demonstraram serem as épocas mais críticas para criação de aves corte em instalações avícolas que apresentem características semelhantes aos protótipos experimentais.
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We report results of an experimental study, complemented by detailed statistical analysis of the experimental data, on the development of a more effective control method of drug delivery using a pH sensitive acrylic polymer. New copolymers based on acrylic acid and fatty acid are constructed from dodecyl castor oil and a tercopolymer based on methyl methacrylate, acrylic acid and acryl amide were prepared using this new approach. Water swelling characteristics of fatty acid, acrylic acid copolymer and tercopolymer respectively in acid and alkali solutions have been studied by a step-change method. The antibiotic drug cephalosporin and paracetamol have also been incorporated into the polymer blend through dissolution with the release of the antibiotic drug being evaluated in bacterial stain media and buffer solution. Our results show that the rate of release of paracetamol getss affected by the pH factor and also by the nature of polymer blend. Our experimental data have later been statistically analyzed to quantify the precise nature of polymer decay rates on the pH density of the relevant polymer solvents. The time evolution of the polymer decay rates indicate a marked transition from a linear to a strictly non-linear regime depending on the whether the chosen sample is a general copolymer (linear) or a tercopolymer (non-linear). Non-linear data extrapolation techniques have been used to make probabilistic predictions about the variation in weight percentages of retained polymers at all future times, thereby quantifying the degree of efficacy of the new method of drug delivery.
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Rare earth doped upconversion nanoparticles convert near-infrared excitation light into visible emission light. Compared to organic fluorophores and semiconducting nanoparticles, upconversion nanoparticles (UCNPs) offer high photochemical stability, sharp emission bandwidths, and large anti-Stokes shifts. Along with the significant light penetration depth and the absence of autofluorescence in biological samples under infrared excitation, these UCNPs have attracted more and more attention on toxin detection and biological labelling. Herein, the fluorescence probe based on UCNPs was developed for quantifying Aflatoxin B1 (AFB1) in peanut oil. Based on a specific immunity format, the detection limit for AFB1 under optimal conditions was obtained as low as 0.2 ng·ml- 1, and in the effective detection range 0.2 to 100 ng·ml- 1, good relationship between fluorescence intensity and AFB1 concentration was achieved under the linear ratios up to 0.90. Moreover, to check the feasibility of these probes on AFB1 measurements in peanut oil, recovery tests have been carried out. A good accuracy rating (93.8%) was obtained in this study. Results showed that the nanoparticles can be successfully applied for sensing AFB1 in peanut oil.
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This study aimed to assess the effect of tea tree oil based formulations against two major ectoparasitic diseases in the sheep industry, flystrike and louse infestation, and to provide data to assist the assessment of the commercial feasibility of development of tea tree oil based ectoparasiticides. The results demonstrate insecticidal effects against both sheep lice and blowflies and repellent effects against adult flies and maggots. Dipping sheep in a Tea Tree Oil based formulation appeared to completely eradicate lice and suggests its potential use in sheep dipping formulations. Repellent and insecticidal effects against sheep blowflies, together with previously reported anti-microbial and wound healing properties, suggest significant benefits from the inclusion of tea tree oil in flystrike and wound treatment formulations. These effects occurred at concentrations of Tea Tree Oil that suggest the commercial viability of development of Tea Tree Oil based formulations for sheep parasite control and wound treatment and a potential new market for Tea Tree Oil.
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Uma das maiores atividades humanas que gera impacto ao meio ambiente é o setor de transportes automotores, especialmente veículos que utilizam óleo diesel mineral como forma de combustível. Independente do conforto ou objetivos que levem a utilização deste tipo de transporte, estes produzem emissões que contém diversos tipos de poluentes atmosféricos. A substituição de óleo diesel mineral pelo biodiesel vegetal, vem se apresentando como uma alternativa para este setor, especialmente para o Brasil, que com base em sua imensa biodiversidade com plantas oleaginosas deverá se constituir em um dos maoires produtores mundiais de biodiesel vegetal. Este trabalho apresenta um estudo comparativo entre três tipos de oleaginosas (soja, algodão e mamona) e uma msitura binária v/v soja e algodão. Os resultados obtidos neste estudo foram comparados as especificações definidas pelas normas: Brasileira (RANP 07/2008), Européia (EN/14214) e Americana (ASTM D-6751). Entre todas as amostras estudadas, o óleo de mamona não atende algumas propiedades físico-químicas das normas em questão. As amostras de biodiesel de soja e algodão, individualmente e combinadas, com caracteristicas, aplicações, zoneamento agroclimático e sazonalidade de produção regionalmente diferente apresentam propiedades físico-químicas semelhantes, podendo ser considerada uma fonte renovavél de energia.
