Adsorção de copolímeros tribloco de óxido de etileno e óxido de propileno na interface líquido-ar

Pós-graduação em Química - IQ

Estudo termoanalítico de blendas de poli(tereftalato de etileno) e poli(3-hidroxibutirato)

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Estudo das reações de oxidação de etileno glicol e glicerol sobre nanopartículas intermetálicas de PtSb/C e PdSb/C

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Determinação de 'SB' e 'PB' em embalagens de poli(tereftalato) de etileno (PET) por espectrometria de absorção atômica com fonte contínua e de alta resolução em forno de grafite empregando amostragem direta de sólidos

Pós-graduação em Química - IQ

Desenvolvimento e aplicação de microplumas para tratamento de politereftalato de etileno (PET)

Pós-graduação em Engenharia Mecânica - FEG

Estudo da aplicabilidade do processo de descontaminação de drogas vegetais empregando óxido de etileno

O consumo de plantas medicinais no país tem aumentado de maneira significativa nas últimas décadas. Dados da Organização mundial de Saúde estimam que 80% da população mundial usam plantas medicinais como alternativa terapêutica. No entanto, pouca informação se encontra disponível sobre os constituintes dos mesmos, bem como sobre o potencial de riscos à saúde humana. Assim, questões relacionadas à qualidade dessas drogas apresentam fundamental importância. Em função de sua origem, a carga microbiana detectada em drogas vegetais pode ser considerada normalmente elevada, oferecendo riscos potenciais ao usuário. Desta forma, a avaliação de sua qualidade sanitária bem como a utilização de processos descontaminantes constituem-se em etapas importantes no que se refere ao aspecto de segurança ao consumidor. Portanto o objetivo deste trabalho foi a determinação dos níveis de contaminação, a pesquisa de indicadores patogênicos; além da eficácia da exposição de 30 e 60 minutos ao gás óxido de etileno, a determinação de residuais tóxicos e a verificação de possíveis alterações nos níveis de marcadores em amostras de Matricaria recutita L., Cynara scolimus L., Paulinia cupana H.B.K. e Ginkgo biloba L. proveniente de três fornecedores diferentes. Todas as drogas vegetais analisadas continham elevados níveis de bactérias e fungos, na ordem de 105 ufc/g, além de terem sido detectados microrganismos patogênicos nas amostras estudadas. Entretanto após a exposição destas por 30 e 60 minutos ao gás óxido de etileno, observou-se a eliminação de cerca de 90% e 99,8% respectivamente. No que se refere aos patógenos específicos a exposição de 30 minutos foi capaz de eliminá-los completamente. Os níveis residuais de óxido de etileno nas drogas vegetais analisadas, foram reduzidos a índices aceitáveis após 14 dias de aeração ambiental, já os níveis de etilenoglicol e etilenocloridrina mantiveram-se dentro do limite da sensibilidade do método adotado. Com relação à análise de principios ativos naturais, não houve alteração nas concentrações dos marcadores das drogas vegetais camomila, ginkgo biloba e guaraná analisadas mesmo após ciclo de exposição de 60 minutos ao gás óxido de etileno. Sendo assim verifica-se a necessidade da adoção de métodos de descontaminação microbiana com o intuito de fornecer um produto mais seguro para o consumo humano visto que estes são por vezes consumidos por enfermos, idosos e crianças com a saúde comprometida. Pode-se concluir também que o processo de descontaminação de drogas vegetais por óxido de etileno é um processo eficaz e seguro, desde que sejam adotados os requisitos de segurança necessários que infelizmente, nem sempre são adotadas no mercado nacional

Estudo morfológico da blenda polimérica poli(metacrilato de metila)/poli(tereftalato de etileno) reciclado (PMMA/PET)

Among the options for plastics modification more convenient, both from a technical-scientific and economic, is the development of polymer blends by processing in the molten state. This work was divide into two stages, with the aim to study the phase morphology of binary blend PMMA / PET blend and this compatibilized by the addition of the poly(methyl methacrylate-co-glycidyl methacrylate-co-ethyl acrylate) copolymer (MMA-GMA-EA). In the first stage is analyzed the morphology of the blend at a preliminary stage where we used the bottle-grade PET in a Haake torque rheometer and the effect of compatibilizer in this blend was evaluated. In the second stage the blend was processed using the recycled PET in a single screw extruder and subsequently injection molding in the shape of specimens for mechanical tests. In both stages we used a transmission electron microscopy (TEM) to observe the morphologies of the samples and an image analyzer to characterize them. In the second stage, as well as analysis by TEM, tensile test, scanning electron microscopy (SEM) and atomic force microscopy (AFM) was performed to correlate the morphology with the mechanical properties. The samples used in morphological analyzes were sliced by cryo-ultramicrotomy technique for the analysis by TEM and the analysis by SEM and AFM, we used the flat face of the block after cut cryogenic. It was found that the size of the dispersed phase decreased with the addition of MMA-GMA-EA in blends prepared in a Haake. In the tensile test, the values of maximum tensile strength and modulus of elasticity is maintained in a range between the value of pure PMMA the pure PET, while the elongation at break was influenced by the composition by weight of the PMMA mixture. The coupling agent corroborated the results presented in the blend PMMA / PETrec / MMA-GMA-EA (80/15/5 %w/w), obtained by TEM, AFM and SEM. It was concluded that the techniques used had a good morphologic correlation, and can be confirmed for final analysis of the morphological characteristics of the blends PMMA / PET

Desenvolvimento e caracterização de compósitos poli(tereftalato de etileno) reciclado (PET reciclado) com flocos de vidro.

The growing concern with the solid residues management, observed in the last decade, due to its huge amount and impact, has motivated the search for recycling processes, where these residues can be reprocessed to generate new products, enlarging the cycle of materials and energy which are present. Among the polymeric residues, there is poly (ethylene terephthalate) (PET). PET is used in food packaging, preferably in the bottling of carbonated beverages. The reintegration of post-consumer PET in half can be considered a productive action mitigation of environmental impacts caused by these wastes and it is done through the preparation of several different products at the origin, i.e. food packaging, with recycling rates increasing to each year. This work focused on the development and characterization mechanical, thermal, thermo-mechanical, dynamic mechanical thermal and morphology of the pure recycled PET and recycled PET composites with glass flakes in the weight fraction of 5%, 10% and 20% processed in a single screw extruder, using the following analytical techniques: thermogravimetry (TG), differential scanning calorimetry (DSC), tensile, Izod impact, Rockwell hardness, Vicat softening temperature, melt flow rate, burn rate, dynamic mechanical thermal analysis (DMTA) and scanning electron microscopy (SEM). The results of thermal analysis and mechanical properties leading to a positive evaluation, because in the thermograms the addition of glass flakes showed increasing behavior in the initial temperatures of thermal decomposition and melting crystalline, Furthermore was observed growing behavior in the mechanical performance of polymer composites, whose morphological structure was observed by SEM, verifying a good distribution of glass flakes, showing difference orientation in the center and in the surface layer of test body of composites with 10 and 20% of glass flakes. The results of DMTA Tg values of the composites obtained from the peak of tan ä showed little reductions due to poor interfacial adhesion between PET and recycled glass flakes.

Influência de tratamentos térmicos no comportamento mecânico da blenda poli(metacrilato de metila) / poli(tereftalato de etileno) reciclado

Studies indicate that a variation in the degree of crystallinity of the components of a polymer blend influences the mechanical properties. This variation can be obtained by subjecting the blend to heat treatments that lead to changes in the spherulitic structure. The aim of this work is to analyze the influence of different heat treatments on the variation of the degree of crystallinity and to establish a relationship between this variation and the mechanical behavior of poly(methyl methacrylate)/poly(ethylene terephthalate) recycled (PMMA / PETrec) with and without the use of compatibilizer agent poly(methyl methacrylate-al-glycidyl methacrylate-al-ethyl acrylate) (MMAGMA- EA). All compositions were subjected to two heat treatments. T1 heat treatment the samples were treated at 130 ° C for 30 minutes and cooled in air. In T2, the samples were treated at 230 ° C for 5 minutes and cooled to approximately -10 ° C. The variation of the degree of crystallinity was determined by the proportional relationship between crystallinity and density, with the density measured by pycnometry. The mechanical behavior was verified by tensile tests with and without the presence of notches and pre-cracks, and by method of fracture toughness in plane strain (KIC). We used the scanning electron microscopy (SEM) to analyze the fracture surface of the samples. The compositions subjected to heat treatment T1, in general, showed an increase in the degree of crystallinity in tensile strength and a tendency to decrease in toughness, while compositions undergoing treatment T2 showed that the opposite behavior. Therefore, this work showed that heat treatment can give a polymer blend further diversity of its properties, this being caused by changes in the crystal structure

Processamento e caracterização da blenda poli (metacrilato de metila) (PMMA) elastomerico e poli (tereftalato de etileno) (PET) pós-consumo

This work studied the immiscible blend of elastomeric poly(methyl methacrylate) (PMMA) with poly(ethylene terephthalate) (PET) bottle grade with and without the use of compatibilizer agent, poly(methyl methacrylate-co-glycidyl methacrylate - co-ethyl acrylate) (MGE). The characterizations of torque rheometry, melt flow index measurement (MFI), measuring the density and the degree of cristallinity by pycnometry, tensile testing, method of work essential fracture (EWF), scanning electron microscopy (SEM) and transmission electron microscopy (TEM) were performed in pure polymer and blends PMMA/PET. The rheological results showed evidence of signs of chemical reaction between the epoxy group MGE with the end groups of the PET chains and also to the elastomeric phase of PMMA. The increase in the concentration of PET reduced torque and adding MGE increased the torque of the blend of PMMA/PET. The results of the MFI also show that elastomeric PMMA showed lower flow and thus higher viscosity than PET. In the results of picnometry observed that increasing the percentage of PET resulted in an increase in density and degree crystallinity of the blends PMMA/PET. The tensile test showed that increasing the percentage of PET resulted in an increase in ultimate strength and elastic modulus and decrease in elongation at break. However, in the phase inversion, where the blend showed evidence of a co-continuous morphology and also, with 30% PET dispersed phase and compatibilized with 5% MGE, there were significant results elongation at break compared to elastomeric PMMA. The applicability of the method of essential work of fracture was shown to be possible for most formulations. And it was observed that with increasing elastomeric PMMA in the formulations of the blends there was an improvement in specific amounts of essential work of fracture (We) and a decrease in the values of specific non-essential work of fracture (βWp)

Efeito da adição do poli(etileno acrilato de metila) (ema) e da fibra de linter de algodão nas propriedades do poli(tereftalato de etileno) reciclado (petrec)

The development of new materials to fill the demand of technological advances is a challenge for many researchers around the world. Strategies such as making blends and composites are promising alternatives to produce materials with different properties from those found in conventional polymers. The objective of this study is to evaluate the effect of adding the copolymer poly(ethylene methyl acrylate) (EMA) and cotton linter fibers (LB) on the properties of recycled poly(ethylene terephthalate) (PETrec) by the development of PETrec/EMA blend and PETrec/EMA/LB blend composite. In order to improve the properties of these materials were added as compatibilizers: Ethylene - methyl acrylate - glycidyl methacrylate terpolymer (EMA-GMA) and maleic anhydride grafted polyethylene (PE-g-MA). The samples were produced using a single screw extruder and then injection molded. The obtained materials were characterized by thermogravimetry (TG), melt flow index (MFI) mensurements, torque rheometry, pycnometry to determinate the density, tensile testing and scanning electron microscopy (SEM). The rheological results showed that the addition of the EMA copolymer increased the viscosity of the blend and LB reduces the viscosity of the blend composite. SEM analysis of the binary blend showed poor interfacial adhesion between the PETrec matrix and the EMA dispersed phase, as well as the blend composite of PETrec/EMA/LB also observed low adhesion with the LB fiber. The tensile tests showed that the increase of EMA percentage decreased the tensile strength and the Young s modulus, also lower EMA percentage samples had increased the elongation at break. The blend composite showed an increase in the tensile strength and in the Young`s modulus, and a decrease in the elongation at break. The blend formulations with lower EMA percentages showed better mechanical properties that agree with the particle size analysis which showed that these formulations presented a smaller diameter of the dispersed phase. The blend composite mechanical tests showed that this material is stronger and stiffer than the blend PETrec/EMA, whose properties have been reduced due to the presence of EMA rubbery phase. The use of EMA-GMA was effective in reducing the particle size of the EMA dispersed phase in the PETrec/EMA blend and PE-g-MA showed evidences of reaction with LB and physical mixture with the EMA

Vitrificação de embriões bovinos (PIV) com etileno glicol monometil éter (EGMME): um novo crioprotetor.

2015

Inibição da ação do etileno sobre variáveis de qualidade de maçãs 'Gala' mantidas em armazenamento refrigerado.

O objetivo deste trabalho foi avaliar a influência do etileno em variávies de qualidade de maçãs 'Gala' armazenadas por 6 meses sob refrigeração (temperatura de 0°C e umidade relativa de ± 95%).

Biología y manejo postcosecha de Pitahaya roja y amarilla (Hylocereus spp., y Selenicereus spp)

Las palabras pitahaya y pitaya se derivan del Taino, una lengua de los pueblos indigenas de los países caribeños y ambas significan fruta esca­mosa. Los frutos de pitahaya crecen sobre un cactus tropical de forma columnar que pertenece a los géneros Stenocereus y Pachycereus. Por otro lado, los frutos de pitahaya crecen sobre un cactus tropical trepador que pertenece a los géneros Hylocereus y Selenicereus. En esta reseña se hará referencia a la biología y manejo postcosecha de los frutos de pitahaya que crecen en cactus de hábito trepador. La pitahaya amarilla (Selenicereus megalanthus) se cultiva en Colombia, Ecuador e Israel. La pitahaya roja, especialmente Hylocereus undatus, es cultivada en 19 países. Los principales países productores de pitahaya son en este orden Vietnam, Colombia, Nicaragua, México e Israel. Los frutos de pitahaya son una buena fuente de minerales, glucosa, fructosa, fibra dietética y vitaminas. La pitahaya es un fruto no climatérico, con tasas de produc­ción de etileno de 0.025 a 0.091 iL.kg-1 hr-1. Los índices de cosecha incluyen: cambio de color de la cáscara, contenido de sólidos solubles, acidez titulable y días después de la floración (mínimo 28 días y máximo 35 días). El daño por congelamiento, daños mecánicos y la pérdida de agua, son los tres principales desórdenes fisiológicos postcosecha que se presentan en los frutos de pitahaya. Se recomienda almacenar los frutos de pitahaya a 7-12°C y 85-90% de humedad relativa. Se necesita más información acerca de la manipulación de la planta de tal manera que florezca durante todo el año, y no solamente unas cuantas veces, para satisfacer la demanda nacional y los mercados internacionales.