Synthesis and Characterization of High Performance Polymers for Gas Separation and Water Purification Membranes and as Interfacial Agents for Thermplastic Carbon Fiber Composites

Joseph, Ronald Matthew

03 July 2018

This dissertation focuses on the synthesis and characterization of high performance polymers, specifically polybenzimidazoles (PBIs) for gas separation applications and polyimides (PI) for water purification and as interfacial agents for thermoplastic carbon fiber composites. Two methods for improving the gas transport properties (for H2/CO2 separation) of a tetraaminodiphenylsulfone (TADPS)-based polybenzimidazole were investigated. Low molecular weight poly(propylene carbonate) (PPC) and poly(ethylene oxide) (PEO) were incorporated as sacrificial additives that could be removed via a controlled heat treatment protocol. PBI films containing 7 and 11 wt% PPC (blend) and 13 wt% PEO (graft) were fabricated and the gas transport properties and mechanical properties after heat treatment were measured and compared to the PBI homopolymer. After heat treatment, the 7 wt% PPC blend exhibited the highest performance while retaining the toughness exhibited by the PBI homopolymer. Novel sulfonated polyimides and their monomers were synthesized for use as interfacial agents and water purification membranes. Polyimides are high performance polymers that have high thermal, mechanical, and chemical stability. The objective was to assess structure-property relationships of novel sulfonated polyimides prepared by direct polymerization of the diamine monomers. A series of sulfonated polyimides was synthesized using an ester-acid polymerization method with varying degrees of sulfonation (20%, 30%, and 50% disulfonated and 50% and 100% monosulfonated polyimides). The results showed that the toughness of the polyimides in the fully hydrated state was much better than current commercial cation exchange membranes. A 100% disulfonated polyimide (sPI) and poly(amic acid) salt (PAAS) using the same monomers used for the synthesis of Ultem® were utilized as suspending agents for the fabrication of coated sub-micron polyetherimide (PEI) particles. Sub-micron particles were obtained using 1 wt% PAAS and 4 wt% sPI to coat the PEI. The PEI particles were coupled onto ozone treated carbon fibers using a silane coupling agent. SEM images showed a significant amount of particle coating on the treated carbon fibers compared to the non-silane treated carbon fibers. / PHD / This dissertation describes synthetic and processing techniques used to fabricate materials for applications such as, water purification and gas separation. The polymers included in this dissertation include polybenzimidazoles and polyimides, which are materials that have exceptional mechanical and thermal properties. The polybenzimidazoles were specifically used for gas separation, while the polyimides were synthesized for use as water purification membranes and surfactants for coating polyimides and carbon fibers. Gas separation membranes are effective tools for purifying gas mixtures (e.g. H₂/N₂, O₂/N₂, CO₂/CH₄). Additionally, they offer the advantage of being economical and environmentally-friendly compared to other methods of separation (e.g. cryogenic distillation). Many synthetic membranes made from polymers are used commercially, however, very few polymers can be used for elevated temperature separations. Because polybenzimidazoles exhibit high thermal stability, they are excellent candidates for high temperature gas separations (specifically H₂/CO₂ gas mixture). However, polybenzimidazoles have inherently low gas permeabilities. Thus, the focus of this research was to develop a simple method to introduce “pores” into the polymer membrane to improve gas permeability. Water purification is a very important process as the demand for clean water increases with the growing global population. Currently, one-third of the global population experience water scarcity, and by 2025, two-thirds of the world’s population may face water shortages. Multi-stage flash distillation is the most widely used method for water desalination from sea water but it is also the most energy intensive process. Water desalination using polymer membranes (e.g. reverse osmosis, nanofiltration, electrodialysis) has been developed as low energy and environmentally-friendly alternatives for producing clean water. The current state-of-the-art membranes used for water purification lack mechanical integrity and chemical resistance, which complicate and reduce the overall efficiency of the separation process. Thus, the focus of the research was to synthesize polyimide membranes with improved toughness and chemical stability.

Gas Separation Membrane

Polybenzimidazoles

Polymer Blends

Thermally Rearranged Polymers

Carbon Fiber Composites

Sulfonated Polyimides

Water Purification Membranes

Développement de nouveaux alliages thermoplastiques pour l'aéronautique / Development of new thermoplastic blends for aeronautical applications

Duval, Thomas

20 December 2012

L'objectif de cette thèse est de créer de nouveaux mélanges thermoplastiques présentant une processabilité accrue comparée à des matrices thermoplastiques hautes performances utilisées dans l'industrie aéronautique. Ces matériaux ont vocation à être intégrés en atmosphère avionique pressurisée. Afin de combler le cahier des charges imposé par le domaine aéronautique, le choix des matériaux s'est porté sur un mélange incompatible de polyétheréthercétone PEEK et de polymères à cristaux liquides LCP présentant une morphologie fibrillaire développée grâce à des conditions particulières d'écoulement lors de la mise en oeuvre.Dans un premier temps, les propriétés rhéologiques des matériaux sont caractérisées de manière à confirmer le respect des spécifications relatives à leur processabilité. La compréhension des phénomènes régissant la baisse de viscosité du mélange permet d'assurer la répétabilité et la reproductibilité des performances rhéologiques en vue d'un transfert industriel. L'étude se concentre ensuite sur les propriétés de cristallinité des mélanges, qui permettent de déterminer que la présence de deux matériaux semi-cristallins au sein d'une même structure ne perturbe pas leurs propriétés de cristallinité garantes de leurs performances thermomécaniques.Enfin, une campagne de caractérisation complète est effectuée afin de dresser une fiche matière et de la comparer aux spécifications exigées par l'industrie aéronautique. / The aim of this thesis is to create new thermoplastic blends exhibiting improved processability incomparison with high performance aeronautical thermoplastics. These materials are dedicated tointegrating pressurized avionic structures.To reach the specific aeronautical specifications, an incompatible polymer blend made ofpolyetheretherketone PEEK and liquid crystalline polymers LCP is chosen. The particular flow conditionsset for the compounding ensure the blend a fibrillar morphology.First, the material rheological properties are characterized so as to confirm that the processabilityspecifications are met. The viscosity drop causes are explained and grant the maintaining of therheological performances in any processing configuration.The study then focuses on the blend crystallinity properties in order to determine whether two interlinkedsemi-crystalline structures do not impede the thermomechanical performances.At last, a characterization campaign is led to compare the blend performances with the demandedaeronautical specifications.

Polymères à Cristaux Liquides

Morphologie Fibrillaire

Amélioration de processabilité

Application aéronautique

High Performance Polymer Blends

Liquid Crystalline Polymers

Fibrillar Morphology

Processability Improvement

Aeronautical Application

Réactions Polyoléfines/ Poly (3-hydroxybutyrate-co-hydroxyvalérate) : des mélanges compatibilisés aux copolymères greffés / Polyolefins/ Poly (3-hydroxybutyrate-co-hydroxyvalerate) reactions : from compatibilized blends to grafted copolymers

Sadik, Tarik

16 December 2011

L’objectif de cette thèse est le développement des matériaux polymères injectables innovants issus de ressources renouvelables et répondant aux exigences techniques automobiles. Pour cela, des mélanges à base de polyoléfines (POs) et du poly(3- hydroxybutyrate-co-hydroxyvalérate) (PHBV) ont été étudiés. Ces mélanges polymères étant non-miscibles, l’optimisation de leurs propriétés par compatibilisation a été réalisée selon différentes approches. Dans un premier temps, la synthèse de polypropylène fonctionnel original avec des taux de greffage relativement élevés et sans perte de masses molaires a permis, par réaction in-situ, la compatibilisation des mélanges PP/PHBV. Dans une deuxième partie, le poly(éthylène-co- alcool vinylique) greffé-poly(3- hydroxybutyrate-co- hydroxyvalérate) a été synthétisé par extrusion réactive, ce copolymère a été utilisé ensuite comme compatibilisant pour les mélanges PE/PHBV. L’ajout de ces compatibilisants a permis d’obtenir des matériaux ayant des propriétés optimisées et une morphologie nettement plus fine que les systèmes non compatibilisés démontrant ainsi leur efficacité / The main objective of this work is the development of innovative materials from renewable resources for the automotive industry. Polymer blends of polyolefins (POs) and poly(3-hydroxybutyrate-co-hydroxyvalerate) (PHBV) were prepared through twin screw extruder process and studied. These polymer blends are non-miscible, then in order to optimize their final properties, compatibilizing agents were synthesized by reactive extrusion. On the one hand, functionalized polypropylene with various polar monomers and without significant molecular weight loss was synthesized with the aim to compatibilize PP/PHBV blends, on the other hand, poly(ethylene-co- vinylalcohol)-graft- poly(3-hydroxybutyrate-co-hydroxyvalerate) was obtained by exchange reactions in the presence of an efficient catalyst and those in order to compatibilize PE/PHBV blends. Efficiency of these compatibilizers was investigated in the last part of this study which is dedicated to POs/PHBV polymer blends compatibilization. Materials with improved properties and finer morphologies than the non- compatibilized systems were obtained thanks to the compatibilizers

Mélange de polymères

Compatibilisation

Greffage radicalaire

Alcoolyse

Extrusion réactive

Polymer Blends

Compatibilization

Radical grafting

Alcoholysis

Reactive extrusion

Blendas biodegradáveis de poli (ácido láctico) e poli (ε-caprolactona) tenacificadas por compatibilização não-reativa: influência do teor de compatibilizante / Biogradable blends of poly(lactic acid) and poly(ε-caprolactone) toughening by non-reactive compatibilization

Dias, Paula do Patrocínio

01 September 2016

O Poli(ácido láctico) (PLA) é um polímero biodegradável, biocompatível e biorreabsorvível proveniente de fontes renováveis. Constitui uma excelente alternativa sustentável para os polímeros provenientes de petróleo, atualmente dominantes no mercado industrial. Porém, apresenta baixas ductilidade e tenacidade como principais limitações mecânicas. Um dos métodos mais utilizados para modificar essas propriedades é a mistura mecânica do PLA com polímeros flexíveis, como a poli(ε-caprolactona) (PCL). Entretanto, o alto desempenho mecânico de blendas PLA/PCL é difícil de ser atingido devido à imiscibilidade dos polímeros. A melhoria de propriedades, neste caso, só é conseguida por meio de compatibilização. Este trabalho visa avaliar o efeito compatibilizante do copolímero tribloco de baixo peso molecular derivado de ε-caprolactona e tetrametileno éter glicol disponível comercialmente em blendas imiscíveis de PLA com PCL. Blendas binárias e ternárias foram preparadas por mistura mecânica no estado fundido via processo de extrusão em rosca simples. O teor de PLA nas blendas variou em 75, 50 e 25% (% em massa) e a concentração do copolímero em 0, 1,5, 3 e 5% (% em massa). A avaliação morfológica e o comportamento térmico e mecânico das blendas PLA/PCL foram realizados por microscopia eletrônica de varredura (MEV), calorimetria exploratória diferencial (DSC), análise térmica dinâmico-mecânica (DMTA) e ensaios mecânicos de tração, flexão e impacto Izod. O efeito compatibilizante do copolímero foi mais bem observado nas blendas com 75% (% em massa) de PLA, enquanto que nas blendas com 50% e 25% (% em massa) de PLA esse efeito não foi tão evidente. Os resultados obtidos no ensaio de tração mostraram que com o aumento do teor de compatibilizante, a tensão no escoamento, a tensão na ruptura e o módulo elástico das blendas com 75% (% em massa) de PLA se mantiveram praticamente constantes, enquanto que a deformação na ruptura evoluiu de 20% na blenda com 1,5% (% em massa) de copolímero para 84% na blenda com 5% (% em massa) de copolímero. As análises morfológicas indicaram que o copolímero em bloco agiu na interface PLA/PCL, melhorando sua adesão. Esse resultado foi reforçado pelas análises térmicas, onde foi constatado que as Tg\'s e Tm\'s do PLA e do PCL nas blendas não apresentaram alterações, o que indica que o copolímero encontra-se na região interfacial da blenda. A resistência ao impacto Izod com entalhe, propriedade mecânica utilizada nesse trabalho como uma medida da tenacidade, da blenda PLA75C5 alcançou 42 J/m, valor significativamente superior ao determinado para o PLA puro, por volta de 28 J/m. Esses resultados mostram claramente que o copolímero tribloco derivado de ε-caprolactona e tetrametileno éter glicol é um eficiente compatibilizante para blendas PLA/PCL. / The Poly (lactic acid) (PLA) is a biodegradable, biocompatible and bioabsorbable polymer derived from renewable sources. It is an excellent sustainable alternative to polymers derived from oil, currently dominating the industry. However, PLA has low ductility and poor toughness as main mechanical limitations. Mechanical mixing of PLA with flexible polymers, such as poly (ε-caprolactone) (PCL), is one of the most used methods to modify these properties. However, a high mechanical performance of PLA/PCL blends is difficult to achieve due to the immiscibility of the polymers. The improvement of properties in this case is achieved only by compatibilization. This study aims to evaluate compatibilizer effect of a low molecular weight tri-block copolymer derived from ε-caprolactone and tetramethylene ether glycol, commercially available, on immiscible blends of PLA with PCL. Binary and ternary blends were prepared by mechanical blending in melt state through a single screw extrusion. The content of PLA in the blends ranged in 75, 50 and 25 wt% and the concentration of copolymer in 0, 1.5, 3 and 5 wt%. The morphological evaluation and the thermal and mechanical behavior of PLA/PCL blends were performed by scanning electron microscopy (SEM), differential scanning calorimetry (DSC), dynamic mechanical thermal analysis (DMTA) and tensile test, flexural and Izod impact. The compatibilizer effect of the copolymer was more clearly observed in the blends with 75 wt% PLA, whereas in blends with 50 wt% to 25 wt% of PLA this effect was not so evident. The results of the mechanical tests showed that with the increase of the compatibilizer content, the yield stress, the stress at break and the elastic modulus of the blends with 75% (wt%) remained practically constant, while the elongation at break evolved from 20% in the blend with 1.5 wt% of copolymer to 84% in the blend to with 5 wt% of copolymer. Morphological analysis indicated that the block copolymer acted in the PLA/PCL interface, improving adhesion. This results were reinforced by thermal analysis, where it was found that the Tg and Tm of PLA and PCL in the blends showed no change, indicating that the copolymer is in the interfacial region of the blend. The Izod impact strength (Notched Izod), mechanical properties used in this work as a measure of toughness, of the blend PLA75C5 reached 42 J/m, significantly higher than the determined for pure PLA, about 28 J/m. These results clearly show that the triblock copolymer derived from ε-caprolactone and tetramethylene ether glycol is a good compatibilizer for blends PLA/PCL because it acts at the interfacial region, promoting the adhesion between the phases.

Blendas poliméricas

Compatibilização não-reativa

Copolímero tribloco

Nonreactive compatibilization

Poli(ácido láctico)

Policaprolactona

Poly(lactic acid)

Polycaprolactone

Polymer blends

Triblock copolymer

Desenvolvimento de blendas de zeína e amido de milho / Development of polymer blends of zein and cornstarch

Corradini, Elisângela

26 January 2004

O objetivo deste trabalho foi a produção de blendas a partir de zeína e amido de milho, procurando unir de forma otimizada as propriedades dos polímeros e suas características de processabilidade e o entendimento da correlação estrutura-propriedades destas blendas. Misturas de amidolzeína foram preparadas nas proporções de 0/100, 10190, 20180, 30170, 50150, 80120 e 10010 massa/massa%, utilizando glicerol como plastificante nas proporções de 22, 30 e 40% em relação a massa total dos polímeros. As formulações foram processadas em um misturador interno, tipo Haake, conectado ao reômetro de torque a 160°C. As misturas obtidas foram moldadas por compressão a 160°C. As propriedades das blendas foram aliadas por ensaios de absorção de umidade, difração de raios X, ensaios mecânicos (tração), calorimetria exploratória diferencial (DSC), termogravimetria (TG), análise termo dinâmica-mecânica, microscopia eletrônica de varredura (MEV) e microscopia ótica. As blendas com 22% de glicerol foram avaliadas também quanto a biodegradabilidade, utilizando a técnica de biodegradação aeróbia. A adição da zeína facilitou o pmcessamento das misturas, conforme o observado durante o processamento no reômetro de torque. A presença da zeína não afeta a cristalinidade do amido nas blendas e não ocorre a formação de novas estruturas cristalinas devido a mistura. As blendas amidolzeína apresentaram menor estabilidade térmica que o amido termoplástico e zeína plastificada separadamente e a estabilidade térmica das blendas diminuiu com o aumento do teor de glicerol. As propriedades mecânicas das blendas foram dependentes do teor de zeína e de glicerol. A adição de zeína na lenda provocou aumento no módulo de elasticidade e na resistência a tração e diminuição da deformação , enquanto que o gliceml provocou diminuição em todas estas propriedades. As blendas apresentaram-se imiscíveis em todas as composições estudadas. A zeína plastificada mostrou biodegradação mais acentuada que o amido termoplástico e as blendas apresentaram biodegradação intermediária entre o amido e a zeína. / In this work were investigated blends from zein, which is a com protein, with com starch. The objective of this work was optimizing the polymers properties and their processing characteristics and looking for a structure-properties correlation of these blends. The mixtures of pure polymers and starchlzein blends were prepared using glycerol as plasticizer in a batch mixer connected to a torque rheometer. The zein content varied from 20 to 80% and three levels of glycerol were used, 22, 30 and 40 % of total starch plus zein weight, on a dry basis. The mixtures obtained were molded by compression at 160 OC. The blends were characterized by water absorption experiments, wide-angle X-ray diffraction, thermogravimetry (TG), differential scanning calorimetry (DSC), tensile test, dynamical mechanical thermal analysis (DMTA), scanning electron microscopy (SEM), optical microscopy. Additionally the biodegradability of starchtzein blends were evaluated by aerobic test. The torque behavior of the starchtzein blends shows that zein acts as a processing agent, reducing the melt viscosity of the mixture and facilitating the plasticization of starch. No evidence of the zein affecting the type or amount of crystal structure of thermoplastic starch was observed. The zein proved to be effective to reduce the water absorption of the blends. Mechanical properties of blends depends on the glycerol and zein contents. Young\'s modulus and ultimate tensile strength increase sharply with increasing zein content, while that the glycerol caused reduction on these properties. The blends were immiscible and phase invesion was observed. The results of biodegradation aerobic showed that after 45 days the zeína unfastened greater COz mass than the starch. This indicates that the zein biodegradation occurs more easily than the starch. The blends presented intermediate biodegradtion between the starch and the zein.

Amido

Biodegradação

Biodegradation

Blendas poliméricas

Mechanical properties

Natural polymers

Polímeros naturais

Polymer blends

Propriedades mecânicas

Propriedades térmicas

Starch

Thermal properties

Zein

Zeína

Preparação de compósitos biodegradáveis de PCL reforçados com microfibrilas de PLA obtidas a partir do controle da morfologia de blendas imiscíveis PLA/PCL / Preparation of biodegradable PCL composites reinforced with PLA microfibrils obtained from the morphology of PLA/PCL immiscible blends control

Ferreira, Thaysa Rodrigues Mendes

29 October 2018

O objetivo desse trabalho foi preparar compósitos de matriz de PCL reforçados com microfibrilas de PLA preparadas in situ a partir do controle da morfologia de blendas PLA/PCL. Embora a formação da morfologia fibrilar não tenha sido observada nas condições de extrusão empregadas, estudos do comportamento reológico de blendas de composição 50% PLA / 45% PCL / 5% de compatibilizante (% em massa) mostraram que microfibrilas de PLA podem ser obtidas entre 102 e 104 s-1. Assim, a técnica de reometria capilar foi utilizada para controlar a morfologia de blendas PLA/PCL. Compósitos de matriz de PCL reforçados com 5, 10, 20 e 30% (% em massa) de microfibrilas de PLA foram preparados em extrusora rosca simples, utilizando perfil de temperatura acima da temperatura de fusão do PCL, mas abaixo da temperatura de fusão do PLA, visando preservar a morfologia do PLA. O comportamento morfológico, térmico e mecânico dos compósitos foram avaliados por microscopia eletrônica de varredura (MEV), microscopia óptica com luz polarizada (POM), calorimetria exploratória diferencial (DSC), análise térmica dinâmico-mecânica (DMA) e ensaios mecânicos de tração e de impacto Izod. As curvas DSC mostraram um aumento no grau de cristalinidade da matriz de PCL com o aumento do teor de microfibrilas, o que provavelmente justifica os altos valores de módulo de Young determinados nos compósitos. A aplicação da Regra das Misturas comprovou que os compósitos fabricados exibiram boa orientação das microfibrilas na direção do esforço mecânico aplicado, com valores de módulos próximos ao limite superior da curva. No entanto, a adesão não uniforme entre a matriz e o reforço observada por MEV, resultou na queda da resistência à tração e resistência ao impacto dos compósitos, quando comparados ao PCL puro. A composição com 10% de microfibrilas apresentou um bom balanço de módulo de Young e resistência ao impacto, com potencial de viabilidade em uma série de aplicações biomédicas. / The aim of this work is to prepare PCL composites reinforced with PLA microfibrils prepared in situ from the morphology of PLA/PCL blends control. Although the formation of fibrillar morphology has not been observed under the extrusion conditions employed, studies of the rheological behavior of 50% PLA/ 45% PCL / 5% compatibilizer blends have shown that PLA microfibrils can be obtained between 102 and 104 s-1. Thus, the capillary rheometry technique was used to control the morphology of PLA /PCL blends. PCL composites reinforced with 5, 10, 20 and 30% (% by mass) PLA microfibrils were prepared in a single screw extruder using a temperature profile above the PCL melting temperature, but below the melt temperature of PLA, to preserve the PLA morphology. The morphology, thermal and mechanical behavior of the composites were evaluated by scanning electron microscopy (SEM), optical polarized light microscopy (POM), differential scanning calorimetry (DSC), dynamic mechanical-mechanical analysis (DMA) and mechanical tensile tests and Izod impact. DSC curves showed an increase in the degree of crystallinity of the PCL matrix with increasing the PLA microfibrils content, which probably justify the high Young\'s modulus values determined in the composites. The application of the Mix Rule proved that the composites showed good orientation of the PLA microfibrils in the direction of applied mechanical stress, presenting modules values near the upper limit of the curve. However, the non-uniform adhesion between the matrix and the reinforcement observed by MEV, caused the decrease of the tensile and impact strength when compared to pure PCL. The composition with 10% of PLA microfibrils exhibited a good balance of Young\'s modulus and impact strength, with potential viability in a number of biomedical applications.

Blendas poliméricas

Microfibrils reinforced composites

Poli(&#949-caprolactona)

Poli(ácido láctico)

Poly(&#949-caprolactone)

Poly(lactid acid)

Polymer blends

CARACTERIZAÇÃO REOLÓGICA E TÉRMICA DE BLENDAS POLIMÉRICAS DE PEBD/ m-PELBD PROCESSADAS EM EXTRUSORAS MONO E DUPLA ROSCA

Patel, Volnei

09 December 2011

Made available in DSpace on 2017-07-21T20:42:44Z (GMT). No. of bitstreams: 1 Volnei Patel.pdf: 2182418 bytes, checksum: 0c02f090d39438a33dbc14bd153a4062 (MD5) Previous issue date: 2011-12-09 / In this work, blends of PEBD/m-PELBD with typical applications in the area of packaging films were studied. Thermal and rheological properties of blends of PEBD/m-PELBD were analyzed in the proportions of 80/20; 75/25; 70/30; 65/35;60/40, as well as the pure polymers. The samples were processed in single and twin screw extruders, thus allowing the evaluation of the influence of homogenization on the thermal and rheological properties. The effect of variations of the compositions of the blends on thermal properties was analyzed using the Differential Scanning Calorimetry technique (DSC), and the effect of variation in the rheology of the blends was analyzed in parallel plate and capillary rheometer for the various compositions and at different temperatures. The results obtained from the thermal analysis showed no variations in the melting and crystallization temperatures with variation of the composition, and the pure m-PELBD presented a melting temperature of 108ºC and PEBD 105ºC. The rheological analysis showed the high influence of PEBD in viscosity at low shear rates, presenting high viscosity. However, as of 100 1/s the reversal of the viscosity curves is observed,where m-PELBD has more influence. By means of rheological analysis, the phase behavior of the blends was investigated, which proved insoluble in all compositions in the molten state. However, due to the close proximity of the values of the melting temperature of the pure components, it was not possible to identify the expected second melting peak in the thermal analysis. Comparing the thermal and rheological results of the processed blends in the extruders of single and twin screws, no significant variations were observed. The thermal and rheological results obtained in this study show that possible small variations in composition during the feed dispensing process in the extruder would not generate significant instabilities in the process. / No presente trabalho foram estudadas blendas de PEBD/m-PELBD com aplicações típicas na área de filmes para embalagens. Foram analisadas as propriedades térmicas e reológicas das blendas de PEBD/m-PELBD nas proporções 80/20; 75/25; 70/30; 65/35; 60/40, bem como dos polímeros puros. As amostras foram processadas em extrusoras mono e dupla rosca, desta forma possibilitando avaliar a influencia da homogeneização nas propriedades térmicas e reológicas. O efeito das variações das composições das blendas nas propriedades térmicas foi analisado através da técnica de calorimetria exploratória diferencial (DSC), e os efeitos das variações na reologia da blenda foram analisados em reômetro de placa paralelas e capilar para as diversas composições e em diferentes temperaturas. Os resultados obtidos nas analises térmicas não apresentaram variações nas temperaturas de fusão e cristalização, com variação da composição, sendo que o m-PELBD puro apresentou uma temperatura de fusão de 108ºC, e o PEBD 105ºC. As analises reológicas demonstraram à alta influência do PEBD na viscosidade em baixas taxas de cisalhamento, apresentando viscosidade elevada. Porém, a partir de 100 1/s observa-se inversão das curvas de viscosidade, onde o m-PELBD influencia mais. Através de análises reológicas foi investigado o comportamento de fase das blendas, a qual se mostrou imiscível em todas as composições no estado fundido. Entretanto, devido à grande proximidade dos valores de temperatura de fusão dos componentes puros, na analise térmica não foi possível identificar o segundo pico de fusão esperado. Comparando os resultados reológicos e térmicos das blendas processadas em extrusora de rosca simples e dupla rosca, não foram observadas variações significativas. Os resultados térmicos e reológicos obtidos no presente estudos mostram que possíveis pequenas oscilações de composição durante o processo de dosagem na alimentação da extrusora não gerariam instabilidades significativas no processo.

blendas poliméricas

PEBD, m-PELBD

análises térmicas

análises reológicas

polymer blends

PEBD

m-PELBD

thermal analysis

rheological analyzes

Obten??o e caracteriza??o f?sico-qu?mica de blendas polim?ricas, baseadas em POE e PMMA, dopadas com di?xido de tit?nio

Lima, Elias Janu?rio de

28 May 2013

Made available in DSpace on 2014-12-17T15:42:08Z (GMT). No. of bitstreams: 1 EliasJL_DISSERT.pdf: 3301731 bytes, checksum: ed73b5da4a7dcfb4e0f473a7c83986b2 (MD5) Previous issue date: 2013-05-28 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior / The study of polymer blends has been an alternative method in the search field of new materials for obtaining materials with improved properties. In this work blends of poly(methyl methacrylate) (PMMA) and poly(ethylene oxide) (PEO) doped with titanium dioxide (TiO2) were studied. The PEO is a polymer semicrystalline structure varying between, 70 and 84% crystallinity, while the PMMA exhibits behavior amorphous in their structure. The use of TiO2 is related to corrosion-resistant of titanium as well as good heat transfer and other characteristics. The study of these polymer blends doped TiO2 gives the properties junction organic (polymer) and inorganic (oxide) which leads to modification of the properties of the resultant material. The blends were doped TiO2 (POE/PMMA/TiO2) in different proportions of the PMMA with the PEO and TiO2 fixed. The ratios were: 90/10/0,1; 85/15/0, 1; 80/20/0,1, 75/25/0,1 and 70/30/0,1. The resulting material was obtained in powder form and being characterized by Fourier Transformed Infrared (FTIR) Spectroscopy, Scanning Electron Microscopy (SEM), X-Ray Diffraction (XRD), Thermogravimetric Analysis (TGA) and Electrochemical Impedance Spectroscopy (EIS). The infrared spectra (IR) for the blends in different ratios showed a band at 1744 cm-1, characteristic of the C=O stretching, which increases in intensity with increasing PMMA composition, while in the spectrum of pure PEO this band is absent. This may suggest that the interaction is occurring between the polymers. In the micrographs of the blends also observed change in their surfaces with variation of the composition of PMMA, contributing to the change of the electrical properties of the material. The EIS data showed that the material exhibited conductivity of the order of 10-6 S.cm-1. The blend in the ratio B2(85/15/0, 1) showed better conductivity, σ = 1.56 x 10-6 S.cm-1. It was observed that the diffusion coefficient for the blends, B5(70/30/0, 1) was the largest, 1.07 x 10-6 m2.s-1. The XRD data showing that, with the variation in the composition of the PMMA blend crystallinity of the material is decreased reaching a minimum B3(80/20/0,1), and then increases again. Thermal analysis suggests that blends made from the material obtained can be applied at room temperature / O estudo de blendas polim?ricas tem sido um m?todo alternativo no campo de pesquisa de novos materiais para obten??o de materiais com melhores propriedades. Neste trabalho blendas de poli(metacrilato de metila) (PMMA) e poli(?xido de etileno) (POE) dopadas com di?xido de tit?nio (TiO2) foram estudadas. O POE ? um pol?mero de estrutura semicristalina com varia??o entre, 70 e 84% de cristalinidade, enquanto o PMMA apresenta comportamento amorfo em sua estrutura. O uso do TiO2 est? relacionado ? alta resist?ncia a corros?o do tit?nio, assim como a boa transfer?ncia de calor, al?m de outras caracter?sticas. Uma das suas aplica??es ? a fotocat?lise. O estudo destas blendas polim?ricas dopadas com TiO2 proporciona a jun??o das propriedades org?nica (pol?meros) e inorg?nica (?xido), o que leva a modifica??o das propriedades do material resultante. As blendas foram dopadas com TiO2 (POE/PMMA/TiO2) em diferentes propor??es do POE e PMMA com o TiO2 fixo. As propor??es foram: 90/10/0,1; 85/15/0,1; 80/20/0,1; 75/25/0,1 e 70/30/0,1. O material resultante obtido foi em forma de p? sendo caracterizado por Espectroscopia de Infravermelho por Transformada de Fourier (FTIR), Microscopia de Varredura Eletr?nica (MEV), Difra??o de Raios X (DRX), Termogravimetria (TG/DTG) e Espectroscopia de Imped?ncia Eletroqu?mica (EIE). Os espectros de infravermelho (IV) para as blendas em diferentes propor??es apresentaram uma banda em 1744 cm-1, caracter?stica do estiramento C=O, que aumenta de intensidade com o aumento da composi??o do PMMA, enquanto no espectro do POE puro esta banda est? ausente. Isto pode sugerir que est? ocorrendo ? intera??o entre os pol?meros. Nas micrografias das blendas, tamb?m, observa-se mudan?a em suas superf?cies com a varia??o da composi??o do PMMA o que pode contribuir na mudan?a das propriedades el?tricas do material. Os dados de EIE mostraram que o material apresentou condutividade da ordem de 10-6 S.cm-1. A blenda na propor??o B2(85/15/0,1) apresentou melhor condutividade, σ = 1,56 x 10-6 S.cm-1. Observou-se que o coeficiente de difus?o para as blendas, a B5(70/30/0,1) foi o maior, 1,07 x 10-6 m2.s-1. Os dados de DRX mostram que, com a varia??o na composi??o de PMMA na blenda a cristalinidade do material vai diminuindo atingindo um m?nimo em B3(80/20/0,1) e, ent?o, volta a aumentar. An?lise t?rmica realizada das blendas sugere que o material obtido pode ser aplicado em temperatura ambiente

La cristallisation de quatre poly(1,3-dioxolannes) de masses molaires différentes

Jiménez, Liliana

12 1900

Le poly(1,3-dioxolanne) (PDOL) est un polymère semi-cristallin présentant à l’état solide quatre morphologies différentes (Phases I, IIa, IIb et III). Les transformations d'une phase à l'autre ont été suivies par microscopie optique polarisée (MOP) et microscopie à force atomique (AFM) en fonction de la température de cristallisation et de la masse molaire. La Phase I présente une morphologie sphérolitique tandis que la Phase IIa peut croître à partir de la Phase I ou spontanément. De façon inattendue, la Phase IIa, devient très biréfringente et cette nouvelle morphologie est appelée Phase IIb. Quand la transformation IIa-IIb est terminée, une nouvelle phase, la Phase III, croît à partir de la Phase IIb. La Phase III n'a jamais été observée sans la présence de Phase IIb; en outre, la Phase IIb remplace toujours la Phase IIa. Ce phénomène est appelé germination croisée. La mesure de la température de fusion des phases par MOP a permis d’établir leur stabilité relative: IIb > III >IIa. La vitesse de croissance (G) des sphérolites a été mesurée sur une plage de températures de 10,0 à 24,0 °C et montre une grande dépendance avec la masse molaire. Ces mesures ont révélé l’existence d’une masse molaire critique, autour de 5000 g.mol-1, en-dessous de laquelle nous avons observé GIIa > GIII et au-dessus de laquelle la relation est inversée avec GIII > GIIa. Finalement, nous avons exploré l’influence de l’ajout d’un deuxième polymère amorphe sur l’évolution des phases optiques dans des mélanges PDOL-PMMA, PDOL-PVC et PDOL-PVAc. Nous avons observé les mêmes transitions de phases que pour le PDOL pur et un certain degré de compatibilité dans le cas du PDOL-PMMA et du PDOL-PVC. / Poly(1,3-dioxolan) (PDOL) is a semi-crystalline polymer exhibiting in the solid state four different morphologies (Phases I, IIa, IIb and III). Transformations from one phase to another were followed by Polarized Optical Microscopy (POM) and Atomic Force Microscopy (AFM) as a function of crystallization temperature and molecular weight. Phase I shows a spherulitic morphology whereas Phase IIa normally grows radially from Phase I but it can also occur in the absence of Phase I. Its birefringence depends on the molecular weight of PDOL. Unexpectedly, at one point during the crystallization of Phase IIa, at constant temperature, it becomes highly birefringent, and this new morphology is called Phase IIb. When the transformation is completed, a new phase, Phase III, grows radially from Phase IIb; Phase III has never been observed without the presence of Phase IIb. Similarly, Phase IIb always replaces Phase IIa. This phenomenon is called cross-nucleation. The relative stability of the phases has been established as IIb > III >IIa. The growth rate of polymer spherulites was measured over a range of temperatures, from 10.0 to 24.0 °C, and showed remarkable molecular weight dependence. We found a critical molecular weight, around 5000 g.mol-1, below which the growth rate of Phase IIa is slower than that of Phase III but, at higher molecular weight, the trend is reversed. Finally, we explored the influence of the addition of a second amorphous polymer on the evolution of optical phases in some blends: PDOL-PMMA, PDOL-PVC and PDOL-PVAc. We found the same phase transformations as with pure PDOL and some degree of compatibility for the PMMA-PDOL and PDOL-PVC blends.

poly(1,3-dioxolanne)

cristallisation

morphologie

polymorphisme

microscopie optique polarisante

mélanges polymères

poly(1,3-dioxolan)

crystallisation

morphology

polymorphism

polarized optical microscopy

polymer blends

Prepara??o e caracteriza??o de sistemas constitu?dos por Poli(3-hidroxibutirato) para libera??o controlada de S-nitrosoglutationa

Souza, Regina In?z

05 July 2017

Submitted by Jos? Henrique Henrique (jose.neves@ufvjm.edu.br) on 2017-09-12T20:11:13Z No. of bitstreams: 2 license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) regina_inez_souza.pdf: 2322505 bytes, checksum: fb22e286692f3f78b323a1aa5767c86b (MD5) / Approved for entry into archive by Rodrigo Martins Cruz (rodrigo.cruz@ufvjm.edu.br) on 2017-09-18T13:03:41Z (GMT) No. of bitstreams: 2 license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) regina_inez_souza.pdf: 2322505 bytes, checksum: fb22e286692f3f78b323a1aa5767c86b (MD5) / Made available in DSpace on 2017-09-18T13:03:41Z (GMT). No. of bitstreams: 2 license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) regina_inez_souza.pdf: 2322505 bytes, checksum: fb22e286692f3f78b323a1aa5767c86b (MD5) Previous issue date: 2017 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior (CAPES) / Na ind?stria farmac?utica, os pol?meros s?o bastante utilizados em sistemas para libera??o controlada de f?rmacos, por serem capazes de liber?-los efetivamente no local alvo, aumentando os benef?cios terap?uticos e minimizando os efeitos colaterais. Entre os pol?meros utilizados para essa finalidade, tem-se o poli(3-hidroxibutirato) (PHB) pertencente a classe dos poli(hidroxialcanoatos), sendo um pol?mero de origem microbiana, que destacase por ser biorreabsorv?vel e biocompat?vel. Quando utilizado em misturas f?sicas com outros pol?meros, as denominadas blendas, modifica-se propriedades f?sicas, mec?nicas e biol?gicas do PHB para aumentar sua aplicabilidade. Nesse sentido, o propilenoglicol (PPG) foi utilizado para prepara??o de blendas PHBPPG (90/10). O objetivo do trabalho foi preparar e estudar filmes polim?ricos constitu?dos por PHB e PHBPPG (90/10) contendo 1% e 5% de Snitrosoglutationa (GSNO), um doador de ?xido n?trico (NO) bem como sintetizar o f?rmaco e avaliar sua estabilidade ap?s armazenamento a 23?C, 4?C e -18?C durante 90 dias por an?lise t?rmica e por espectroscopia na regi?o do infravermelho. Os filmes obtidos contendo GSNO foram caracterizados por an?lise t?rmica, espectroscopia no infravermelho e avaliou-se o perfil de libera??o in vitro dos mesmos. A citotoxicidade dos extratos das matrizes constitu?das somente por PHB e PHBPPG (90/10) foi avaliada sobre c?lulas mononucleares do sangue perif?rico (PBMC) e leuc?citos totais pelo m?todo de exclus?o com azul de Tripan e sobre hem?cias pela avalia??o da atividade hemol?tica. Os resultados da an?lise t?rmica e infravermelho mostraram que a melhor forma de armazenamento de GSNO ? em 4?C e -18?C. As matrizes polim?ricas de PHB e da blenda PHBPPG (90/10) contendo 1% e 5% de GSNO, avaliadas por an?lise t?rmica foram capazes de liberar NO e apresentaram-se mais est?veis termicamente quando comparados aos filmes de PHB e da blenda sem o f?rmaco. O perfil de libera??o dos filmes de PHB e da blenda PHBPPG (90/10) mostrou que h? uma libera??o r?pida inicial de GSNO nas 24 horas iniciais seguido por um padr?o de libera??o controlada no per?odo de 1 a 8 dias para os filmes contendo 5% de GSNO, sendo o filme da blenda PHBPPG (90/10) contendo 5% de f?rmaco, o que apresentou maior porcentagem de libera??o no per?odo avaliado. Extratos provenientes dos filmes de PHB e da blenda PHBPPG (90/10) n?o apresentaram car?ter citot?xico por n?o induzirem hem?lise das hem?cias e n?o reduzirem a viabilidade celular de PBMCs e leuc?citos totais. As blendas desenvolvidas neste trabalho possuem a capacidade de libera??o controlada e in situ de ?xido n?trico, e possuem aplica??o potencial, por exemplo, no revestimento de stents coronarianos para preven??o da restenose p?s-angioplastia. / Disserta??o (Mestrado) ? Programa de P?s-gradua??o em Ci?ncias Farmac?uticas, Universidade Federal dos Vales do Jequitinhonha e Mucuri, 2017. / Polymers are widely used for controlled drug release systems improving the therapeutic benefits and minimizing side effects by the pharmaceutical industry due their capability of releasing it effectively at the target site. Among the polymers used for this purpose there is poly(3-hydroxybutyrate, PHB), a polymer from microbial origin of the poly(hydroxyalkanoate) class that is both bioresorbable and biocompatible. When used as a physical blends with other polymers several properties of PHB (physical, mechanical and biological) could be modified to increase their applicability. To produce blends with PHB the propyleneglycol (PPG) was used to prepare PHBPPG blends (90/10). The aim of this work was to prepare and study polymeric films composed by PHB and PHBPPG (90/10) containing 1% and 5% S-nitrosoglutathione (GSNO), a nitric oxide (NO) donor. The GSNO was synthesized and had its stability evaluated after storage at 23 ? C, 4 ? C and -18 ? C for 90 days by thermal analysis and infrared spectroscopy. The polymer materials containing GSNO were characterized by thermal analysis, infrared spectroscopy and also their drug release capability was evaluated. The cytotoxicity of matrices constituted by PHB and PHBPPG (90/10) was evaluated on peripheral blood mononuclear cells (PBMC) and total leukocytes by the exclusion method with Tripan blue and on red blood cells by the evaluation of hemolytic activity. The thermal and infrared analysis showed that the best form of GSNO storage is at 4 ? C and -18 ? C. Polymeric matrices of PHB and PHBPPG (90/10) containing 1% and 5% of GSNO, were able to release NO and were more thermally stable when compared to PHB and blends without the drug. The release profile of the PHB and PHBPPG blends (90/10) showed an initial fast release of GSNO at the initial 24 hours followed by a controlled release pattern in the period of 1 to 8 days for materials containing 5% of GSNO. The PHBPPG (90/10) blends containing 5% of drug presented the highest percentage of release in the evaluated period. The PHB and PHBPPG (90/10) blends did not present cytotoxic effects. The studied materials did not induced hemolysis of the red blood cells and did not reduced the cellular viability of PBMCs and total leukocytes. The developed blends are capable to exert the in situ controlled-release of nitric oxide and can potentially be used for example to coat coronary stents and thus help to prevent post-angioplasty restenosis.

Blendas polim?ricas

Libera??o controlada

Poli(3-hidroxibutirato)

Citotoxicidade

Propilenoglicol

S-nitrosoglutationa

Polymer blends

Controlled release

Poly(3-hydroxybutyrate)

Propyleneglycol

S-nitrosoglutathione

Citotoxicity