Biodegradation of slowly biodegradable organic matter in wastewater treatment plant (WWTP) : In depth analysis of physical and biological factors affecting hydrolysis of large particles / Biodégradation de la matière organique lentement biodégradable dans les stations d'épuration : analyse des facteurs physiques et biologiques affectant l'hydrolyse des particules de grande taille

Benneouala, Mourad

04 May 2017

Dans cette thèse, la biodégradation et le devenir des matières organiques lentement biodégradables contenues dans les eaux usées ont été étudiés. La thèse s’est particulièrement penchée sur l’étude du processus d’hydrolyse dans la mesure où plusieurs auteurs considèrent qu’il s’agit du processus limitant durant la dégradation des matières considérées. L’analyse des résultats de la littérature en complétés de ceux que nous avons obtenu en laboratoire a permis d’identifier et ainsi souligner les manques par rapport aux mécanismes qui régissent la dégradation des matières organiques lentement biodégradables. Ensuite, nous avons confronté ces résultats expérimentaux (expériences réalisées en batch sur des substrats type « particules décantables ») aux modèles conventionnels du traitement des eaux mais aussi à d’autres modèles moins usuels afin d’évaluer les performances de ces derniers à décrire l’hydrolyse des différents substrats. La difficulté de ces modèles à décrire la diversité des situations rencontrées nous a amené à développer un nouveau modèle qui tient compte des propriétés physiques et géométriques du substrat et qui permettrait d’améliorer la caractérisation du processus d’hydrolyse. Enfin, nous nous sommes intéressés à la distinction d’une biomasse hydrolytique dans la masse cellulaire totale et de déterminer son origine. Il a été clairement démontré que l’hydrolyse des PSS dans les procédés à boues activées était plus impactée par les bactéries indigènes, initialement adsorbées dans le réseau, que par les bactéries exogènes, en provenance d’un inoculum de boue activées. / In this work, the fate and biodegradation of slowly biodegradable organic matter contained in wastewaters were investigated. The hydrolysis process was particularly targeted as many sources proved that it controls the fate of the considered substrate. First, a synopsis of the literature results related to this topic as well as internal results were investigated especially in terms of respirometric aspects (OUR measurement) in order to identify differences and/or similarities between the experiments and, thus, address gaps in knowledge of the mechanisms that are involved in the hydrolysis of this matter. Then, in the second part of this thesis, experimental data from batch respirometric tests (performed in our laboratory), involving typical slowly biodegradable matter that are found in wastewaters (e.g. Particulate settleable solids, toilet paper…), were confronted to conventional (IAWQ models) and non-conventional models to evaluate the efficiencies of those models to describe the hydrolysis step. In the third part of this thesis, based on hypotheses, a novel conceptual framework was developed in order to enhance the description of the hydrolysis process. The physical properties (density, size, shape) of the components (bacteria and substrate) were taken into account in this model. Finally, in the fourth and last chapter of this thesis, the specific role of each bacterial population involved in the biodegradation of slowly biodegradable organic matter was assessed. It was here clearly evidenced that the hydrolysis of PSS in activated sludge processes appears more influenced by the initially adsorbed bacteria onto the sewage than by the added AS-inoculum concentration.

: Eaux résiduaires urbaines

Particules décantables

Hydrolyse

Modelisation

Respirométrie

Wastewater treatment

Particulate settleable solids

Slowly biodegradable organic matter

Hydrolysis

Modeling

Respirometry

628.2

628.3

Toxoide diftérico: nova roupagem para uma vacina tradicional / Diphtheric toxoid: new clothes for a traditional vaccine

Jocimara Ambrosio de Moraes Namur

27 November 2007

O processo de micrencapsulação de proteínas em microesferas (MS) de PLGA [poli (ácido lactico-co-glicolico)] é fácil de fazer e é uma ferramenta útil para melhorar tanto uma formulação quanto para aumentar a atividade imunológica de vacinas de novas gerações. A MS-PLGA têm caráter adjuvante porque é um sistema particulado e, além disto, controla a liberação do antígeno. O escopo desta tese foi o de dar uma nova roupagem para um antígeno vacinal tradicional e muito bem estudado- o toxoide diftérico (Dtxd). Estudaram-se a produção de MS de tamanho desejado; os mecanismos que controlam danos nas proteínas durante o processo de micrencapsulação; a produção de microesferas com características de liberações em tempos distintos e ensaios biológicos. O tamanho de MS é um determinante fundamental para controlar a velocidade de liberação de um soluto. Para se produzir MS com tamanhos controlados usou-se um desenho fatorial experimental com três fatores distintos e três pontos centrais, para se determinar a influência das variáveis (concentração de poli álcool vinílico; velocidade de agitação e relação fase dispersa/fase contínua) na determinação do tamanho das MS. Foram obtidas MS esféricas e lisas de 4- 15 µm de diâmetro. Estes resultados abrem a possibilidade de se formular PLGA-MS com tamanhos planejados através de um mínimo de experimentos. O mecanismo de danos conformacionais nas proteínas nas várias fases do processo de produção de PLGA-MS é ainda uma questão em aberto. Usaram-se várias técnicas biofísicas (HPLC, espectroscopias no uv, fluorescência e CD) além de ELISA para se testar a interferência dos sais da série de Hofmeister sobre a solubilidade e estabilidade da proteína durante a emulsificação e do contacto com a interface água/cloreto de metileno (primeira etapa do processo de preparação de MS). Estudaram-se também a influência de oligômeros de PLGA e SDS sobre a estrutura da proteína no meio de liberação (etapa de liberação do soluto). A emulsificação de Dtxd na presença de Mg2+ induziu agregação protéica, com exposição de resíduos hidrofóbicos para o meio; variações no ângulo diédrico do S-S proteico e perda de identidade imunológica. Esta agregação foi quase abolida pelo caotrópico SCN- (toxicidade = 30 g/ homem adulto de 70 kg). A conformação \"nativa\" do Dtxd e sua atividade biológica foram protegidas pelo KSCN. Os oligômeros de PLGA e o SDS induziram uma conformação de Dtxd nova. A adição de KSCN na fase aquosa aumentou a eficiência de encapsulação de Dtxd pela PLGA-MS em 20 %. Esta foi a solução mais simples quando comparada com aquelas descritas na literatura. Produziram-se seis formulações diferentes (diferentes massas molares e carboximetilações do PLGA) com pelo menos três cinéticas de liberações distintas. Imunizaram-se camundongos com 5 µg de Dtxd encapsulado em MS-PLGA usando-se dois polímeros de 12 kDa (-COOH livre ou metilado) e um outro de 63 kDa (metilado). O padrão de resposta e a maturidade imunológicas foram medidos por titulações de IgG1 e IgG2a. Mantiveram-se os mesmos padrões de resposta humoral (desejável). Menores quantidades de antígenos foram necessárias para se obter os mesmos benefícios gerados pela vacina tradicional de Dtxd. Aumentaram-se a produção e a seletividade de anticorpos através de duas manipulações simples: a formulação e o tempo da aplicação da dose de reforço. Estes resultados colocam estas formulações na área de vacinas de sucesso uma vez que também foram obtidas memórias imunológicas. / The protein microencapsulation within microspheres (MS) of PLGA (Poly-lactide-co-glycolide) is easy to do and, it is a useful tool to enhance formulation and immunologic performances for new generation vaccines. MS-PLGA has adjuvant character because it is a particulate system and can control the antigen release. The question addressed in this thesis was to give this new dress for the traditional and well studied vaccine antigen - the diphtheria toxoid (Dtxd). The steps of MS control size production; mechanism to control protein damages; MS production with different polymers and biological assay were addressed here. MS size is a primary determinant of solute release velocity. A full factorial experimental design 23 with triplicate at the central point was used to determine the influence of variables (polyvinyl alcohol concentration, stirring velocity and the relationship between dispersed /continuous phase) on MS size. Uniformly spherical and smooth microspheres (4 - 15 µm of diameter) were obtained. These results open the possibility of formulating PLGA microspheres with custom sizes performing a minimum of experiments as required for specific applications. It stills an open question to detail the conformational mechanism of protein damages during the various steps of the PLGA microencapsulation process. Various techniques (HPLC gel filtration, ELISA, Fluorescence, UV and Circular dichroism spectroscopies) were tested on the interference of the Hofmeister ion series over protein solubility and stability during the emulsification and contact with the interface water/CH2Cl2 interface (First step on MS preparation). The interference of SDS and PLGA olygomers over protein structure in the liberation media was also studied (solute liberation step). The Dtxd emulsification in the presence of Mg2+ was followed by protein aggregation, with exposition of hydrophobic residues and changes on the dihedral S-S protein angle and loses on immunological identity. This aggregation is 95% avoided by the chaotropic and little toxic salt KSCN (30g/ adult human of 70 kg). All the \"native\" Dtxd conformation and biological properties were maintained by KSCN. MS with different liberation kinetics profile and different erosion characteristics were obtained by using six different polymers. The SDS and PLGA olygomers exerted a generation of new Dtxd molecular organization. The KSCN increased Dtxd encapsulation within PLGA-MS in more than 20 %. This was the simplest solution used to solve protein aggregation compared with others solutions used in the literature. The six different formulations produced (differing in molar mass and carboxymethylation) produced, at least, three different Dtxd liberation profiles. Mice were primed with 5 µg of Dtxd microencapsulated within MS prepared with 12 kDa (ended carboxymethylated or free PLGA) and with 63 kDa (methylated) PLGA. The response patterns and the immune maturity were measured by IgG1 and IgG2a titrations. The humoral pattern was maintained, but fewer antigens were needed to obtain the same traditional Dtxd vaccine benefits. The simple change on Dtxd-PLGA formulation and timing of the booster enhanced both, antibody production and selectivity. An immunological memory was also obtained, putting so, these formulations in the field of successful vaccine.

Adjuvantes particulados

Encapsulação de vacinas

Liberação controlada de drogas

Microesferas de PLGA

Nanotecnologia

Polímeros biodegradáveis

Biodegradable polymers

Drug controlled release

Nanotechnology

Particulate adjutants

PLGA microspheres

Vaccines encapsulation

Avaliação do sistema de mobilização de poli-3-hidroxibutirato em Burkholderia sacchari. / Evaluation of poly-3-hydroxybutyrate (P3HB) mobilization system in Burkholderia sacchari.

Nuri Andrea Merchan Castellanos

19 October 2010

O sistema de mobilização intracelular de poli-3-hidroxibutirato (P3HB) em Burkholderia sacchari foi analisado. A busca em genomas de Burkholderia spp. identificou duas oligômero hidrolases (PhaY1 e PhaY2) e pelo menos três P3HB despolimerases intracelulares (PhaZa1, PhaZa2 e PhaZd1). Mutantes de B. sacchari afetados na mobilização de P3HB e complementados com genes de Ralstonia eutropha apresentaram um aumento expressivo nas taxas de mobilização de P3HB, especialmente quando o gene phaZa1 foi superexpresso. A superexpressão dos genes phaZa2 ou phaZa3 também conduziu a aumentos nas taxas de mobilização embora em um grau menor que os valores obtidos com phaZa1. Dois mutantes afetados na mobilização de P3HB foram obtidos utilizando o transposon mini-Tn5 (NAM03 e NAM04). NAM03 apresentou interrupção em gene que codifica uma P3HB despolimerase intracelular (PhaZa1). NAM04 apresentou interrupção em gene anotado como serino peptidase LonA. Este pode representar um ativador da mobilização ou uma nova P3HB despolimerase intracelular. / The intracellular poly-3-hydroxybutyrate (P3HB) mobilization system in Burkholderia sacchari was analyzed. A search in Burkholderia spp. genomes identified two oligomer hydrolases (PhaY1 and PhaY2) and at least three intracellular P3HB depolymerase (PhaZa1, PhaZa2 e PhaZd1). B. sacchari mutants affected on P3HB mobilization and complemented by Ralstonia eutropha genes showed an expressive increase on P3HB mobilization rates, especially when phaZa1 was overexpressed. The overexpression of phaZa2 or phaZa3 also increased the mobilization rates though to a lesser extent than phaZa1. Two mutants affected on P3HB mobilization were obtained using the transposon mini-Tn5 (NAM03 and NAM04) .NAM03 was disrupted in a gene encoding an intracellular P3HB depolymerase (PhaZa1). NAM04 was disrupted in a gene annotated as a serine peptidase LonA. This could be a mobilization activator or a new intracellular P3HB depolymerase.

Burkholderia sacchari

Biotecnologia

Mobilização de PHA

PHA despolimerase Intracelular

Plásticos biodegradáveis

Poli-3-hidroxibutirato

Polihidroxialcanoatos

Burkholderia sacchari

Biodegradable plastics

Biotechnology

Intracellular PHA depolymerase

PHA mobilization

Poly-3-hydroxybutyrate

Polyhydroxylakanoates

Obtenção de mutantes deficientes no acúmulo de PHA e construção de linhagens recombinantes para o controle da composição monomérica / Mutants deficient on polyhydroxyalkanoate (PHA) accumulation and construction of recombinants to control monomer composition on PHA

Rogério de Sousa Gomes

03 February 2010

Pseudomonas putida produz PHA de cadeia média (PHAMCL) a partir de carboidratos e óleos vegetais. Genes de biossíntese de P3HB (poli-3-hidroxibutirato) de Ralstonia eutropha foram inseridos em P. putida IPT046 selvagem e mutantes PHA-. A expressão de phaC, codificador da PHA sintase, permitiu o acumulo de PHA com alto teor de 3HB, indicando que P. putida possui enzimas geradoras de 3HB. A expressão de phaB mostrou que seu produto canaliza 3HB e 3-hidroxihexanoato (3HHx) da <font face=\"Symbol\">&#946-oxidação para a PHA sintase. Ao expressar phaC em IPT461, afetado na PHA sintase, 30% de P3HB-co-3HHx-co-3HO foram produzidos a partir de carboidratos, mostrando que há vias metabólicas eficientes para suprir 3HAMCL, que são incorporados pela PHA sintase de R. eutropha. Usando transposon mini-Tn5, obtiveram-se mutantes deficientes na biossíntese de PHA a partir de glicose ou glicose e octanoato. Não se detectaram mutantes exclusivamente deficientes no acúmulo de PHA a partir de octanoato, indicando que diferentes produtos gênicos canalizam intermediários da <font face=\"Symbol\">&#946-oxidação para a síntese de PHA. / Pseudomonas putida produces medium-chain-length PHA (PHAMCL) from carbohydrates and plant oils. Recombinants harboring the P3HB (polyhydroxybutyrate) biosynthesis genes from Ralstonia eutropha were constructed on P. putida IPT046 wild type and PHA- mutants. Expression of phaC, encoding, PHA synthase, allowed the synthesis of PHA with high 3HB content, indicating that P. putida has enzymes to generate 3HB. Expression of phaB showed that its product channels 3HB and 3-hydroxyhexanoate (3HHx) from <font face=\"Symbol\">&#946-oxidation to the PHA synthase. When phaC was expressed on IPT461, affected in the PHA synthase, 30% P3HB-co-3HHx-co-3HO were accumulated from carbohydrates, showing that there are metabolic pathways efficient to supply 3HAMCL, which are incorporated by the R. eutropha PHA synthase. Using mini-Tn5 transposon, mutants deficient on PHA biosynthesis from glucose or glucose and octanoate were produced. No mutant deficient exclusively on PHA biosynthesis from octanoate was detected. Thus different gene products may channel intermediates from <font face=\"Symbol\">&#946-oxidation to PHA biosynthesis.

3-Cetoacil-CoA redutase

PHA sintase

Polihidroxialcanoatos

Polímeros biodegradáveis

Pseudomonas

Transposon mini-Tn5

Biodegradable Polymers

Ketoacyl-CoA reductase

Mini-Tn5 transposon

PHA synthase

Polyhydroxi alkanoates

Pseudomonas

Estudo de nanocompósitos formados por PLA e nanopartículas de celulose. / Study of nanocomposite formed by PLA and cellulose nanoparticles.

Suellen Signer Bartolomei

08 April 2016

Devido à preocupação com o meio ambiente e o volume crescente de resíduos plástico em aterros sanitários, os polímeros biodegradáveis estão sendo estudados extensivamente. Um deles é o PLA. Apesar de possuir propriedades comparáveis a polímeros commodities e polímeros de engenharia, ainda é necessário melhorar certas características do PLA, como resistência ao impacto. Para isso, a nanocelulose (NC) pode ser usada sem alterações significativas na biodegradação polimérica. Este estudo teve como objetivo obter a nanocelulose, caracteriza-la e incorpora-la ao poli(ácido láctico) (PLA), assim como, estudar as propriedades térmicas, morfológicas e mecânicas do compósito obtido. A NC foi obtida por hidrólise ácida utilizando ácido fosfórico e posteriormente foi silanizada com três silanos distintos. As nanopartículas foram caracterizadas por Birrefringência, Microscopia Eletrônica de Transmissão (MET), Termogravimetria (TG), Potencial Zeta, Espectroscopia Vibracional de Absorção no Infravermelho com Transformada de Fourier (FTIR) e Difração de Raio X (DRX). Com as imagens obtidas pelo MET foi possível medir o tamanho das partículas de NC. E então obter a razão de aspecto de 82 e o limite de percolação de 1,1% em massa, confirmando a morfologia de nanofibra. De acordo as analises TG\'s, a presença de NC silanizada aumentou o início da degradação térmica. Os compósitos, contendo 3% em massa de NC, foram obtidos por fusão em câmara de mistura e moldados por injeção. Os compósitos foram caracterizados por FTIR, Cromatografia de Permeação em Gel (GPC), TG, Calorimetria Exploratória Diferencial (DSC), Microscopia Eletrônica de Varredura (MEV-FEG), Impacto e Tração. As análises dos compósitos mostraram que a NC atuou como agente de nucleação, facilitando a cristalização do PLA, além de a NC ter atuado como reforço na matriz polimérica melhorando as propriedades mecânicas. / Due to concern for the environment and the growing volume of plastic waste in landfills, biodegradable polymers are being studied extensively. One of them is the PLA. Despite properties comparable to commodities polymers and engineering polymers, it is still necessary to improve certain characteristics of PLA, such as impact resistance. For this, the nanocelulose (CN) can be used without significant changes on the polymeric biodegradation. This study aimed to obtain nanocelulose, characterizes it and incorporates it to polylactic acid (PLA), even as, studies of thermal, morphological and mechanical properties of the composites processed. The CN was obtained by acid hydrolysis using phosphoric acid and it was, subsequently, silanized with three different silanes. The nanoparticles were characterized by Birefringence, Transmission Electron Microscopy (TEM), Thermogravimetry (TG), Zeta Potential, Spectroscopy Absorption Vibrational Infrared Fourier Transform (FTIR) and X-Ray Diffraction (XRD). By images taken by TEM was possible to measure the size of particles CN. So, obtain the aspect ratio of 82 and the percolation limit of 1.1 wt%, demonstrating morphology of nanofiber. According to TG analysis, the beginning of thermal degradation increased when CN Pure was compared with modified CN. The composite, containing 3 wt% CN, were obtained by melt in mixing chamber and then injection molded. The composites were characterized by FTIR, Gel Permeation Chromatography (GPC), TG, Differential Scanning Calorimetry (DSC), Scanning Electron Microscopy (SEM), Impact and Tensile Strength. The results showed that the CN acts as a nucleating agent in PLA, facilitating the crystallization and acts as reinforcement in polymer matrix to improve the mechanical properties.

Morfologia

Nanocelulose

Nanocompósitos

Nanopartículas

PLA

Polímeros biodegradáveis

Propriedades mecânicas

Propriedades térmicas

Silano

Biodegradable polymers

Mechanical properties

Morphology

Nanocellulose

Nanocomposites

PLA

Silane

Thermal properties

DESARROLLO Y CARACTERIZACION DE PELÍCULAS DE ALMIDÓN DE MAÍZ POR MEZCLADO CON COMPUESTOS MÁS HIDROFÓBICOS / Development and characterization of corn starch films by blending with more hydrophobic compounds

Ortega Toro, Rodrigo

01 July 2015

[EN] Different strategies were used to improve physical properties of corn starch based films, with glycerol (30%) as plasticizer, based on increasing their hydrophobic character in order to reduce the materials' water sensitivity. Starch was blended with different components (surfactants and more hydrophobic polymers), with and without compatibilizers, to obtain blend films through different processing techniques (casting, melt blending, compression molding and extrusion). Bilayer film formation by compression molding with starch and poly(e-caprolactone) (PCL) was also studied. The addition of surfactants to starch films obtained by casting gave rise to a decrease in water vapor permeability (WVP), but an increase in the film fragility was observed. Surfactants with lower hydrophilic-lipophilic balance (HLB), solid at room temperature, promoted a fine microstructure in the matrix with smaller lipid particle, which enhanced water vapor barrier properties. Thermo-processing was used to obtain the other films due to its broader industrial application. Starch blends with hydroxypropyl methylcellulose (HPMC) showed an HPMC dispersed phase in the starch matrix and better water barrier properties, but they were more permeable to oxygen, especially when they contained citric acid (CA) as compatibilizer. CA induced cross-linking in the polymeric matrix, thus slightly increasing film hardness, but decreasing its extensibility. The incorporation of PCL in different ratios to starch films obtained by compression molding gave rise to polymer phase separation, although a small PCL miscibility in the starch rich phase was detected, which reduced the glass transition temperature of the starch phase. The structural heterogeneity and lack of interfacial adhesion between polymers gave rise to fragile films. Nevertheless, small amounts of PCL (10%) reinforced the matrix (increase in the elastic modulus). When the PCL ratio increased, WVP was reduced but oxygen permeability increased. The incorporation of CA as compatibilizer of these blends provoked an increase in the water solubility of the films, by hydrolysis, and improved the mechanical properties of the films when PCL ratio was low (10%), but it did not affect the film barrier properties. The incorporation of polyethylene glycol (PEG 4000) to the blends with a low proportion of PCL did not imply an improvement in the film properties, since it promoted phase separation. Starch-PCL blends with 1:0.05 mass ratio, without compatibilizer, were quite homogenous and exhibited good mechanical properties and stability. In order to incorporate greater amounts of PCL, thus improving film hydrophobicity and stability, PCL was chemically modified by grafting glycidyl methacrylate or glycidyl methacrylate and maleic anhydride (PCL-g), to be used as compatibilizers. Films with 20 % PCL and 2.5 or 5 % of PCL-g showed very good mechanical and barrier properties and stability, inhibiting starch retrogradation. Their barrier properties met the food packaging requirements for a wide number of food products. Bilayer films obtained by compression molding of starch (or starch with 5% PCL) and PCL layers showed very low WVP and oxygen permeability and adequate mechanical properties. The adhesion of bilayers was greatly improved by the application of ascorbic acid and, especially, potassium sorbate, as aqueous solutions, at the interface before compression molding. These compounds, in turn, imparted antioxidant and antimicrobial properties, respectively, to the films, thus improving their potential use as active packaging material for food uses. / [ES] Se han utilizado diversas estrategias para mejorar las propiedades físicas de films a base de almidón de maíz, con glicerol (30 %) como plastificante, basadas en el incremento de su carácter hidrofóbico, para reducir su sensibilidad al agua. El almidón se mezcló con diferentes compuestos (surfactantes y polímeros más hidrofóbicos), con y sin compatilizadores, para la obtención de films mixtos por diferentes técnicas de procesado (casting, mezclado en fundido, moldeo por compresión y extrusión). Se estudió también la formación de films bicapa almidón-poli-e-caprolactona (PCL) mediante moldeo por compresión. La adición de surfactantes a los films de almidón elaborados por casting dio lugar a una disminución de su permeabilidad al vapor de agua (WVP), pero aumentó su fragilidad. Los surfactantes con menor balance hidrófilo-lipófilo (HLB), y sólidos a temperatura ambiente, proporcionaron una microestructura de los films con menor tamaño de partícula, que potenció las propiedades barrera al vapor de agua. Por su mayor aplicabilidad industrial, se emplearon técnicas de termo-procesado para la obtención del resto de films estudiados. Los obtenidos por mezcla con hidroxipropil metilcelulosa (HPMC) presentaron una fase dispersa de HPMC en la matriz de almidón y mejores propiedades barrera al vapor de agua, pero fueron algo más permeables al oxígeno, sobre todo cuando se incorporó ácido cítrico (CA) como compatibilizador. Este provocó entrecruzamiento en la matriz polimérica, incrementado ligeramente su dureza y reduciendo su extensibilidad. La incorporación de PCL en diferentes proporciones a los films de almidón obtenidos por termo-compresión, dio lugar a la separación de fases polímericas, detectándose una pequeña miscibilidad de la PCL en la fase rica en almidón que redujo la temperatura de transición vítrea de la fase amilácea. La heterogeneidad de su estructura y la falta de adhesión entre fases dio lugar a films demasiado frágiles, aunque en pequeña proporción (10%), la PCL reforzó la matriz (aumentó el módulo de elasticidad). Al aumentar la proporción de PCL, disminuyó la WVP de los films, pero aumentó la permeabilidad al oxígeno. La incorporación de CA como compatibilizador de estas mezclas aumentó la solubilidad en agua de los films por efecto de hidrólisis y supuso una mejora en las propiedades mecánicas de los films con baja proporción de PCL (10 %), pero no afectó a sus propiedades barrera. La incorporación de polietilenglicol (PEG 4000) a las mezclas con baja proporción de PCL no mejoró las propiedades de los films, potenciando la separación de fases. Las mezclas almidón:PCL con proporción másica 1:0.05, sin compatibilizador, fueron bastante homogéneas y exhibieron buen comportamiento mecánico y estabilidad. Para incorporar una mayor proporción de PCL, y mejorar la hidrofobicidad y estabilidad de los films, se modificó la PCL por reacción con glicidil metacrilato o anhídrido maleico y glicidil metacrilato (PCL-g), para su uso como compatibilizadores. Los films con 20% de PCL y 2.5 y 5 % de los PCL-g presentaron muy buenas propiedades mecánicas y de barrera al vapor de agua y a los gases y buena estabilidad al inhibir la retrogradación del almidón. Sus propiedades de barrera cumplieron con los requisitos de envasado de un número importante de productos alimentarios. La obtención de films bicapa por termo-compresión a partir de almidón (o almidón con 5% PCL) y PCL proporcionó un material con muy baja permeabilidad al vapor de agua y al oxígeno y buenas propiedades mecánicas. La adhesión entre las capas mejoró en gran medida con la incorporación de ácido ascórbico, y sobre todo de sorbato potásico, en la interfase en forma de disolución acuosa antes de la termo-compresión. Estos compuestos impartieron, a su vez, propiedades antioxidantes y antimicrobianas, respectivamente, a los films, mejorando su uso potencial para el envasad / [CAT] S'han utilitzat diverses estratègies per a millorar les propietats físiques de films a base de midó de dacsa, amb glicerol (30 %) com plastificant, basades en l'increment del seu caràcter hidrofòbic, per a reduir la seua sensibilitat a l'aigüa. El midó es va mesclar amb diferents compostos (surfactants i polímers més hidrofòbics), amb i sense compatibilitzadors, per l'obtenció de films mixtos mitjançant diferents tècniques de processat (càsting, mesclat en fos, modelatge per compressió i extrusió). Es va estudiar també la formació de films bicapa midó-poli-e-caprolactona (PCL) mitjançant modelatge per compressió. L'addició de surfactants als films de midó elaborats per càsting va donar lloc a una disminució de la seua permeabilitat al vapor d'aigüa (WVP), però va augmentar la seua fragilitat. Els surfactants amb menor balanç hidròfil-lipòfil (HLB), i sòlids a temperatura ambient, varen proporcionar una microestructura dels films amb menor grandària de partícula, que varen potenciar les propietats barrera al vapor d'aigüa. Per la seua major aplicabilitat industrial, es van emprar tècniques de termo-processat per l'obtenció de la resta de films estudiats. Aquells obtinguts per mescla amb hidroxipropil-metilcellulosa (HPMC) varen presentar una fase dispersa de HPMC en la matriu de midó i millors propietats barrera al vapor d'aigüa, però varen ser un poc més permeables a l'oxigen, sobretot quan es va incorporar àcid cítric (CA) com compatibilitzador. Aquest va provocar entrecreuament en la matriu polimérica, incrementant lleugerament la seua duresa i reduïnt la seua extensibilitat. La incorporació de PCL en diferents proporcions als films de midó obtinguts per termo-compressió, va donar lloc a la separació de fases polimèriques, detectant-se una xicoteta miscibilitat de la PCL en la fase rica en midó que va reduir la temperatura de transició vítria de la fase amilàcea. L'heterogeneïtat de la seua estructura i la falta d'adhesió entre fases va donar lloc a films massa fràgils, encara que en xicoteta proporció (10%), la PCL va reforçar la matriu (augmentant el mòdul d'elasticitat). Al augmentar la proporció de PCL, va disminuir la WVP dels films, però va augmentar la permeabilitat a l'oxigen. La incorporació de CA com compatibilitzador d'aquestes mescles va augmentar la solubilitat en aigüa dels films per efecte d'hidròlisi i va suposar una millora en les propietats mecàniques dels films amb baixa proporció de PCL (10 %), però no va afectar les propietats barrera. La incorporació de polietilenglicol (PEG 4000) a les mescles amb baixa proporció de PCL no va millorar les propietats dels films, potenciant la separació de fases. Les mescles midó:PCL amb proporció màssica 1:0.05, sense compatibilitzador, varen ser prou homogènies i varen exhibir un bon comportament mecànic i una bona estabilitat. Per a incorporar una major proporció de PCL i millorar l'hidrofobicitat i estabilitat dels films, es va modificar la PCL per reacció amb glicidil metacrilat o anhídrid maleic i glicidil metacrilat (PCL-g), per al seu ús com compatibilitzadors. Els films amb 20% de PCL i 2.5 i 5 % dels PCL-g varen presentar molt bones propietats mecàniques i de barrera al vapor d'aigüa i als gasos i bona estabilitat al inhibir la retrogradació del midó. Les seues propietats de barrera varen complir amb els requisits d'envasament d'un nombre important de productes alimentaris. L'obtenció de films bicapa per termo-compressió a partir de midó (o midó amb 5% PCL) i PCL va proporcionar un material amb molt baixa permeabilitat al vapor d'aigüa i al oxigen i bones propietats mecàniques. L'adhesió entre les capes va millorar en gran mesura amb l'incorporació d'àcid ascòrbic, i sobretot de sorbat de potassi, en la interfase en forma de dissolució aquosa abans de la termocompressió. Aquestos compostos varen impartir, a la vegada, propietats antioxidants i antimicrobianes, respec / Ortega Toro, R. (2015). DESARROLLO Y CARACTERIZACION DE PELÍCULAS DE ALMIDÓN DE MAÍZ POR MEZCLADO CON COMPUESTOS MÁS HIDROFÓBICOS [Tesis doctoral no publicada]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/52521 / TESIS

Starch

Films

Biodegradable

Surfactants

Hydroxypropyl methylcellulose

Polycaprolactone

Poly(ethylene glycol)

Citric acid

Casting

Compression molding

Extrusion

Grafting

Physical properties

Chemical properties

Structural properties.

TECNOLOGIA DE ALIMENTOS

Razvoj postupaka sinteze polimernih mreža i hibridnih materijala / Development of methods for polymer networks and hybrid materials synthesis

Ristić Ivan

27 May 2011

<p>U ovom radu vr&scaron;ena su istraživanja u cilju razvoja novih postupaka sinteze za nekoliko vrsta polimernih mreža i hibridnih biopolimernih materijala za specijalne primene. Cilj je bio da se razvije novi postupak sinteze rotaksana na bazi poli(etilen glikola) i &beta;-ciklodekstrina kaoprekursora mreža. Dobijeni prekursori mreža iskori&scaron;ćeni su za sintezu topolo&scaron;kih gelova koji su umreženi preko hidroksilnih grupa ciklodekstrinskih prstena. Analiziran je i uticaj količine umreživača, odnosno gustine umreženja, na svojstva bubrenja. Proučavan je i uticaj nanopunila na svojstva modelnih epoksi mreža na bazi bisfenola A i poli(oksi propilen) diamina. Kao punila kori&scaron;ćene su nanočestice nemodifikovanog i povr&scaron;inski modifikovanog titanijum(IV)oksida (TiO₂). Dinamičko-mehaničkom analizom potvrđen je ojačavajući efekat punila. Razvijen je postupak sinteze poli(D,L-laktida) u mikrotalasnom polju, čime je drastično smanjeno vreme polimerizacije (sa 150 sati na 15 minuta) u odnosu na klasičnu termosintezu. Sintezom poli(laktida) kao i kopolimera poli(laktida) sa biorazgradivim monomerima (na osnovu obnovljivih sirovina) dobijeni su materijali izuzetnih ekolo&scaron;kih svojstava. Poli(laktid) se odlikuje veoma dobrim mehaničkim svojstvima i biorazgradivo&scaron;ću, dok je blok-kopolimerizacijom sa drugim biorazgradivim monomerima vr&scaron;ena sinteza termoplastičnih poliestara. Variranje dužine segmenata je ostvareno sintezom adekvatnih oligomera kao prekursora za kopolimerizaciju. Vr&scaron;eno je projektovanje sirovinskog sastava segmentiranih elastomera kod kojih postojanje mekih i tvrdih segmenata ima za posledicu mikrofaznu separaciju faza &scaron;to u toku eksploatacije utiče na mehanička svojstva i mogućnost III razgradnje. Na taj način dobijeni su elastomerni materijali željenih svojstava. Metodama FTIC i 1H NMR spektroskopijom potvrđena je pretpostavljena struktura segmenata i finalnih termoplastičnih poliestara. Analizom molskih masa poliestara metodama gel propusne hromatografije, viskozimetrije i osmometrije napona pare, potvrđena je izuzetna kontrola reakcija polimerizacije i uspe&scaron;nost primenjenih metoda sinteze. Analiza toplotnih svojstava blok poliestara diferencijalno skenirajućom kalorimetrijom je pokazala da zbog neme&scaron;ljivosti faza, tvrdih i mekih segmenata, finalni blok poliestri mogu da pokažu razlike u temperaturama faznih transformacija u zavisnosti od dužine i udela segmenata. Termogravimetrijskom analizom je potvrđen uticaj dužine segmenata i faznog razdvajanja na toplotna svojstva termoplastičnih poliestara. Očekuje se da će sintetisani materijali biti podesni za primene u inženjerstvu tkiva, a posebno kao materijali za kontrolisano otpu&scaron;tanje lekova.</p> / <p>The primary goal of the work described in this thesis was to develop new methods for the<br />synthesis of polymer networks and hybrid biopolymers for special applications. The purpose was a development of synthesis procedure for the preparation of rotaxane based on poly(ethylene glycol) and &beta;-cyclodextrin, as network precursors. These network precursors were then cross-linked through hydroxy groups on cyclodextrine rings. Polyrotaxanes are intermediary products in the synthesis of topological gels and they are formed by the insertion of the linear polymer chains of poly(ethylene oxide) into the &beta;-CD cavities. In this work polyrotaxanes from acetylated-&beta;-CD and poly(ethylene oxide) were synthesized. The influence of crosslinker contents, and crosslink density on swelling properties was investigated. The influence of synthesis parameters and filler modification on reactions and final properties of organic-inorganic hybrid materials based on epoxy resin and an organically modified titanium(IV)oxide (TiO2) was investigated. Dynamic-mechanical analysis was used to determine reinforcement effect of nanofiller on the epoxy resin properties. The aim of this work was the investigation of microwave irradiation on the polymerization of D,L-lactide. It was found that if heating is carried out in the microwave field polymerization time of D,Llactide rapidly decreases from 150 hours to 15 minutes. Environmentally friendly materials were obtained from poly(lactide) and copolymers of poly(lactide) and monomers based on renewable resources. Poly(lactide) is biocompatible and biodegradable polymer with high stretching and low extension capacities. It has been used for the production of orthopedic fraction fixators and sutures surgery. Poly(lactide) was used for thermoplastic polyester (TPE) synthesis. Most thermoplastic polyesters derive their properties from segmented or block structures which are achieved by alternating hard and soft segments. FT-IR and 1H NMR spectroscopy were confirmed the assumed structure of segments and final thermoplastic polyesters. Since the properties of these materials strongly depend on the degree of phase separation, the influence of the lenghts of soft and hard segment on final properties of obtained TPEs was studied. Analysis of molecular mass of these polyesters by gel permeation chromatography, vapor pressure osmometry and viscozimetric analysis confirmed that good control of polymerization was achieved and that synthesis methods were successful. Thermal properties were characterized by means of differential scanning calorimetry (DSC) and thermo-gravimetric analysis (TGA). Phase separation had strong influences on thermal properties of obtained TPEs. DCS measurements showed that due to poor mixability of hard and soft segments, final block polyesters could have different temperatures of phase transitions depending on the length of the segments. Thermal degradation and the influence of phase separation on thermal stability of segmented thermoplastic polyesters were confirmed by nonisothermal analysis, using thermogravimetric analysis. It is expected that synthesized materials will be suitable for tissue engineering and as drug carriers.</p>

RATIONAL DESIGN AND SYNTHESIS OF FUNCTIONAL POLYMERS FOR ANTIMICROBIAL, ANTI-FOULING AND ANTI-ADHESIVE BIOMATERIAL APPLICATIONS

Nikam, Shantanu P.

05 May 2021

No description available.

Polymer Chemistry

Polymers

Biomedical Engineering

Struktura a mechanické vlastnosti materiálů na bázi hořčíku zpracovaných metodou HPT / Structure and mechanical properties of magnesium materials processed by HPT

Poloprudský, Jakub

January 2019

This thesis is focused on processing of pure magnesium by high pressure torsion method (HPT). This process belongs to the group of intensive plastic deformation methods (SPD). SPD methods are in the centre of scientific interest for several decades. Theoretical part of this thesis puts an effort to summarize basic knowledge and principles of SPD methods with extra focus on method HPT. As theoretical part continues magnesium as technical material is presented. Influence of SPD on use and properties of pure magnesium is then presented. This trend is further developed in effort to describe the effect of individual HPT process variables on the properties of pure magnesium and its alloys. Focus of practical part of this thesis is in influence of number of revolutions. Samples were processed at 1/8, 1/4, 1/2, 1, 4 and 8 turns at room temperature. Speed of process was 1rpm and applied pressure was 6 GPa. The structure of commercially pure magnesium prepared by casting and moulding were observed with focus on differences caused by input material. The structure was observed by both light microscopy and back scattered electron diffraction (EBSD), focusing on structure development, grain size and grain orientation. Compared to other works on similar topic, the emphasis here is on observing the microhardness on the vertical edge of the sample. The hardness shows a steep increase right after 1/8 of a turn. With increasing number of turns gradual homogenization of microhardness is presented accompanied by slight decrease in microhardness. No trend in microhardness relative to the distance from anvil has occurred. Structure observed with EBSD shows a bimodal character with larger grains oriented in the same direction. The three-point bending test didn’t end up as expected, and the approach to evaluation of magnesium-based HPT needs to be re-evaluated for future work. A three-point bending test was designed for the initial assessment of the basic mechanical properties of the material.

Reologické vlastnosti modifikovaných polymer-kompozitních kostních past / Rheological properties of modified polymer-composite bone pastes

Hlináková, Kristýna

January 2018

Předložená diplomová práce je zaměřená na studium viscoelastického chování kostních past na bázi fosforečnanu vápenatého a vodného roztoku termosenzitivního triblokového kopolymeru, zlepšujícího tokové vlastnosti pasty. V teoretické části je zpracována stručná charakteristika cementů na bázi fosforečnanu vápenatého. Rovněž se zabývá charakteristikou reologických vlastností injektabilních kostních past. Součástí je také stručný přehled aditiv ovlivňujících právě reologické a mechanické vlastnosti past. Experimentální část je zaměřena na charakterizaci triblokového kopolymeru pomocí nukleární magnetické rezonanční spektroskopie a reologie. Dále byly připravovány modifikované fosfátové cementy, u kterých byly posléze studovány viskoelastické vlastnosti. Kostní pasta byla modifikována přídavkem adhezivních sloučenin (dopamin a jodičnan sodný) a antibakteriálním činidlem (selenové nanočástice). Analýza viskoelastických vlastností byla provedena reologickou analýzou, během níž byl primárně sledován proces vytvrzování a tixotropní chování jak nemodifikovaných, tak modifikovaných fosfátových past. Proces vytvrzování probíhal při teplotě 23 °C a 37 °C, imitující fyziologické prostředí. Morfologie fosfátové keramiky byla charakterizována pomocí rastrovací elektronové mikroskopie a velikost částic byla zjištěna pomocí laserového analyzátoru částic. Bylo prokázáno, že výše zmíněná aditiva mají pozitivní vliv na kinetiku procesu vytvrzování kostních past. Selenové nanočástice navíc vylepšily tixotropní chování polymer-fosfátových past. Z tohoto důvodu jsou tyto nové injektabilní kompozitní pasty vhodné pro miniinvazivní chirurgii. Díky aditivům, vykazujících adhezivní vlastnosti, mají potenciál uplatnit se při léčbě zlomenin. Stejně tak se nabízí možnost využít pasty při léčbě osteomyelitidy, a to díky možnému uvolňování antibakteriálních nanočástic.