Global ETD Search

111	Développement d'une résine thermoplastique photopolymérisable dans le cadre d'une application photocomposite / Development of a photopolymerizable thermoplastic resin for a photocomposite application Charlot, Vincent 13 November 2015 (has links) Ce manuscrit rassemble les recherches effectuées dans le cadre du développement d’une résine thermoplastique photopolymérisable pour une application composite. Ce travail a été effectué dans le cadre du projet COMPOFAST, lancé par ARKEMA à la fin de l’année 2012. Ce projet, accompagné par l’ADEME, a pour but, la mise au point d’une nouvelle génération de composites thermoplastiques à haute cadence de production pour la conception de pièces pour l’automobile. L’intérêt de ces matériaux, et donc du projet, est l’allégement des véhicules par réduction de la masse des pièces utilisées et la recyclabilité des matrices choisies. A travers ce projet, plusieurs techniques ont été envisagées. Dans le cadre de cette thèse c’est le procédé QCM, pour Quick Composite Molding, qui a été étudié au sein du LPIM. L’utilisation de la lumière pour assurer la polymérisation de la matrice rend novateur ce procédé. Cette étape dite de photopolymérisation est connue pour être l’un des moyens les plus rapides pour former une résine solide à partir d’une formulation liquide. Le procédé repose également sur la dépose automatisée de bandes de préimprégnés sur un moule ouvert afin d’augmenter la vitesse de production des pièces de composites. Techniquement, deux étapes ont été prévues : la première consiste en la réalisation des bandes de préimprégnés de manière automatique. La deuxième étape est la conception du composite par dépose automatique sur un moule des bandes de renforts préirradiés à laquelle succède une étape finale d’irradiation pour obtenir le composite requis. / This manuscript brings together research in the development of a light-curing thermoplastic resin for a composite application. This work was performed under the COMPOFAST project launched by Arkema at the end of 2012. This project, along with the ADEME, aims at the development of a new generation of thermoplastic composites with high production rates for designing automobile parts. The advantages of these materials, and therefore of the project, is making vehicles lighter by reducing the mass of the parts used and the recyclability of the selected matrices. Through this project, several techniques were considered. As part of this thesis, it's the QCM method for Quick Composite Molding, which has been studied within the LPIM. The use of light to ensure the polymerization of the matrix makes this method innovative. This step called photopolymerization is known to be one of the fastest ways to form a solid resin from a liquid formulation. The method also relies on the automated removal prepreg bands on an open mold in order to increase the rate of production of composite parts. Technically, two stages were planned: the first involves the automatically construction of prepreg tapes. The second step is the design of the composite by automatically depositing prepregs on the mold which is followed by a final step of irradiation to give the desired photocomposite. Photocomposites PMMA Poly(méthacrylate de méthyle) Thermoplastiques Photopolymerisation Polymères Photo composite Poly(methyl methacrylate) Thermoplastics Photopolymerization Polymers 668.423
112	Films polymères minces à base de méthacrylate de glycidyle pour l'élaboration d'interfaces immunoréceptrices : étude par résonance de plasmon de surface Diop, Dior 17 December 2010 (has links) (PDF) Dans ce travail, nous avons cherché à mettre en évidence l'influence de la méthode de préparation de films minces de polymère pour la biofonctionnalisation de surfaces planes. Dans un premier temps, un polymère réactif, le poly(méthacrylate de glycidyle) p(GMA) a été choisi et sa capacité de fixation vis-à-vis d'une biomolécule modèle l'albumine de sérum bovin a été étudiée. Deux stratégies principales de préparation du film polymère ont été utilisées : la technique du grafting onto et celle du grafting from avec deux voies de synthèse : la polymérisation radicalaire classique (PRC) avec l'amorceur en solution et la polymérisation initiée à partir de la surface avec un amorceur photochimique. Il a été montré que la méthode du " grafting from " permettait l'obtention de films d'épaisseur plus élevées que la technique du " grafting onto " avec une meilleure capacité de fixation de biomolécules de BSA. Ces films de p(GMA) se sont révélés relativement hydrophobes, ce qui nous incités à analyser l'influence de la balance hydrophobe/hydrophile des interfaces sur leurs propriétés, dans un second temps. Par la préparation de films copolymères poly(GMA-co-acrylamide) et poly(GMA-co-méthacrylate de glycérol) et la modification des films de poly(GMA) par de l'éthanolamine, l'influence de l'hydrophilie du film sur la capacité de fixation en molécules de BSA et l'activité de reconnaissance moléculaire de celles-ci ont été évaluées. Il a été démontré que par un choix judicieux de la méthode d'hydrophilisation du film polymère, il est possible de réduire considérablement l'adsorption non-spécifique de biomolécules d'où l'obtention de films polymères bioinertes. De plus, les résultats préliminaires ont montré qu'il est possible d'améliorer sensiblement la capacité de reconnaissance moléculaire entre la BSA et son anticorps l'anti-BSA [CHIM] Chemical Sciences [SPI] Engineering Sciences Film mince de polymère Bio-fonctionnalisation de surface Methacrylate de glycidyle (GMA) Balance hydrophobe/hydrophile
113	Stimuli-responsive Novel Amphiphilic Polymers for Chemical and Biomedical Applications Tam, K. C., Ravi, P., Dai, S., Tan, C. H. 01 1900 (has links) Amphiphilic polymers are a class of polymers that self-assemble into different types of microstructure, depending on the solvent environment and external stimuli. Self assembly structures can exist in many different forms, such as spherical micelles, rod-like micelles, bi-layers, vesicles, bi-continuous structure etc. Most biological systems are basically comprised of many of these organised structures arranged in an intelligent manner, which impart functions and life to the system. We have adopted the atom transfer radical polymerization (ATRP) technique to synthesize various types of block copolymer systems that self-assemble into different microstructure when subject to an external stimuli, such as pH or temperature. The systems that we have studied are: (1) pH responsive fullerene (C60) containing poly(methacrylic acid) (PMAA-b-C60); (2) pH and temperature responsive fullerene containing poly[2-(dimethylamino)ethyl methacrylate] (C₆₀-b-PDMAEMA); (3) other responsive water-soluble fullerene systems. By varying temperature, pH and salt concentration, different types microstructure can be produced. In the presence of inorganic salts, fractal patterns at nano- to microscopic dimension were observed for negatively charged PMAA-b-C60, while such structure was not observed for positively charged PDMAEMA-b-C60. We demonstrated that negatively charged fullerene containing polymeric systems can serve as excellent nano-templates for the controlled growth of inorganic crystals at the nano- to micrometer length scale and the possible mechanism was proposed. The physical properties and the characteristics of their self-assembly properties will be discussed, and their implications to chemical and biomedical applications will be highlighted. / Singapore-MIT Alliance (SMA) Amphiphilic polymers self-assembly microstructures atom transfer radical polymerization ATRP fullerene poly(methacrilic acid)
114	Experimental and Modelling Investigation of a Novel Tetrafunctional Initiator in Free Radical Polymerization Scorah, Matthew January 2005 (has links) An experimental and modelling investigation of a tetrafunctional initiator designed for free radical polymerizations is presented. Multifunctional initiators are believed to provide two advantages over traditional monofunctional initiators. With a higher number of functional sites per molecule, they are able to increase polymer production while simultaneously maintaining or increasing polymer molecular weight. Examination of the literature indicates the majority of academic and industrial published studies have investigated difunctional initiators with most focusing on styrene. In this thesis, a tetrafunctional initiator, JWEB50, was systematically investigated for a variety of monomer systems in order to develop a better understanding of the behaviour of multifunctional initiators in free radical polymerizations. <br /><br /> A kinetic study comparing the tetrafunctional initiator to a monofunctional counterpart, TBEC, demonstrated that the impact of a multifunctional initiator is dependent upon monomer type. Regardless of the homo- or copolymer system examined, it was observed that the tetrafunctional initiator could produce higher rates of polymerization due to the greater number of labile groups per initiator molecule. However, the influence of the tetrafunctional initiator on the polymer molecular weight was dictated by the polymerization characteristics of the system in question. In the case of styrene, the tetrafunctional initiator maintained similar molecular weights compared to the monofunctional initiator while for methyl methacrylate (MMA), switching from a mono- to a tetrafunctional initiator actually decreased the polymer molecular weight. Other monomers such as butyl acrylate and vinyl acetate and copolymers of MMA and styrene or alpha-methyl styrene were examined to study the effect of initiator functionality in free radical polymerizations. <br /><br /> Subsequent to the kinetic investigation, polystyrene and poly(methyl methacrylate) samples produced with the tetrafunctional initiator were characterized in detail in order to examine the effects of initiator functionality on polymer properties. Samples generated with the monofunctional initiator were used for comparison purposes. Chromatographic and dilute solution methods were able to detect significant levels of branching in the polystyrene sample produced with JWEB50, while poly(methyl methacrylate) samples showed no evidence of branching. Rheological tests involving a combination of oscillatory and creep shear measurements were completed in order to detect differences between samples. The presence of branching using rheological techniques was clearly observed for both polystyrene and poly(methyl methacrylate) samples produced with the tetrafunctional initiator. <br /><br /> In order to explain the experimental results observed in the kinetic and polymer properties studies, a reaction mechanism for polymerizations initiated with a tetrafunctional initiator was proposed and used in the development of a mathematical model. Reactions involving the fate/efficiency of functional groups are properly accounted for, while in the past this had been ignored by modelling work in the literature. Based on model predictions, di-radical concentrations were estimated to be several orders of magnitude smaller than mono-radical concentrations and their contribution in the reaction mechanism was found to be negligible. Modelling results also demonstrated that the concentration and chain length of various polymer structures (i. e. , linear, star or coupled stars) depend upon monomer type and reaction conditions. Chemical Engineering free radical polymerization tetrafunctional initiator mathematical modelling polystyrene poly(methyl methacrylate) kinetic investigation polymer characterization
115	Experimental and Modelling Investigation of a Novel Tetrafunctional Initiator in Free Radical Polymerization Scorah, Matthew January 2005 (has links) An experimental and modelling investigation of a tetrafunctional initiator designed for free radical polymerizations is presented. Multifunctional initiators are believed to provide two advantages over traditional monofunctional initiators. With a higher number of functional sites per molecule, they are able to increase polymer production while simultaneously maintaining or increasing polymer molecular weight. Examination of the literature indicates the majority of academic and industrial published studies have investigated difunctional initiators with most focusing on styrene. In this thesis, a tetrafunctional initiator, JWEB50, was systematically investigated for a variety of monomer systems in order to develop a better understanding of the behaviour of multifunctional initiators in free radical polymerizations. <br /><br /> A kinetic study comparing the tetrafunctional initiator to a monofunctional counterpart, TBEC, demonstrated that the impact of a multifunctional initiator is dependent upon monomer type. Regardless of the homo- or copolymer system examined, it was observed that the tetrafunctional initiator could produce higher rates of polymerization due to the greater number of labile groups per initiator molecule. However, the influence of the tetrafunctional initiator on the polymer molecular weight was dictated by the polymerization characteristics of the system in question. In the case of styrene, the tetrafunctional initiator maintained similar molecular weights compared to the monofunctional initiator while for methyl methacrylate (MMA), switching from a mono- to a tetrafunctional initiator actually decreased the polymer molecular weight. Other monomers such as butyl acrylate and vinyl acetate and copolymers of MMA and styrene or alpha-methyl styrene were examined to study the effect of initiator functionality in free radical polymerizations. <br /><br /> Subsequent to the kinetic investigation, polystyrene and poly(methyl methacrylate) samples produced with the tetrafunctional initiator were characterized in detail in order to examine the effects of initiator functionality on polymer properties. Samples generated with the monofunctional initiator were used for comparison purposes. Chromatographic and dilute solution methods were able to detect significant levels of branching in the polystyrene sample produced with JWEB50, while poly(methyl methacrylate) samples showed no evidence of branching. Rheological tests involving a combination of oscillatory and creep shear measurements were completed in order to detect differences between samples. The presence of branching using rheological techniques was clearly observed for both polystyrene and poly(methyl methacrylate) samples produced with the tetrafunctional initiator. <br /><br /> In order to explain the experimental results observed in the kinetic and polymer properties studies, a reaction mechanism for polymerizations initiated with a tetrafunctional initiator was proposed and used in the development of a mathematical model. Reactions involving the fate/efficiency of functional groups are properly accounted for, while in the past this had been ignored by modelling work in the literature. Based on model predictions, di-radical concentrations were estimated to be several orders of magnitude smaller than mono-radical concentrations and their contribution in the reaction mechanism was found to be negligible. Modelling results also demonstrated that the concentration and chain length of various polymer structures (i. e. , linear, star or coupled stars) depend upon monomer type and reaction conditions. Chemical Engineering free radical polymerization tetrafunctional initiator mathematical modelling polystyrene poly(methyl methacrylate) kinetic investigation polymer characterization
116	Investigation of Structural Behaviors of Methyl Methacrylate Oligomers within Confinement Space by Coarse-grained Configurational-bias Monte Carlo Simulation Chang, Chun-Yi 16 August 2010 (has links) The coarse-grained configurational-bias Monte Carlo (CG-CBMC) simulation was employed to study the structural behaviors of methyl methacrylate (MMA) oligomers adsorbed on grooved substrate due to molecular dynamics (MD) simulation is probably trapped at some local energy minima and difficult to carry out over a long enough time to allow relaxation of chain motion for an enormous polymeric system. Therefore, the CG-CBMC simulation was adopted in the present study. In this study, three types of chains are classified according to their positions relative to the groove. Type 1, Type 2, and Type 3 represent the entire MMA-oligomer within the groove, the MMA-oligomer partially within the groove, and the oligomer outside the groove, respectively. The orientational order parameters of Type 1 and Type 2 oligomers decrease with the increase of groove width, but the orientational order parameter of Type 3 oligomers is approximately equal to 0.1. In addition, observation of the orientational order parameters of Type 1 oligomers interacting with the grooved substrate at different interaction strengths decrease with increasing the groove width. Furthermore, the orientational order parameters of Type 1 oligomers within the narrowest (20 Å) and the widest (35 Å) groove with different depths were determined. For the narrowest groove, the arrangement of Type 1 oligomers will be influenced by the groove width. However, in the case of the widest groove, the orientational order parameter of Type 1 oligomers is approximately equal to 0.2. This study can help engineers clarify the characteristics and phenomena of physical adsorption of the molecules, as well as contributing to the application of recent technology. Molecular dynamics simulation Monte Carlo simulation Coarse-grained simulation Grooved Methyl Methacrylate
117	Polymerization And Characterization Of Allyl Methacrylate Vardareli, Tugba 01 September 2006 (has links) (PDF) Allyl methacrylate, AMA was polymerized by chemical initiator and by &amp / #947 / -radiation under different conditions. The polymer obtained is mostly gel type with some soluble fractions at lower conversions. Arrhenius activation energy is 82.3 kJ/mol for chemical initiated polymerization. The polymer was characterized by FT-IR, NMR, DSC, TGA, XPS, XRD, DLS, and MS methods. It was found that about 98-99% of allyl side groups retained as pendant even after completion of the polymerization, while 1-2% may give crosslinking and/or cyclization that yields lactones and anhydrides. The spectroscopic and thermal results of the work showed that the reaction is not cyclopolymerization, but may have end group cyclization. Molecular weight of 1.1x106 was measured by DLS. Therefore, insolubility is due to the high molecular weight of polymer, even in the early stage of polymerization rather than crosslinking. The Tg of PAMA was observed as 94&ordm / C before curing, upon curing at 150-200&ordm / C, Tg increased to 211&ordm / C as measured by DSC. The thermal treatment of polymer at about 350&ordm / C gave anhydride by linkage type degradation, following side group cyclization. The XPS analysis showed the presence of radical fragments of AIBN and CCl4 associated with oligomers. The MS and TGA thermograms showed two or three stage degradations depending on solubility. The first stage was mostly linkage type degradation for the fragmentation of pendant allyl groups at 225-350&ordm / C. In the second stage, at 395-515&ordm / C, the degradation is random scission and depolymerization. QD Polymers, Macromolecules 380-388
118	Ternary Nanocomposites Of High Density, Linear Low Density And Low Density Polyethylenes Ucar, Egemen 01 June 2007 (has links) (PDF) In this study, the effects of organoclay loading, compatibilizer loading and polyethylene type on the morphology, rheology, thermal properties and mechanical properties of polyethylene/compatibilizer/organoclay nanocomposites were investigated. As compatibilizer, terpolymer of ethylene-methacrylate-glycidyl methacrylate (Lotader&reg / AX8900), as organoclay Cloisite&reg / 15A were used. All samples were prepared by a co-rotating twin screw extruder, followed by injection molding. Considering ternary nanocomposites, highest impact strength results were obtained with 10% compatibilizer plus 2% organoclay / highest yield stress, elastic modulus, flexural strength, flexural modulus were obtained with 5% compatibilizer plus 4-6% organoclay. DSC data indicated that addition of organoclay and compatibilizer did not change the melting point remarkably / on the other hand it affected the crystallinity. The organoclay used had no nucleation effect on polyethylene, and the compatibilizer decreased the crystallinity of the matrix. X-ray diffraction showed that in all ternary nanocomposites and in binary nanocomposite of high density polyethylene with organoclay, layer separation associated with intercalation of the clay structure occurred,. The highest increase of interlayer gallery spacing was obtained with 10% compatibilizer plus 2% organoclay, which were 25%, 28% and 27% for HDPE, LLDPE and LDPE matrices respectively. TP Polymers, Plastics 1080-1185
119	Photocatalytic Activity Of Apatite-deposited Titanium Dioxide Powder Soysal, Kaan 01 May 2010 (has links) (PDF) Apatite was formed on the surface of titanium dioxide (TiO2) powders by a biomimetic process. The deposition was accomplished by immersing TiO2 powders in simulated body fluid (SBF) for 1, 3, 6, 12, and 24 h. SBF used throughout this study had calcium and phosphate ion concentrations 10 times greater than those of human blood plasma. Photocatalytic activity of the apatite-deposited TiO2 powders was investigated in terms of the decomposition of methylene blue solution under ultraviolet (UV) irradiation. It has been shown that apatite deposition enhanced the photocatalytic activity of TiO2. The best photocatalytic performance was acquired on the powders that are immersed in SBF for 3 h. The time required for the complete degradation of methylene blue decreased from 3.5 h to 2 h upon immersion of powders in SBF for 3 h. Photochemical durability of poly(methyl methacrylate) increased when it was mixed with apatite-deposited TiO2 powders. TP Chemical Technology. 1-1185 photocatalysis titanium dioxide hydroxyapatite simulated body fluid methylene blue solution poly(methyl methacrylate)
120	Polymerpartikel für biomedizinische Anwendungen / Polymeric particles for biomedical applications Häntzschel, Nadine 23 April 2008 (has links) (PDF) Gegenstand dieser Arbeit ist die Herstellung funktioneller Polymerpartikel und deren Nutzung für biomedizinische Applikationen. Die Anwendungsgebiete der resultierenden Hybridmaterialien reichen vom Einsatz als Kontrastmittel in bildgebenden Verfahren der medizinischen Diagnostik über die Verwendung als Antimikrobium bis hin zum Einsatz als „Werkzeug“ zur Zellisolierung und aktivierung. Dazu wurden kompakte Latexpartikel und sensitive, poröse Mikrogelpartikel mittels emulgatorfreier Heterophasenpolymerisation synthetisiert. Als funktionelles Monomer wurde Glycidylmethacrylat verwendet, über dessen reaktive Epoxygruppen anschließend weitere Moleküle angebunden werden können. Die Funktionalisierung der Polymerpartikel erfolgte einerseits mit anorganischen Nanopartikeln (dotierte Lanthanfluorid-Nanopartikel, Gold- und Silbernanopartikel) und andererseits mit Biomolekülen wie Nukleotiden und Antikörpern. Einige Verwendungsgebiete, wie die Stimulierung von Memory-T-Zellen mit Antikörper-Polymer-Konjugaten oder der Einsatz der Silberkomposite aufgrund ihrer antimikrobiellen Wirkung, wurden näher untersucht. / The aim of this work was the synthesis of functional polymeric particles and their use for biomedical purposes. The application areas of the resulting hybrid materials range from contrast agents in medical diagnostics and usage due to antimicrobial properties to “tools” for cell isolation and activation. Compact core-shell particles and porous microgel particles were prepared by surfactant-free heterophase polymerization in water. All particles contain glycidyl methacrylate whose epoxy groups are capable to bind other molecules covalently. On the one hand, polymeric particles were functionalized with inorganic nanoparticles (doped lanthanum fluoride nanoparticles, gold and silver nanopariticles) and on the other hand with biomolecules such as nucleotides and antibodies. Selected application fields like the stimulation of memory T-cells with polymer-antibody-conjugates or the use of the silver composites due to their antimicrobial activity were investigated in detail. Polymerpartikel; Mikrogel Glycidylmethacrylat T-Zellen Aptamer polymeric particles microgel glycidyl methacrylate T-cells aptamer ddc:540 rvk:VK 8007

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