Global ETD Search

41	Rotational Molding of Acrylonitrile-Butadiene-Styrene Polymers and Blends Spencer, Mark Grant 09 December 2003 (has links) (PDF) The development of acrylonitrile-butadiene-styrene (ABS) resins for use in rotational molding would provide a medium performance material, thus opening doors to new markets for the rotational molding industry. Unfortunately, ABS resins have shown serious problems during the rotational molding process, namely discoloration, bridging, and poor impact strength. It is believed that these effects are due to degradation of the carbon-carbon double bond in the butadiene, through attack by either oxygen or heat. Previous efforts have shown some success in addressing these issues. However, additional improvements are necessary to make ABS resins commercially viable to rotational molders. This study, fourth in a series of similar projects conducted though Brigham Young University, was focused on remediation of the ABS difficulties via two different approaches. First, a survey of several additives was performed with the intent of investigating four different strategies: increased protection from oxygen, decreased butadiene concentration, increased butadiene concentration, and promotion of flow. The best formulation was achieved when 15 wt % of a benzoate ester (XP-2280 available though ChemPoint) was blended into MAGNUM 342 EZ, an ABS resin (The Dow Chemical Company). This formulation showed the best balance between increased impact strength and improvement of cosmetic properties. Second, optimization of several rotational molding processing parameters was executed. These included particle size distribution of the resin, drying of the resin, internal mold atmosphere, and oven temperature. It was found that using coarse particle sizes (ground at 20-mesh rather than the industry standard of 35-mesh) increased the impact strength by about 19%. None of the other parameters proved to have a significant effect upon the system, except for the use of a nitrogen atmosphere, which lowered the impact strength. Final properties testing of this best formulation at the optimal processing conditions showed increased impact strength from 2 ft-lbs (the previous best value) to 8 ft-lbs. There was also a marginal decrease in surface hardness (95 to 78 on the Rockwell R scale) and yield tensile strength (3,900 psi to 3,300 psi). Larger differences were observed in flexural modulus (200,000 psi to 110,000 psi) and heat distortion temperature (95°C to 61°C). Therefore, these formulation and processing changes show a trade-off where stiffness and thermal stability (i.e. flexural modulus and heat distortion temperature) can be sacrificed for an increase in toughness and aesthetics, made manifest by increased impact strength, elimination of bridging, and eradication of discoloration. ABS ABS resins acrylonitrile butadiene styrene rotational molding rotomolding plasticizer impact strength bridging Chemical Engineering
42	Mesoporous catalysts for ammoxidation of acrolein to acrylonitrile Nguyen, Thanh-Binh 23 May 2018 (has links) L’acrylonitrile est une matière première importaite de l’industrie des polymères, produite à grande échelle à partir de matériaux d’origine fossile. Les tendances de recherche actuelles pour une industrie chimique plus écologique favorisent l’utilisation de molécules plateformes d’origine biologique telles que le glycérol. De plus, la conception de catalyseurs est un élément essentiel pour développer ces produits. Les catalyseurs hétérogènes, en particulier les catalyseurs à base d’oxydes métalliques mésoporeux jouent un rôle majeur dans l’industrie pétrochimique. Par conséquent, l’objectif de cette thèse est de développer des catalyseurs nouveaux, efficaces et utiles, à base d’oxydes métalliques mixtes pour l’ammoxydation de l’acroléine ex-glycérol en acrylonitrile. Sur la base des catalyseurs traditionnels pour l’ammoxydation du propène/propane en acrylonitrile, une série de catalyseurs à base de molybdates et d’antimonates supportés sur une silice mésoporeuse a été développée. Tout d’abord, les molybdates de bismuth ont été supportés sur la silice mésoporeuse KIT-6 en utilisant une méthode de gabarit solide (hard template). Différentes phases de molybdates de bismuth ont été synthétisées, caractérisées et testées pour l’ammoxydation de l’acroléine en acrylonitrile. Les conditions réactionnelles ont été soigneusement optimisées à différentes températures, débits et rapports molaires de réactifs. Les catalyseurs obtenus ont montré une bonne activité catalytique, une sélectivité et une stabilité, en particulier les échantillons contenant des phases mixtes de molybdates de bismuth. Deuxièmement, une série de mélanges de molybdates et d’antimonates supportés sur une silice mésoporeuse à l’aide d’une méthode de gabarit flexible (soft-template) a également été étudiée. Cette nouvelle méthode de soft template a été développée en utilisant la technique d’auto-assemblage induite par évaporation (EISA) et de tensioactifs comme agents structurants. Les catalyseurs obtenus présentaient une surface spécifique élevée et un grand volume de pores. De plus, les résultats catalytiques indiquent que les molybdates mixtes jouent un rôle majeur dans l’ammoxydation de l’acroléine. Certains des catalyseurs ont été choisis pour étudier le mécanisme de réaction de l’ammoxydation de l’acroléine en acrylonitrile. Parce que l’oxygène (l’air) et l’ammoniac sont des réactifs dans ce procédé, les effets des lacunes d’oxygène et de la réduction par l’ammoniac sur l’activité catalytique ont ensuite été étudiés. Les résultats obtenus ont démontré que les catalyseurs ayant plus de lacunes d’oxygène et qui étaient facilement réduits par l’ammoniac présentaient une activité catalytique plus élevée. Tous les catalyseurs contenant des molybdates ont montré une bonne activité catalytique et une bonne sélectivité pour l’ammoxydation de l’acroléine. Ainsi, un nouveau mécanisme de réaction a été proposé pour l’ammoxydation de l’acroléine sur les catalyseurs à base de molybdates. / Acrylonitrile is a raw material in polymer industry with a large scale demand and it has been produced from fossil origin. Current research trends for a greener chemical industry are promoted by using platform molecules of biological origin such as glycerol. Designing catalysts becomes an essential part to develop these products. Heterogeneous catalysts, especially mesoporous metal oxide catalysts, play a major role in petrochemical industry. Therefore, the scope of this thesis is to develop new, effective and useful mesoporous catalysts for ammoxidation of ex-glycerol acrolein to acrylonitrile. Based on the traditional catalysts for propene/propane ammoxidation to acrylonitrile, a series of molybdates and antimonates based catalysts supported in mesoporous silica was developed. First, bismuth molybdate oxides were supported in mesoporous silica KIT-6 using the hard-templating method. Different phases of bismuth molybdates were synthesized, characterized and tested for ammoxidation of acrolein to acrylonitrile. The reaction conditions were carefully optimized at different temperatures, flow rates and reactant ratios. The obtained catalysts showed good catalytic activity, selectivity and stability, especially, the samples containing mixed phases of bismuth molybdates. Second, a series of molybdate and antimonate mixtures supported on mesoporous silica using a soft-templating method was also studied. This new soft-templating method was developed based on the evaporation induced self-assembly (EISA) technique and dual surfactants as structure directing agents. The obtained catalysts exhibited high specific surface area and large pore volume. In addition, the catalytic results indicated that molybdates in mixture state play a major role in acrolein ammoxidation. Some of the above catalysts were chosen to study the reaction mechanism of acrolein ammoxidation to acrylonitrile. Because oxygen (air) and ammonia are reactants in this process, the effects of oxygen vacancies and ammonia reduction on catalytic activity were then investigated. The obtained results demonstrated that the catalysts having more oxygen vacancies and being readily reduced by ammonia showed higher catalytic activity. All catalysts containing molybdates showed good catalytic activity and selectivity for acrolein ammoxidation. Thus, a new reaction mechanism was proposed over molybdates oxides as catalysts. TP 7.5 UL 2018 Matériaux mésoporeux Acroléine Acrylonitrile
43	Synthesis, Characterization, Processing and Physical Behavior of Melt-Processible Acrylonitrile Co- and Terpolymers for Carbon Fibers: Effect of Synthetic Variables on Copolymer Synthesis Johnson, Harry Dale 26 May 2006 (has links) A novel photocrosslinkable and melt processible terpolymer precursor for carbon fibers has been successfully synthesized and characterized. The terpolymer was synthesized by an efficient emulsion polymerization route and has a typical composition of acrylonitrile/ methyl acrylate/acryloyl benzophenone in the molar ratio of 85/14/1. This thesis describes a systematic variation of the polymerization variables in the emulsion polymerization which may further enhance the system. In particular, the effects of chain transfer agent, initiator, and surfactant concentration on the polymer properties were studied. / Master of Science carbon fiber precursor acrylic fiber melt processible acryloyl benzophenone Acrylonitrile methyl acrylate synthetic variables
44	Complexes pinceurs de cobalt et de nickel : synthèse, caratérisation, réactivité Lefèvre, Xavier 08 1900 (has links) Plusieurs nouveaux complexes pinceurs de cobalt et de nickel ont été préparés avec le ligand pinceur de type POCOP : 2,6-(i-Pr2PO)2C6H4. Dans le cas du cobalt, une nouvelle voie de synthèse a été développée. Contrairement au cas du nickel, il s’agit ici de cobalt au degré d’oxydation +III. Les composés obtenus sont paramagnétiques. En outre, le dérivé bromé est instable à la lumière et se décompose en perdant un brome pour former le complexe pinceur de Co(II). La réactivité de ces complexes a été étudiée. Pour ce qui est du nickel, la catalyse de l’hydroamination a été élargie aux dérivés de l’acrylonitrile et aux amines aromatiques. En outre, la réaction d’hydroaryloxylation a été étudiée dans les mêmes conditions. Enfin, avec le 4-cyanostyrène et le cinnamonitrile, la formation d’amidines a été observée. Un complexe pinceur portant cette amidine a été isolé. Enfin, le cation réagit avec des anions fortement coordonnants tels le cyanure ou l’isocyanate. En outre, l’anion triflate peut être déplacé par l’eau, l’acrylonitrile et ses dérivés. Enfin, une réactivité particulière a été observée avec la morpholine, l’acétone et un mélange 1:1 aniline/triéthylamine. / A large variety of new POCOP pincer type complexes of cobalt and nickel have been prepared. All those complexes are based on the following POCOP pincer type ligand: 2,6-(i-Pr2PO)2C6H4 In the case of cobalt, a new synthetic pathway has been developped. Unlike nickel, complexes containing cobalt in the +III oxidation state are obtained, the mechanism of their formation remains unknown. These complexes are paramagnetic. The dibromo derivative is light-sensitive, decomposing by losing a bromine to form the Co(II) pincer complex. The reactivity of those complexes has been studied. Concerning nickel, the catalyzed hydroamination has been extended to the derivates of acrylonitrile, crotonitrile and methacrylonitrile and to aromatic amines. Moreover, hydroaryloxylation reaction has been studied under the same conditions. Finally, amidines formation was obtained with 4-cyanostyrene and with cinnamonitrile. A pincer complex bearing this amidine moiety has been isolated. The cationic complex reacts with strong coordinating anions like cyanide and isocyanate. Moreover, the triflate anion is displaced by water, acrylonitrile and acrylonitrile derivates. Finally, a particular reactivity has been observed with morpholine, acetone and a 1:1 mixture of aniline and triethylamine. Complexes pinceurs Pincer complexes Cobalt Cobalt Nickel Nickel Catalyse Catalysis Coordination Coordination Hydroamination Hydroamination Hydroalcoxylation Hydroalkoxylation Amidine Amidine Acrylonitrile Acrylonitrile Diffraction de rayons X X-ray diffraction RMN NMR GC-MS GC-MS
45	Complexes pinceurs de cobalt et de nickel : synthèse, caratérisation, réactivité Lefèvre, Xavier 08 1900 (has links) Plusieurs nouveaux complexes pinceurs de cobalt et de nickel ont été préparés avec le ligand pinceur de type POCOP : 2,6-(i-Pr2PO)2C6H4. Dans le cas du cobalt, une nouvelle voie de synthèse a été développée. Contrairement au cas du nickel, il s’agit ici de cobalt au degré d’oxydation +III. Les composés obtenus sont paramagnétiques. En outre, le dérivé bromé est instable à la lumière et se décompose en perdant un brome pour former le complexe pinceur de Co(II). La réactivité de ces complexes a été étudiée. Pour ce qui est du nickel, la catalyse de l’hydroamination a été élargie aux dérivés de l’acrylonitrile et aux amines aromatiques. En outre, la réaction d’hydroaryloxylation a été étudiée dans les mêmes conditions. Enfin, avec le 4-cyanostyrène et le cinnamonitrile, la formation d’amidines a été observée. Un complexe pinceur portant cette amidine a été isolé. Enfin, le cation réagit avec des anions fortement coordonnants tels le cyanure ou l’isocyanate. En outre, l’anion triflate peut être déplacé par l’eau, l’acrylonitrile et ses dérivés. Enfin, une réactivité particulière a été observée avec la morpholine, l’acétone et un mélange 1:1 aniline/triéthylamine. / A large variety of new POCOP pincer type complexes of cobalt and nickel have been prepared. All those complexes are based on the following POCOP pincer type ligand: 2,6-(i-Pr2PO)2C6H4 In the case of cobalt, a new synthetic pathway has been developped. Unlike nickel, complexes containing cobalt in the +III oxidation state are obtained, the mechanism of their formation remains unknown. These complexes are paramagnetic. The dibromo derivative is light-sensitive, decomposing by losing a bromine to form the Co(II) pincer complex. The reactivity of those complexes has been studied. Concerning nickel, the catalyzed hydroamination has been extended to the derivates of acrylonitrile, crotonitrile and methacrylonitrile and to aromatic amines. Moreover, hydroaryloxylation reaction has been studied under the same conditions. Finally, amidines formation was obtained with 4-cyanostyrene and with cinnamonitrile. A pincer complex bearing this amidine moiety has been isolated. The cationic complex reacts with strong coordinating anions like cyanide and isocyanate. Moreover, the triflate anion is displaced by water, acrylonitrile and acrylonitrile derivates. Finally, a particular reactivity has been observed with morpholine, acetone and a 1:1 mixture of aniline and triethylamine. Complexes pinceurs Pincer complexes Cobalt Cobalt Nickel Nickel Catalyse Catalysis Coordination Coordination Hydroamination Hydroamination Hydroalcoxylation Hydroalkoxylation Amidine Amidine Acrylonitrile Acrylonitrile Diffraction de rayons X X-ray diffraction RMN NMR GC-MS GC-MS
46	Blendas de SAN/NBR: influência do teor de acrilonitrila da borracha nitrílica nas propriedades físico-química e mecânicas Leitzke, Tatiana da Cunha Gomes 27 February 2003 (has links) Made available in DSpace on 2016-12-08T17:19:35Z (GMT). No. of bitstreams: 1 Tatiana da Cunha Gomes Leitzke.pdf: 2438825 bytes, checksum: 8c0dbce0f01fadf8eb99d5b68ba3e534 (MD5) Previous issue date: 2003-02-27 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Aiming the development of polymer materials with high toughness, poly(butadiene-coacrylonitrile) rubbers (NBRs), with acrylonitrile (AN) contents varying from 32,9 to 45,7%, were added to poly(styrene-co-acrylonitrile) (SAN) by casting, mini-extrusion and monoscrew extrusion followed by injection molding. Addition of NBR resulted in significant improvements in the impact strength and the elongation at break, that were strongly influenced by the blend composition, the AN contents and the NBR melt viscosities, but the tensile strength is slightly decreased. The best impact strength results (157,1 ± 3.7 J/m) were obtained with a 70/30 (w/w) SAN/NBR blend using NBR with 33,1% of AN and 51 ML 1+4 (100°C), being ca. 700% higher than the values for pure SAN (22,4 ± 1.1 J/m). Differential scanning calorimetry (DSC) measurements indicated a partial miscibility between the copolymers, showing a shifting of the SAN glass transition temperature from 108,1 to 101,7oC for the 70/30 blend with NBR containing 45,7% of AN. This is in agreement with infrared spectroscopy (FTIR) analysis that displayed a significant shift of the dienic band from 967 cm-1 to ca. 1060 cm-1 for all 70/30 blends, suggesting segmental interactions between NBR and SAN. Scanning electron micrographs (SEM) from fracture surfaces revealed homogeneously dispersed spherical elastomeric domains, and the appearance of yielding and/or crazing processes for all blends. The size of NBR domains decreased as the AN content increased, while the number of NBR domains decreased as the melt viscosity increased. From these results it can be concluded that SAN thoughening by the addition of NBR is directly related to the AN content and the melt viscosity of the elastomer, depending on the morphology of the dispersed rubber phase. Higher NBR domain sizes cause better impact strengths, as large rubber particles are more effective in initiating crazing processes. / Com o objetivo de desenvolver materiais poliméricos com elevada tenacidade, borrachas de poli(butadieno-co-acrilonitrila) (NBR), com teores de acrilonitrila variando de 32,9 a 45,7%, foram incorporadas ao poli(estireno-co-acrilonitrila) (SAN), por evaporação desolventes, mini-extrusão e extrusão seguida de injeção. A adição do NBR resultou em um aumento significativo na resistência ao impacto e na deformação na ruptura, que foram fortemente influenciadas pela composição da blenda, pelo teor de acrilonitrila e pela viscosidade dos NBRs, porém, houve a diminuição da resistência à tração. O melhor resultado de resistência ao impacto (157,1 ± 3.7 J/m) foi obtido para a blenda 70/30 (m/m) utilizando NBR com 33,1% de acrilonitrila e 51 ML 1+4 (100°C), um valor cerca de 700% maior que o verificado para o SAN puro (22,4 ± 1.1 J/m). A técnica de calorimetria diferencial de varredura (DSC) indicou uma miscibilidade parcial entre os copolímeros, mostrando o deslocamento da temperatura de transição vítrea do SAN de 108,1 a 101,7ºC para a blenda 70/30 utilizando o NBR com 45,7% de acrilonitrila. Este resultado concorda com a análise de espectroscopia de infravermelho (FTIR), que mostrou um deslocamento significativo da banda da parte butadiênica de 967 cm-1 para 1060 cm-1, para todas as blendas 70/30, sugerindo assim interações segmentais entre o NBR e SAN. A análise da superfície de fratura por microscopia eletrônica de varredura (MEV), revelou homogeneidade dos domínios elastoméricos dispersos na matriz, bem como o aparecimento de microtrincas e/ou deformação plástica para todas as blendas. O tamanho dos domínios de NBR diminui com o aumento do teor de acrilonitrila presente no NBR, enquanto a quantidade de domínios diminui com o aumento da viscosidade. A partir destes resultados conclui-se que a tenacificação do SAN com a adição de NBR está diretamente relacionada com o teor de acrilonitrila e viscosidade do elastômero e depende da morfologia da fase elastomérica dispersa na matriz. Os domínios maiores de NBR proporcionaram melhor resistência ao impacto, sendo que partículas de borracha maioresfavorecem o aparecimento de microtrincas. Blendas Copolímero de Estireno-acrilonitrila Copolímero de Butadieno-acrilonitrila Miscibilidade Tenacificação Polímeros Calorimetria Físico-química Blends poly(styrene co-acrylonitrile) poly(butadiene-co-acrylonitrile) miscibilility toughning Polymers Calorimetry Physical chemistry
47	Electrically conductive melt-processed blends of polymeric conductive additives with styrenic thermoplastics Ng, Yean Thye January 2012 (has links) The growing demand in portable and compact consumer devices and appliances has resulted in the need for the miniaturisation of electronic components. These miniaturised electronic components are sensitive and susceptible to damage by voltages as low as 20V. Electrically conductive styrenic thermoplastics are widely used in electronic packaging applications to protect these sensitive electronic components against electro-static discharge (ESD) during manufacturing, assembly, storage and shipping. Such ESD applications often require the optimal volume resistance range of ≥ 1.0x105 to < 1.0x108 Ω. The best known method to render styrenic thermoplastics conductive is by the incorporation of conductive fillers, such as carbon black but the main limitation is the difficulty in controlling the conductivity level due to the steep percolation curve. Thus the aim of this research is to develop electrically conductive styrenic thermoplastics by blending several styrenic resins with polymeric conductive additives to achieve optimal volume resistance range for ESD applications with the ease in controlling the conductivity level.
48	Sustainable Innovation in Forklift Design : Exploring the Mechanical Properties and Design Implications of Recycled Plastic Wallén Hansen, Maja, Jonsson, Albert January 2024 (has links) This master’s thesis was conducted at Linköping University in collaboration with ToyotaMaterial Handling in Mjölby to explore potential applications of recycled plastic in forklifttrucks. The primary objective was to identify the most suitable recycled plastic to be usedon the top cover of the BT Levio LWI160, which served as the focal point of this project.This was done in order to address the research questions: "What types of mechanical- andindustrial design requirements are affected when using recycled plastic (of various composi-tions), and to which new requirements and changes will result from this?" and "What are themajor mechanical- and industrial design challenges, advantages & disadvantages of switchingto recycled plastic material, considering economic and sustainability factors." The study concludes that the requirements of the top cover will largely remain unchanged.The use of PP 20GF necessitates further testing for structural integrity and quality con-sistency in recycled material. This material’s harder, less ductile nature may require newimpact testing and recycling processes. Industrial design benefits include simplified colourchoices due to the material’s transparent base hue, although the dark brown colour of re-cycled plastics limits options. Ensuring consistency across batches, minimising costs, andaddressing surface defects and purity issues are critical challenges. Despite uncertainties,switching to recycled plastic can reduce CO2 emissions by up to 24% and attract environ-mentally conscious customers Recycled plastic Material Polypropylene Acrylonitrile Butadiene Styrene Sustainable Innovation Mass balance Material perception Sustainability GFRPC Thermoplastics Fluctuations in batch quality Mechanical Engineering Maskinteknik
49	Poly(acrylonitrile/methyl acrylate) copolymers and clay nanocomposites : structural and property relationships Zengeni, Eddson 12 1900 (has links) Thesis (MSc (Chemistry and Polymer Science))--University of Stellenbosch, 2009. / Thesis submitted in partial fulfillment of the requirements for the degree of Master of Science (Polymer Science) at University of Stellenbosch. / ENGLISH ABSTRACT: The preparation of poly(acrylonitrile/methyl acrylate) [poly(AN-co-MA)] copolymers and poly(AN-co-MA)/clay nanocomposites, via emulsion polymerization, their characterisation, and the relationships between their molecular structures and physical properties are described. The copolymer composition was varied, and the properties of the products were analysed and correlated to copolymer composition. The free volume properties of the copolymer were dependent on the glass transition temperature (Tg), which is dependant on the copolymer composition. The copolymer crystallinity decreased with increasing MA content. The decrease in crystallinity and increase in both o-Ps lifetime and o-Ps intensity with decreasing Tg was caused by the enhanced chain mobility brought about by the incorporation of methyl acrylate. The poly(acrylonitrile-co-methyl acrylate)/clay nanocomposites with 60% AN:40% MA (mol:mol) ratio were prepared using montmorillonite clay modified via adsorption, using 2-acrylamido-2-methyl-1-propanesulphonic acid (AMPS), via in-situ intercalation polymerization. The poly(AN-co-MA)/clay nanocomposites with different clay loadings showed no difference in morphology. They exhibited improved thermomechanical properties and higher thermal stability than the neat copolymers. The melt rheology results of these nanocomposites showed an improved storage modulus as well as increased shear thinning behaviour with increasing clay content. However, the nanocomposites exhibited long-time relaxation behaviour and their chemical structures evolved during analysis. This was attributed to cyclisation reactions taking place at the temperature used during the oscillatory tests. The sorption isotherms of water vapour in these nanocomposites followed a dualmode sorption behaviour (BET type II mode). Hysteresis was observed in sorption/desorption isotherms of these nanocomposites. The equilibrium water uptake was higher in the nanocomposites compared to the neat copolymers, and it increased with increasing clay content, especially at high water activities (0.8). Although diffusion and permeability decreased with increasing clay content the solubility increased due to the hydrophilic nature of the clay. Despite the decrease in diffusion and permeability parameters the free volume hole radius of the nanocomposites remained constant, but a slight decrease in free volume hole number was observed. / AFRIKAANSE OPSOMMING: Die bereiding van poli(akrilonitriel/metielakrilaat) [poli(AN-ko-MA)] kopolimere en poli(AN-ko-MA)/klei nanosamestellings deur middel van emulsiepolimerisasie, hul karakterisering asook die ooreenkoms tussen hul molekulêre strukture en fisiese eienskappe is beskryf. Die kopolimeersamestelling is gevarieer, en eienskappe is geanaliseer en dan gekorreleer met die kopolimeersamestelling. Die vrye-volume eienskappe van die kopolimeer was afhanklik van die glasoorgangstemperatuur (Tg) wat weer afhanklik is van die kopolimeersamestealling. Die kristalliniteit van die kopolimeer het verminder met die hoeveelheid MA teenwoordig. Die afname in kristalliniteit en toename in beide die o-Ps leeftyd en o-Ps intensiteit met afname in Tg is veroorsaak deur die beter kettingbeweegbaarheid wat veroorsaak is deur die byvoeging van metielakrilaat. Die poli(akrilonitriel-ko-metielakrilaat)/klei nanosamestellings met 60% AN:40% MA (mol:mol) verhouding is berei deur die gebruik van montmorillonietklei, gemodifiseer deur die adsorpsie van 2-akrielamido-2-metiel-1-propaansulfoonsuur (AMPS) deur middel van 'n in-situ interkaleringspolimerisasie. Die poli(AN-ko-MA)/klei nanosamestellings het, ten spyte van die verskillende hoeveelhede klei wat gebruik is, geen verandering in morfologie getoon nie. Hulle het wel beter termodinamiese eienskappe en hoër termiese stabiliteit as die oorspronklike kopolimere getoon. Die smeltreologie resultate van hierdie nanosamestellings het ‘n beter stoormodulus getoon, sowel as toenemende skuifverdunningsgedrag met 'n verhoogde klei inhoud. Tog het die nanosamestellings lang tyd-ontspanningsgedrag getoon en die chemiese struktuur het verander tydens analise. Dit word toegeskryf aan die sikliese reaksies wat plaasvind by die temperatuur wat gebruik is tydens die ossillatoriese toetse. Die sorpsie isoterme van waterdamp in hierdie nanosamestellings het ‘n dubbel-styl sorpsiegedrag gevolg (BET tipe II styl). Histerese is waargeneem in sorpsie/desorpsie isoterme van hierdie nanosamestellings. Die ewewig in wateropname van die nanosamestellings was hoër as vir dié van die oorspronklike kopolimere en dit het toegeneem met 'n toenemende klei inhoud, veral by hoë humiditeit (0.8). Al het die diffusie en deurlaatbaarheid afgeneem met 'n toename in die klei inhoud, het die oplosbaarheid toegeneem as gevolg van die hidrofiliese karakter van die klei. Ten spyte van die afname in diffusie en deurlaatbaarheidsparameters, het die radius van die vryevolume openinge van die nanosamestellings konstant gebly, maar ‘n klein afname in die aantal vrye-volume openinge is gevind. Polymer/clay nanocomposites Poly(acrylonitrile-co-methyl acrylate) Structural relationships Sorption isotherms Property relationships Clay nanocomposites Chemistry and polymer science
50	Avaliação da influência da interação polímero-solvente sobre a porosidade de copolímeros de acrilonitrila e divinilbenzeno obtidos por polimerização em suspensão / Evaluation of the influence of polymer - solvent interoction on the porosity of acrylonitrile - divinylbenzene copolymers obtained by suspension polymerization Diego Dornelas Diogo 25 February 2011 (has links) Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Neste trabalho, copolímeros à base de acrilonitrila e divinilbenzeno foram sintetizados, utilizando a técnica de polimerização em suspensão, na presença de três agentes porogênicos diferentes (álcool isoamílico, metil-etil-cetona e tolueno). Esses copolímeros foram caracterizados por meio da determinação da densidade aparente, do volume e diâmetro de poros, por microscopia ótica e microscopia eletrônica de varredura e foram avaliados quanto à capacidade de inchamento em heptano e tolueno. O principal intuito dessa pesquisa foi correlacionar a formação da estrutura porosa desses materiais com os principais parâmetros de síntese (grau de diluição dos monômeros, poder solvatante do diluente e teor do agente de reticulação). Desses parâmetros, o que mais influenciou na formação da estrutura porosa desses materiais foi o poder solvatante do diluente. A teoria dos parâmetros de solubilidade de Hansen e Hildebrand foi utilizada com o intuito de fazer uma previsão das características porosas dos copolímeros à base de acrilonitrila e divinilbenzeno sintetizados na presença de três diluentes diferentes. Dentre esses diluentes, o álcool isoamílico foi o pior solvente para os copolímeros de AN-DVB, em todos os teores de agente de reticulação e em todas as diluições utilizadas. O tolueno foi o melhor solvente para os copolímeros que contêm altos teores de agente de reticulação. Estas observações estão de acordo com as previsões dos parâmetros de solubilidade de Hansen e Hildebrand. A metil-etil-cetona foi o melhor solvente para os copolímeros que contêm teores intermediários de agente de reticulação. Esta observação só está condizente com o parâmetro de solubilidade de Hansen. / In this work, acrylonitrile-divinylbenzene copolymers were synthesized using the technique of suspension polymerization in the presence of three different solvents (isoamyl alcohol, methyl-ethyl-ketone and toluene). These copolymers were characterized by apparent density, pore volume and pore diameter, optical and scanning electron microscopy, and were evaluated for their ability to swell in heptane and toluene. The principal aim of this research was to correlate the porous structure formation of these materials, with the main synthesis parameters (degree of dilution, solvating power of the diluent and crosslinking degree). Among these parameters, the most important on the formation of the materials porous structure was the solvating power of the diluent. The theory of solubility parameters of Hansen and Hildebrand was used in order to make a prediction of the porous characteristics of acrylonitrile-divinylbenzene copolymers synthesized in the presence of three different diluents. Among these solvents, the isoamyl alcohol was the worst solvent for acrylonitrile-divinylbenzene copolymers, at all levels of crosslinking degree and at all dilutions used. Toluene was the best solvent for the copolymers containing high levels crosslinking degree. These observations are consistent with the predictions of the solubility parameters of Hansen and Hildebrand. The methyl-ethyl-ketone was the best solvent for the copolymers containing intermediate crosslinking degree. This observation is only consistent with the Hansen solubility parameters. In this work, acrylonitrile-divinylbenzene copolymers were synthesized using the technique of suspension polymerization in the presence of three different solvents (isoamyl alcohol, methyl-ethyl-ketone and toluene). These copolymers were characterized by apparent density, pore volume and pore diameter, optical and scanning electron microscopy, and were evaluated for their ability to swell in heptane and toluene. The principal aim of this research was to correlate the porous structure formation of these materials, with the main synthesis parameters (degree of dilution, solvating power of the diluent and crosslinking degree). Among these parameters, the most important on the formation of the materials porous structure was the solvating power of the diluent. The theory of solubility parameters of Hansen and Hildebrand was used in order to make a prediction of the porous characteristics of acrylonitrile-divinylbenzene copolymers synthesized in the presence of three different diluents. Among these solvents, the isoamyl alcohol was the worst solvent for acrylonitrile-divinylbenzene copolymers, at all levels of crosslinking degree and at all dilutions used. Toluene was the best solvent for the copolymers containing high levels crosslinking degree. These observations are consistent with the predictions of the solubility parameters of Hansen and Hildebrand. The methyl-ethyl-ketone was the best solvent for the copolymers containing intermediate crosslinking degree. This observation is only consistent with the Hansen solubility parameters. estrutura porosa polimerização em suspensão Acrylonitrile-divinylbenzene copolymers porous structure suspension polymerization QUIMICA

Search results