Global ETD Search

21	Design and development of advanced electro-active clay/polymer hybrid materials for environmental applications Kiari, Mohamed 07 March 2023 (has links) La hibridación de minerales arcillosos con polímeros conductores recibe gran interés por diferentes aplicaciones potenciales, incluida la remediación ambiental. Esta tesis contiene tres partes del estudio, en primer lugar, estudia y compara las propiedades electroquímicas de dos arcillas diferentes, montmorillonita (Mont) y diatomita (Diat), y sus respectivos materiales híbridos arcilla/PEDOT-PSS en medio H2SO4. Los materiales híbridos se prepararon por electropolimerización de EDOT en presencia de PSS. Se analizaron las propiedades físico-químicas y electroquímicas de ambas arcillas mediante diferentes técnicas, y se investigó la influencia de las propiedades de la arcilla en la electropolimerización y la electroactividad de los híbridos arcilla/PEDOT-PSS resultantes. En concreto, la sonda redox Fe2+/Fe3+ y la oxidación de diclofenaco, como contaminante emergente farmacéutico modelo, se utilizaron para probar la capacidad de transferencia de electrones y la respuesta oxidativa, respectivamente, de los híbridos arcilla/PEDOT-PSS. Los resultados demuestran que, a pesar de su baja conductividad eléctrica, el Mont es un material electroactivo en sí mismo con una buena capacidad de transferencia de electrones. Por el contrario, el Diat no muestra electroactividad. La hibridación con PEDOT generalmente mejora la electroactividad de las arcillas, pero las propiedades de la arcilla afectan la eficiencia de electropolimerización y la electroactividad de los híbridos, por lo que Mont/PEDOT muestra propiedades electroquímicas mejoradas. Se demuestra que los híbridos de arcilla/PEDOT-PSS exhiben capacidad de oxidación de diclofenaco y sensibilidad a la concentración de diclofenaco. Se sintetizaron diferentes materiales híbridos a base de arcilla en un solo paso mediante polimerización química de EDOT en presencia de la arcilla sin o con nanofibras de carbono (CNF). Estos materiales fueron caracterizados con diferentes técnicas y estudiados por su potencial aplicación en la remoción de diclofenac y Radium, contaminantes emergentes modelo, del agua. Para ello se analizó la termodinámica y cinética de adsorción de diclofenaco y radio sobre los diferentes materiales. En el caso del Diclofenaco, los resultados obtenidos indican que el método de síntesis propuesto permite producir fácilmente los materiales híbridos con rendimientos del 80 - 90 %. La caracterización de estos materiales muestra que la estructura mesoporosa y alta área superficial (ca. 250 m2/g) de la arcilla no se ve afectada de forma notable por su combinación con PEDOT y/o los CNFs. La termogravimetría indica que se han obtenido materiales híbridos con alrededor del 10 % en peso de PEDOT sin y con 4 y 8 % en peso de CNF. La combinación de SEM con XPS y FTIR señala que PEDOT se ha cultivado con éxito alrededor de partículas de arcilla. La comparación de las isotermas de adsorción de diclofenaco indica que la hibridación con PEDOT mejora en gran medida la capacidad de adsorción de la arcilla. La adsorción de la isoterma resultante muestra la adsorción más alta con CNF y Clay/PEDOT con 340 mg/g y 220 mg/g respectivamente. Los datos de equilibrio se aplicaron a dos modelos de isoterma, y los resultados obtenidos sugirieron que la adsorción se siguió mejor con el modelo de Langmuir para Clay/PEDOT y Clay, con una capacidad máxima de adsorción de monocapa de 227,01 mg/g y 20,44 mg/g respectivamente. Por el contrario, fueron mejor ajustados por el modelo de Freundlich para el resto de los materiales, indicando adsorción heterogénea y la posibilidad de formación de multicapas en estos casos. Los datos cinéticos obtenidos para la adsorción se ajustaron mejor a una ecuación de velocidad de pseudo segundo orden para todos los materiales, con una capacidad máxima de adsorción en equilibrio de 18,24 mg/g para Clay/PEDOT. Este hallazgo sugiere que la adsorción se estaba produciendo a través del mecanismo químico. En el caso del Radio, se sintetizaron diferentes materiales híbridos a base de arcilla en un solo paso mediante polimerización química de EDOT y anilina en presencia de arcilla sin o con nanofibras de carbono (CNF). Estos materiales fueron caracterizados con diferentes técnicas y estudiados por su potencial aplicación en la remoción de radio del agua. Para este propósito, se utilizó una muestra de salmuera, recolectada de la salida de la mina subterránea, para probar la remoción de radio. El estudio que se realizó y se detalla en el documento muestra una gran eficacia en la eliminación de radio de las muestras de agua. La característica de los materiales se realizó mediante XRD, TG, FE-SEM, fluorescencia de rayos X y análisis de adsorción-desorción de N2. Los experimentos demostraron que arcilla/PEDOT, arcilla/PEDOT/10 % CNF y arcilla/PANI tienen una eficiencia de eliminación de radio significativamente menor. El uso de arcilla y arcilla que ha sido alterada químicamente por polímeros y nanofibras de carbono es una forma potencial de eliminar el radio del agua. El uso de un material híbrido a base de arcilla es una opción potencial para eliminar el radio del agua. El estudio realizado y detallado en el documento examinó una variedad de nanofibras de carbono y polímeros a base de arcilla (PEDOT, PANI), ya que algunos de ellos muestran una gran eficacia para eliminar el radio de las muestras de agua. La característica de los materiales se realizó mediante XRD, TG, FE-SEM, fluorescencia de rayos X y análisis de adsorción-desorción de N2. Para las pruebas de remoción de radio, se utilizó una muestra de salmuera, recolectada de la salida de una mina subterránea. Los experimentos demostraron que arcilla/PEDOT, arcilla/PEDOT/10 % CNF y arcilla/PANI tienen una eficiencia de eliminación de radio significativamente menor. Minerales de arcilla PEDOT CNF PANI Materiales híbridos Materiales electroactivos Adsorción Remediación ambiental Contaminantes emergentes Diclofenaco Radio
22	PRIVACY-PRESERVING ATTRIBUTE-BASED ACCESS CONTROL IN A GRID Park, Sang Mork 27 October 2010 (has links) No description available. Computer Science Grid Security Attribute-Based Access Control Privacy DNF conversion CNF conversion Globus Shibboleth
23	Le composite cuivre / nanofibres de carbone / The copper-carbon nanofibers composite Vincent, Cécile 19 November 2008 (has links) Le matériau composite Cu/NFC (Nano Fibre de Carbone) peut être utilisé en tant que drain thermique par les industriels de l'électronique de puissance. En remplacement du cuivre, il doit combiner une conductivité thermique élevée et un coefficient de dilatation thermique adapté à celui de la céramique du circuit imprimé (alumine ou nitrure d’aluminium). Après avoir étudié les propriétés de la matrice cuivre et des NFC, plusieurs méthodes de synthèse du composite Cu/NFC ont été développées. Le composite a tout d’abord été élaboré par métallurgie des poudres. Puis, dans le but d’améliorer l’homogénéité, il a été envisagé de revêtir individuellement chaque NFC par du cuivre déposé par voie chimique electroless ainsi que par une méthode originale de décomposition d’un sel métallique. Des mesures de densité et de propriétés thermiques (conductivité et dilatation) ainsi que les caractérisations microstructurales de ces matériaux montrent la complexité de l’élaboration d’un tel composite. En effet, la dispersion des nanofibres, la nature des interfaces fibres/matrice et surtout les phénomènes thermiques à l’échelle nanométrique sont autant de paramètres à contrôler afin d’obtenir les propriétés recherchées. La simulation numérique et analytique, qui a été mise en oeuvre en parallèle a été corrélée aux résultats expérimentaux, afin de prédire les propriétés finales de nos matériaux. / Cu/CNF (Carbon Nano Fiber) composite materials can be used as heat sink in power electronic devices. They can substitute Copper by combining a high thermal conductivity and a coefficient of thermal expansion close to the printed circuit one (alumina or aluminum nitride). After studying the properties of Copper matrix and CNF, three methods were set up for the elaboration of the Cu/CNF composite materials. It was first synthesized by a simple powder metallurgy process. Second, in order to obtain a better homogeneity, CNF were individually coated with Cu by an electroless deposition method. Third, an original technique involving the decomposition of a metallic salt has been used. Measurements of the density, the thermal properties (conductivity and dilatation), and the characterization of the microstructure of the composite materials have been performed. It reveals the complexity of the realization of such a composite. Indeed, the dispersion of CNF and the chemical nature of the Cu/CNF interfaces have to be controlled in order to reach the desired thermal properties. Analytical and numerical simulations have been conducted and correlated with the experimental results to predict final properties of our materials. NanoFibres de Carbone Composite NFC/cuivre Dépôt chimique Conductivité thermique Modélisation Carbon NanoFibers Copper/CNF composite Metallic coating Thermal conductivity Modelization
24	Carbon nanotube reinforced polyacrylonitrile and poly(etherketone) fibers Jain, Rahul 23 March 2009 (has links) The graphitic nature, continuous structure, and high mechanical properties of carbon nanotubes (CNTs) make them good candidate for reinforcing polymer fiber. The different types of CNTs including single-wall carbon nanotubes (SWNTs), few-wall carbon nanotubes (FWNTs), and multi-wall carbon nanotubes (MWNTs), and carbon nanofibers (CNFs) differ in terms of their diameter and number of graphitic walls. The desire has been to increase the concentration of CNTs as much as possible to make next generation multi-functional materials. The work in this thesis is mainly focused on MWNT and CNF reinforced polyacrylonitrile (PAN) composite fibers, and SWNT, FWNT, and MWNT reinforced poly(etherketone) (PEK) composite fibers. To the best of our knowledge, this is the first study to report the spinning of 20% MWNT or 30% CNF reinforced polymer fiber spun using conventional fiber spinning. Also, this is the first study to report the PEK/CNT composite fibers. The fibers were characterized for their thermal, tensile, mechanical, and dynamic mechanical properties. The fiber structure and morphology was studied using WAXD and SEM. The effect of two-stage heat drawing, sonication time for CNF dispersion, fiber drying temperature, and molecular weight of PAN was also studied. Other challenges associated with processing high concentrations of solutions for making composite fibers have been identified and reported. The effect of CNT diameter and concentration on fiber spinnability and electrical conductivity of composite fiber have also been studied. This work suggests that CNT diameter controls the maximum possible concentration of CNTs in a composite fiber. The results show that by properly choosing the type of CNT, length of CNTs, dispersion of CNTs, fiber spinning method, fiber draw ratio, and type of polymer, one can get electrically conducting fibers with wide range of conductivities for different applications. The PEK based control and composite fibers possess high thermal stability with almost no weight loss up to 500 degree C and negligible thermal shrinkage up to 200 degree C. The PEK based fibers showed high toughness which surpassed many of the high-performance fibers like Kevlar(R) and Zylon(R). The 10% FWNT containing fiber is unique in terms of high electrical conductivity and high toughness. The CNT based fibers may be used as structural material, fire-barrier/protection textile, electrode for electrochemical capacitor or fuel cells, and as a template for directional growth of tissues. CNF MWNT FWNT SWNT Poly(etherketone) Polyacrylonitrile Nanocomposite Carbon nanotube Composite materials Polymeric composites Nanotubes Thin films
25	Translation-based approaches to Conformant Planning Palacios Verdes, Héctor Luis 03 December 2009 (has links) Conformant planning is the problem of ﬁnding a sequence of actions for achieving a goal in the presence of uncertainty in the initial state and state transitions. While few practical problems are purely conformant, the ability to ﬁnd conformant plans is needed in planning with observations where conformant situations are an special case and where relaxations into conformant planning yield useful heuristics. In this dissertation, we introduce new formulations for tackling the conformant planning problem with deterministic actions using translations. On the one hand, we propose a translation in propositional logic and two schemes for obtaning conformant plans for it, one based on boolean operations of projection and model counting, the other based on projection and satisﬁability. On the other hand, we introduce translations of the conformant planning problem into classical problems that are solved by a modern and eﬀective classical planner. We analyze the formal properties of the translations into classical planning and evaluate the performance of the resulting conformant planners. / La planificación conformante es el problema de encontrar una secuencia de acciones para lograr un objetivo en presencia de información incompleta sobre el estado inicial y en las transiciones entre estados. Aunque pocos problemas son de carácter puramente conformante, la posibilidad de encontrar planes conformantes es necesaria en planificación con observaciones, donde las situaciones conformantes son un caso particular, y donde las relajaciones a planificación conformante dan heurísticas útiles. En esta tesis atacamos el problema de la planificación conformante con acciones determinísticas mediante dos formulaciones basadas en traducciones. Por un lado, proponemos una traducción a lógica proposicional y dos esquemas para obtener planes conformantes a partir de ésta, uno basado en operaciones booleanas de projección y conteo de modelos, y otro basado en projección y satisfacción proposicional. Por otro lado, introducimos traducciones que permiten transformar un problema de planificación conformante en un problema de planificación clásica que es luego resuelto usando planificadores clásicos. También analizamos las propiedades formales de las traducciones y evaluamos el rendimiento de los planificadores obtenidos. cnf ddnnf knowledge compilation planning classical planning planning under uncertainty conformant planning sat artificial intelligence computer science 62
26	Development of Cellulose-Titanium dioxide-Porphyrin Nanocomposite Films with High-barrier, UV-blocking, and Visible Light-Responsive Antimicrobial Features Lovely, Belladini 03 June 2024 (has links) The packaging does not serve as a mere containment but also can be designed to play a key role in preserving the product from quality-deteriorating factors, including oxygen, light irradiation, and foodborne pathogenic microorganisms (e.g., Escherichia coli). There has been a growing interest in employing ultra-porous metal-organic frameworks (MOF) with visible light-responsive antibacterial mechanisms to generate reactive oxygen species (ROS) that can eliminate bacteria via an oxidative burst. MOF is made of inorganic metal ions/nodes/clusters/secondary building units linked by organic bridge ligands, where titanium dioxide (TiO2) and tetrakis(4-carboxyphenyl)porphyrin) (TCPP) were selected for these components, respectively. TiO2 is an exceptional UV-A/B/C-blocker; meanwhile, TCPP dye performs a remarkable photocatalytic ability even under visible light, on top of its macro-heterocyclic structure that is ideal as a MOF linker. Both have good compatibility but suffer from the notorious tendency to self-quench/aggregate. The incorporation of MOF-based conjugates into a polymeric matrix, like cellulose, is among the proven-successful solutions. Cellulose is the Earth's most abundant and naturally biodegradable, and cellulose nanofibril (CNF) was particularly chosen for its high specific surface area and surface activity. However, a straightforward, cheap, and environmentally friendly approach of multicycle homogenization (0-25 passes) was conducted to solve neat cellulose's challenge of natural hydrophilicity, where low pressure (<10 MPa) was applied to prevent the common over-shearing effect. The antibacterial efficacy of CNF films functionalized with TiO2-TCPP conjugate on inhibiting E. coli growth was analyzed with and without light of different intensities (3000 and 6000 lux). The positive impacts of CNFs' promoted fibrillation and subsequent inter/intra-molecular hydrogen bonding post-homogenization were evidenced in an array of functional properties, i.e., crystallinity, TiO2-TCPP conjugate dispersion, surface smoothness, mechanical properties, thermal stability, hydrophobicity, oxygen barrier (comparable to ethylene-vinyl alcohol (EVOH), a commercial high-barrier polymer), and 100%-antibacterial rate (under 6000 lux after 72 hours). Varying optimum cycles of homogenization demonstrated the prospect of the proposed homogenization approach in preparing CNF with diverse processability and applicability. These findings also exhibited a promising potential for a myriad of high-barrier, UV-blocking, and/or visible light-responsive antibacterial film applications, including food packaging and biomedical. / Doctor of Philosophy / Packaging is useful not only as a container but can also be designed to help prevent products from being spoiled due to various reasons such as oxidation, light, and bacterial contamination. Researchers have discovered the promising antibacterial feature of the metal-organic framework (MOF). Packaging made with MOF technology can harness light and oxygen in the environment to produce a special form of oxygen called reactive oxygen species (ROS) that can kill unwanted bacteria. MOF is an extremely porous sponge-like material made of two ingredients: an inorganic metal cluster and an organic linker; in this study, titanium dioxide (TiO2) and a porphyrin called TCPP were selected, respectively. TiO2 is an excellent ultraviolet blocker, while TCPP has a unique, ring-like geometry that is ideal for use as a linker and an antimicrobial feature that works well under the visible light spectrum. The pair are compatible but still suffer from MOF's notorious challenge, where it tends to clump together because of its tiny size. To resolve this problem, TiO2-TCPP MOF can be deposited evenly in a cast made of polymer. Cellulose has been proven to work effectively as a polymeric cast; moreover, it is natural, biodegradable, and in abundant supply. A type of nanosized cellulose—cellulose nanofibril (CNF)—was specifically chosen because its high surface area and activity are useful when blended with other materials. However, cellulose is naturally a poor water-repellant that is not ideal for packaging applications. As a solution, cellulose can be treated with a homogenization technique by passing the material through a very narrow hole under high pressure. Homogenization can be problematic as it possibly damages the cellulose's structure, and its high pressure can also be expensive and energy consuming. Therefore, low pressure with multiple cycles was applied in this work. CNF-TiO2-TCPP films were tested for their ability to slow down E. coli bacteria growth with and without light of varying brightness to compare its light-sensitive antimicrobial feature. Homogenization was found helpful in producing higher-quality CNF, which improved several of the film's final characteristics, including an even material dispersion, structural order, smoothness, strength, heat resistance, and water repellency. Most importantly, it produced films with oxygen barrier ability comparable to commercial high-barrier plastics and completely eliminated bacteria after 72 hours. The optimum number of homogenization cycles was found to be dependent on the desired characteristics and application. Overall, these findings carry a promising potential for a variety of applications, including food packaging and the biomedical field. Cellulose nanofibrils (CNF) Titanium dioxide (TiO2) Photosensitive antibacterial agents Homogenization cycles/passes
27	Aplicação de nanoceluloses em fibras não branqueadas para obtenção de papéis. / Application of nanocelulose in unbleached fibers for papermaking. Cruces Cerro, Jorge 18 August 2016 (has links) Atualmente, o Brasil é o maior fabricante de celulose branqueada de eucalipto do mundo. Geralmente as fibras virgens de Eucalyptus spp. são utilizadas na fabricação de papéis para imprimir, tissue e especiais. Papéis para embalagens, tipicamente Kraftliners, precisam de uma grande resistência mecânica e são produzidos principalmente a partir de pastas Kraft de coníferas não branqueadas. Por outro lado, nanoceluloses fabricadas a partir de biomassa são consideradas um dos materiais sustentáveis mais interessantes para o século, com excelentes propriedades como baixa densidade, elevadas propriedades mecânicas, alta hidrofilicidade, grande área superficial com reatividade química e elevado valor econômico. Desde 2012 o uso de nanoceluloses na fabricação de papel ganhou impulso. As nanoceluloses têm sido adicionadas em pastas mecânicas e Kraft branqueadas para fabricação do papel, incrementando notavelmente as suas propriedades mecânicas, mas há preocupações sobre a diminuição da drenabilidade, da porosidade e da opacidade do papel. Poucos estudos foram desenvolvidos visando a aplicação de nanoceluloses em fibras não branqueadas, ainda que tenham aplicações em pastas branqueadas e/ou mecânicas. Portanto, o presente trabalho visa desenvolver o uso de nanoceluloses para melhorar as propriedades mecânicas em fibras não branqueadas. Em primeiro lugar, tomaram-se os finos primários do branqueamento de celulose de Pasta Kraft de Eucalipto como a matéria-prima para produzir dois tipos de nanocelulose. A celulose microfibrilada (MFC) é produzida diretamente por homogeneização mecânica utilizando equipamento Masuko. A celulose nanofibrilada (CNF) é produzida por oxidação mediada por TEMPO e homogeneizada por GEA. Em segundo lugar, selecionaram-se com as fibras virgens de Pasta Kraft Marrom de Pinho (PKPM) com número Kappa 36,1 e Pasta Kraft de Eucalipto Não Branqueada (PKEP), obtida na saída de estágio de deslignificação com oxigênio, com número Kappa 9,21, e todas as fibras foram refinadas até atingir o mesmo grau Shopper-Riegler (33±1 SR). Os experimentos com PKPM são conduzidas como uma referência a papéis Kraftliners tradicionais, com ou sem nanocelluloses. Também obteve folhas manuais com pasta branqueada Kraft de eucalipto, adicionando nanoceluloses, para compreender o efeito da lignina presente em PKEP. A receita e os aditivos químicos aplicados aqui são os mesmos que na produção industrial. Os principais resultados são: o uso de CNF (ou MFC) e agentes químicos, separadamente, na pasta PKEP, aumenta as resistências mecânicas dos papéis, no entanto, quando aplicadas CNF (ou MFC) em PKMP sem aditivos químicos, as resistências à tração e a estouro diminuem, e a resistência ao rasgo permanece constante. Como a terceira parte do estudo, delineamento de experimentos teve a configuração composto central com o ponto central em 1% de CNF (ou MFC) e 1% de agentes químicos (polímero+amido+cola), e seus pontos axiais foram 0,3%-1,7% de CNF (ou MFC), e 0,15%-0,85% de agentes químicos. O ponto ótimo de equilíbrio dos índices de rasgo (mN.m2/g) /estouro (kPa.m2/g) /tração (N.m/g) de (10,00/2,25/36,56 para CNF e 12,88/4,25/57,62 para MFC), obteve-se com a adição de 1,03% de CNF e 0,65% de amido, ou com a adição de menos de 0,01% de MFC e de 1% de amido. Finalmente, foram aplicadas CNF ou MFC por impregnação direta no centro da direção-z, considerando que o papel tem forças que interagem em 3D. Os resultados mostram que a PKEP atinge a qualidade do Kraftliner de pinus obtendo um índice de tração de 52,58 N.m/g utilizando 1% de CNF, ou 47,40 N.m/g utilizando 1% de MFC. Também, o custo de utilização do CNF ou MFC na fabricação do papel é avaliado, resultando em estimativas de 0,9494 US$/kg ou 0,3036 US$/kg, com a adição de 1% de CNF ou 1% de MFC, respectivamente, em pasta PKEP. Este trabalho mostra que a aplicação de nanocelulose em Kraftliner tradicional com fibras de pinus com todos os agentes químicos não tem vantagens reais. No entanto, o uso de CNF e MFC tecnicamente e economicamente tem vantagens superiores em pasta Kraft de eucalipto não branqueada (e deslignificada com oxigênio), obtendo-se propriedades superiores às de fibras longas. / Nowadays, Brazil is the largest manufacturer of Bleached Eucalyptus Kraft Pulp in the world. Mostly the Eucalyptus spp. virgin fibres are used in papermaking to manufacture printing, tissue and specialty papers. Packaging papers, typically Kraftliners, have high demands for mechanical strength and are made mostly from Unbleached Softwood Kraft Pulp. Other side, nanocelluloses from biomass are considered one of the most interesting sustainable materials for the Century, with excel properties such as low density, high mechanical properties, high hydrophilicity, large surface area with chemical reactivity and high economic value. Since 2012 the use of nanocellulose in papermaking experienced a great momentum. Nanocelluloses are added in bleached or mechanical pulp in papermaking to increase significantly the mechanical properties, but there are concerns about the decreasing of the drainability, the porosity and the opacity of the paper. A very few studies were developed on the application of nanocelluloses in an unbleached Kraft pulp, even there are its applications on bleached pulps and mechanical pulps. Therefore, the present work aims to develop the application of nanocelluloses to increase the mechanical properties of the unbleached fibers, specifically for Kraftliners, and show the way to replace the softwood fibers with the low-cost hardwood fibers. Firstly, the primary fines from bleaching area of Eucalyptus Kraft pulp, obtained from an industrial residue, was the raw material for nanocellulose production of two nanocelluloses. The microfibrillated celluloses (MFC) are produced with direct mechanical homogenization using Masuko. The nanofibrillated cellulose (NCF) is produced with oxidation mediated by TEMPO and homogenization using GEA. Secondly, as virgin fibers were selected the Unbleached Pine Kraft Pulp (USKP) with Kappa number 36.1 and the Unbleached Eucalyptus Kraft Pulp (UEKP) just after the oxygen delignification stage with the Kappa number 9.21. All the fibres (USKP and UEKP) was refining at the same Shopper-Riegler (33±1 SR). USKP experiments are conducted as reference to traditional Kraftliners, with or without nanocelluloses. Also the virgin bleached Eucalyptus Kraft pulp with nanocelluloses addition for the handsheet paper helps to understand the role of lignin in UEKP. The recipe and chemicals applied here are the same of the industrial production. The main results are: the use CNF (or MFC) and chemical agents, separately, in UEKP, promote the mechanical resistances, however when applied CNF (or MFC) in UPKP without chemicals, the tensile and burst properties decreased and tear remains constant. As the third group of the study, the design of the experiments was conducted in the star configuration with centre point as 1% CNF (or MFC) and 1.00% chemical agents (polymers+starch+chemical agents) and, the axial points were 0.3%-1.7% NCF (or MFC) and 0.15%-0.85 of chemical agents. The optimum point from the balanced tear (mN.m2/g) /burst (kPa.m2/g) /tensile (N.m/g) index point of view with 10.00/2.25/36.56 for (1.03% CNF and 0.65% starch) and 12.88/4.25/57.62 for (<0.001% MFC and 1% starch). Finally, it is applied here the direct impregnation of the center of z-direction with 1% of CNF and MFC, considering that the paper has 3D interacting forces. The results show that the UEKP reaches the pinus Kraftliner quality with 52.58 N.m/g (Tensile Index) using 1% CNF or 47.40 N.m/g using 1% MFC. Also, the cost of use CNF or MFC in papermaking is evaluated, resulting in the estimates of 0.9494 US$/kg or 0.3036 US$/kg, the addition of 1% CNF or 1% MFC in UEKP. This work shows that the application of nanocellulose in traditional Kraftliner with pinus fibres with all chemical agents has no real advantages. However, the use of CNF and MFC technically and economically has superior advantages in Eucalyptus unbleached (and oxygen delignified) Kraft pulp, resulting in such properties superior to those of long fibres. Celulose CNF Eucalipto Eucalyptus short fibers Fabricação do papel Kraftliner Kraftliner Mechanical properties of paper MFC MFC Nanocellulose NCF Papel (Propriedades mecânicas) Papermaking
28	A comparison of SPS and HP sintered, electroless copper plated carbon nanofibre composites for heat sink applications Ullbrand, Jennifer January 2009 (has links) <p>The aim of this study is to synthesize a material with high thermal conductivity and a low coefficient of thermal expansion (CTE), useful as a heat sink. Carbon nanofibres (CNF) are first coated with copper by an electroless plating technique and then sintered to a solid sample by either spark plasma sintering (SPS) or hot pressing (HP). The final product is a carbon nanofibre reinforced copper composite. Two different fibre structures are considered: platlet (PL) and herringbone (HB). The influence of the amount of CNF reinforcement (6-24 %wt), on the thermal conductivity and CTE is studied. CNF has an excellent thermal conductivity in the direction along the fibre while it is poor in the transverse direction. The CTE is close to zero in the temperature range of interest. The adhesion of Cu to the CNF surface is in general poor and thus improving the the wetting of the copper by surface modifications of the fibres are of interest such that thermal gaps in the microstructure can be avoided. The poor wetting results in CNF agglomerates, resulting in an inhomogeneous microstructure. In this report a combination of three different types of surface modifications has been tested: (1) electroless deposition of copper was used to improve Cu impregnation of CNF; (2) heat treatment of CNF to improve wetting; and (3) introduction of a Cr buffer layer to further enhance wetting. The obtained composite microstructures are characterized in terms of chemical composition, grain size and degree of agglomeration. In addition their densities are also reported. The thermal properties were evaluated in terms of thermal diffusivity, thermal conductivity and CTE. Cr/Cu coated platelet fibres (6wt% of CNF reinforcement) sintered by SPS is the sample with the highest thermal conductivity, ~200 W/Km. The thermal conductivity is found to decrease with increasing content of CNFs.</p> electroless plating SPS spark plasma sintering HP hot pressing CNF carbon nanofibre carbon nanofiber heat sinks thermal conductivity thermal diffusivity Cu composite flash technique Physics Fysik
29	A comparison of SPS and HP sintered, electroless copper plated carbon nanofibre composites for heat sink applications Ullbrand, Jennifer January 2009 (has links) The aim of this study is to synthesize a material with high thermal conductivity and a low coefficient of thermal expansion (CTE), useful as a heat sink. Carbon nanofibres (CNF) are first coated with copper by an electroless plating technique and then sintered to a solid sample by either spark plasma sintering (SPS) or hot pressing (HP). The final product is a carbon nanofibre reinforced copper composite. Two different fibre structures are considered: platlet (PL) and herringbone (HB). The influence of the amount of CNF reinforcement (6-24 %wt), on the thermal conductivity and CTE is studied. CNF has an excellent thermal conductivity in the direction along the fibre while it is poor in the transverse direction. The CTE is close to zero in the temperature range of interest. The adhesion of Cu to the CNF surface is in general poor and thus improving the the wetting of the copper by surface modifications of the fibres are of interest such that thermal gaps in the microstructure can be avoided. The poor wetting results in CNF agglomerates, resulting in an inhomogeneous microstructure. In this report a combination of three different types of surface modifications has been tested: (1) electroless deposition of copper was used to improve Cu impregnation of CNF; (2) heat treatment of CNF to improve wetting; and (3) introduction of a Cr buffer layer to further enhance wetting. The obtained composite microstructures are characterized in terms of chemical composition, grain size and degree of agglomeration. In addition their densities are also reported. The thermal properties were evaluated in terms of thermal diffusivity, thermal conductivity and CTE. Cr/Cu coated platelet fibres (6wt% of CNF reinforcement) sintered by SPS is the sample with the highest thermal conductivity, ~200 W/Km. The thermal conductivity is found to decrease with increasing content of CNFs. electroless plating SPS spark plasma sintering HP hot pressing CNF carbon nanofibre carbon nanofiber heat sinks thermal conductivity thermal diffusivity Cu composite flash technique Physics Fysik
30	Acquisition de connaissances et raisonnement en logique propositionnelle Zanuttini, Bruno 04 July 2003 (has links) (PDF) Nous étudions l'algorithmique de deux problèmes centraux d'Intelligence Artificielle, pour des bases de connaissances représentées, notamment, par des formules propositionnelles de Horn, bijonctives, Horn-renommables ou affines. Nous traitons tout d'abord l'acquisition de connaissances à partir d'exemples : nous donnons notamment un algorithme efficace et général pour l'acquisition exacte, complétons l'état de l'art pour l'approximation et donnons un algorithme pour le PAC-apprentissage des formules affines. Nous étudions ensuite des problèmes de raisonnement : nous donnons un algorithme général pour l'abduction, qui nous permet d'exhiber de nouvelles classes polynomiales, et posons de premières pierres pour l'étude de ce processus lorsque la base de connaissances est approximative. L'étude des formules affines pour la représentation de connaissances n'avait jamais été réellement menée. Les résultats présentés dans ce mémoire montrent qu'elles possèdent de nombreuses bonnes propriétés. Représentation de connaissances Acquisition de connaissances Raisonnement Logique propositionnelle Formules CNF Formules affines Algorithmes Identification Approximation PAC-apprentissage Déduction Abduction

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