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201	Estudo do campo hiperfino magnetico no sup(181)Ta nos sitios de NB e V nas ligas de Heusler COsub2YAL (Y=NB,V) PENDL JUNIOR, WILLI 09 October 2014 (has links) Made available in DSpace on 2014-10-09T12:36:25Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T13:59:28Z (GMT). No. of bitstreams: 1 03874.pdf: 1911480 bytes, checksum: 99b2300cf5d2fd80de82f5c202570b88 (MD5) / Dissertacao (Mestrado) / IPEN/D / Instituto de Pesquisas Energeticas e Nucleares - IPEN/CNEN-SP heusler alloys tantalum 181 niobium vanadium magnetic fields niobium magnetic fields tantalum 181 magnetic fields vanadium magnetic fields
202	Evolutions microstructurales d’un acier inoxydable austénitique (316 Nb) au cours de sollicitations thermomécaniques représentatives de différents procédés de forgeage / Microstructure evolutions of a niobium stabilized austenitic stainless steel (316Nb) during representative thermomechanical treatments of forging process Hermant, Alexandre 15 September 2016 (has links) Les travaux de thèse ont permis de consolider et de compléter les connaissances sur les mécanismes de déformation et les évolutions microstructurales à chaud d’un acier inoxydable austénitique 316Nb. Comprendre la variation du comportement microstructural observée sur différentes pièces obtenues par forge libre permettra de pérenniser les connaissances et d’optimiser les gammes de forgeage. Du fait d’une variabilité de l’état de recristallisation, mise en évidence sur des pièces d’essai, et de son impact sur les propriétés mécaniques, des traitements thermomécaniques simplifiés sont réalisés en laboratoire afin de comprendre la genèse de ces différents états métallurgiques. L’influence de la température, du taux et de la vitesse de déformation ainsi que de la vitesse de refroidissement après l’essai (distinction entre les mécanismes dynamiques et post-dynamiques) est tout d’abord étudiée. De multiples passes de déformation, dans des conditions isothermes et anisothermes, sont ensuite appliquées afin de suivre les évolutions post-dynamiques de la microstructure entre les passes. Le rôle du traitement thermique post-déformation sur la microstructure (recristallisation statique) est étudié. Enfin, l’effet de la microstructure initiale, en termes de taille de grains et de composition chimique, notamment la teneur en niobium en solution solide, a été considéré.La recristallisation dynamique ne domine pas l’évolution de la microstructure, de par notamment une restauration dynamique avancée et une taille de grains élevée. Néanmoins, aux hautes températures et pour de faibles taux de déformation, une migration dynamique des joints de grains conduit à la formation progressive de nouveaux grains recristallisés. La recristallisation post-dynamique est très dépendante des conditions de déformation. A composition chimique donnée, la taille de grains (dans la gamme 60 – 250 µm) affecte peu la cinétique de recristallisation dynamique et post-dynamique. L’augmentation de la teneur en niobium de la solution solide entraîne, via sans doute un effet de traînage de soluté et une éventuelle modification de l’énergie de défaut d’empilement à haute température, un retard considérable de l’apparition de la recristallisation. Au cours du traitement thermique post-déformation, l’état de recristallisation final est essentiellement dépendant de la composition chimique (teneur en niobium de la solution solide et présence de ferrite δ résiduelle). Les précipités de niobium générés dans les conditions de déformation usuelles n’ont pas d’influence directe sur la cinétique de recristallisation. / Mechanical properties and microstructure of 316Nb austenitic stainless steel may show some variability in hot forging products. This work aimed at improving knowledge about hot deformation mechanisms and microstructural evolution of this steel. Obtaining a homogeneous microstructure requires deep understanding of the hot deformation behaviour and mechanisms. In thick-walled components, both work hardening, dynamic recovery and recrystallization govern hot workability. Static and post-dynamic phenomena can induce further metallurgical evolution during interpass time and cooling. The influence of deformation temperature, strain, strain rate, cooling rate on recrystallization mechanisms has been studied by using hot torsion tests. Multiple-pass tests with isothermal and non-isothermal interpass allowed understanding post-dynamic mechanisms. Static phenomena were investigated using various annealing conditions. The effects of initial microstructural features such as grain size and chemical composition, specifically niobium solute content, on the hot deformation behaviour were eventually considered.The extent of dynamic recovery, coarse initial grain size, solute drag, and pinning of grain boundaries by fine Nb(C,N) particles strongly hinder dynamic recrystallization which does not dominate the metallurgical evolution over the range studied, in contrast to results reported on 316 steel. However, bulging of grain boundaries as a prelude to dynamic recrystallization was observed at low strains and high temperature. Grain boundary serrations progressively lead to the formation of subgrain boundaries, then of new high angle boundaries. A particular dynamic recrystallization mechanism explains progressive elimination of annealing twins. Interaction with dislocations depends on locally activated slip systems and whether they are common to both twin and parent grain. At moderate strain levels, post-dynamic recrystallization occurs by rapid growth of nuclei that depends on deformation temperature, and applied strain and strain rate. For a given chemical composition, neither dynamic nor post-dynamic recrystallization is affected by the initial grain size over the range studied. Increasing the free niobium content promotes solute drag and niobium carbide precipitation, which significantly delay recrystallization. The microstructure after annealing essentially depends on the availability of solute atoms such as niobium and on residual δ-ferrite. Nb(C,N) precipitates formed during hot deformation do not significantly influence recrystallization kinetics. Acier inoxydable austénitique Recristallisation Restauration Ecrouissage résiduel Niobium Austenitic stainless steel Recrystallization Recovery Residual work-hardening Niobium 620.11
203	Studies On Bulk And Multilayer Composites Of Nb-Si Alloys Kashyap, Sanjay 07 1900 (has links) (PDF) The present thesis deals with Nb-Si alloy composites in both bulk and multilayer forms. The work has been divided into two parts. First part (chapter 4-6) deals with Nb based silicides binary and ternary alloys with alloying additions like Ga and Al. These alloys are synthesized by vacuum arc melting and suction casting (non-equilibrium processing techniques). The studies on intermetallic coatings of Nb-Si alloys and Nb/Si multilayer synthesized by pulsed laser deposition technique have been presented in the second part (chapter7-8). Nb-Si alloys are one of the candidate materials for the advanced structural and microelectronic applications. There are few issues with these materials like poor oxidation resistance, low fracture toughness and brittleness which need to be solved. Microstructure plays a crucial role to control these properties. The main focus of this work is to understand the process of phase transformation and thereby control the microstructure in both bulk alloys and thin films. We have also investigated in a limited manner mechanical and environmental properties of bulk alloys. This thesis is subdivided into nine chapters. After a brief introduction in the first chapter, a brief overview on Nb-Si phase diagram and literature reviews on Nb-Si based alloys are presented with emphasis on the current work in the second chapter. Literature reviews on the phase formations sequence and stability in Nb-Si alloys thin films and Nb/Si multilayers are also discussed in the same chapter. In the third chapter different experimental techniques, processing parameters and characterization tools like XRD, SEM, TEM etc. are briefly discussed. Special emphasis is given on two non-equilibrium techniques: laser deposition technique to deposit the thin film/multilayer and vacuum suction casting to produce the 3 mm diameter rods of different Nb-Si alloys. The fourth chapter discusses the microstructural aspects of Nb-Si alloys prepared by suction casting and its mechanical behavior. The samples have the compositions hypoeutectic (Nb-10at.%Si and Nb-14at.%Si), eutectic (Nb-18.7at.%Si) and hypereutectic (Nb-22at.% Si and Nb-25at.% Si). SEM microstructural analyses of all the samples clearly show the enhancement in the volume fraction of eutectic and decease in the eutectic spacings in microstructure due to large undercooling. Rod eutectic is observed in most of places with irregular eutectic a few places in all samples. First check of phases has been done by XRD in all samples. Phase confirmation using TEM showed the eutectic between Nbss and Nb3Si phases in all samples. The primary phase for hypoeutectic alloys is Nbss (dendritic structure), Nb3Si phase for eutectic composition and β-Nb5Si3 phase for hypereutectic alloys. Compositional analysis using EDS and EPMA also supported the above results. No signature of eutectoid reaction (Nb3Si→Nb+α-Nb5Si3) is observed. Mechanical properties like hardness, strength, ductility and indentation fracture toughness have been determined for above mention alloy compositions. SEM micrographs showed that silicides fractured by cleavage and Nb phase in a ductile manner during the compression tests carried out at room temperature. We attempt to explain how the above mention mechanical properties change with alloy compositions and processing. Chapter five deals with the effect of Ga addition on the microstructure and mechanical properties of the Nb-Si alloy. The composition selected for this study is Nb-20.2at.%Si-2.7at.%Ga. The results of ternary alloy have been compared with the binary alloy composition Nb-18.7at.%Si. Phase analysis has been carried out using TEM and XRD. Ga addition has suppressed the formation of Nb3Si phase and promoted the formation of β-Nb5Si3 phase. Ga addition also established the eutectic between Nbss and β-Nb5Si3, which is a metastable eutectic. Ga added ternary alloy, on suction casting, yields ultrafine eutectic with nanometer length scale (50-100nm). From the compression tests, it is concluded that the combination of ultrafine eutectic (Nbss-β-Nb5Si3) and primary β-Nb5Si3 in ternary alloy results in a high compressive strength ~2.8±0.1 GPa with 4.3% plasticity. In contrast binary alloy under identical conditions shows the compressive strength ~1.35±0.1 GPa and 0.2% plasticity. Ga addition also enhances the indentation fracture toughness from 9.2±0.05 MPa√m (binary) to 24.11±0.5 MPa√m (ternary). Composite hardness values of the ternary and binary alloys are 1064±20 Hv and 1031±20 Hv respectively. Chapter six deals with Al added Nb-Si ternary alloy. Here we have discussed microstructural and mechanical properties like in chapter 5 along with oxidation behavior for the alloy composition Nb-12.7at.%Si-9at.%Al. SEM micrograph shows the presence of primary dendrites structure with ultra fine lamellar eutectic (50-100nm). Detailed TEM studies confirm the Nbss as primary phase present in form of dendrites. These dendrites contain the plate shape precipitates of δ-Nb11Si4 (body centered orthorhombic structure) phase in Nb matrix (primary dendrites). Eutectic phases are Nbss and β-Nb5Si3. The analysis of the results indicates that Al addition promote the formation of β-Nb5Si3 phase in the eutectic. The results of this ternary composition were also compared with the binary alloy composition Nb-18.7at.%Si. Compression tests have been carried out at room and elevated temperatures to measure the strength of the material. Al added ternary alloy yields the compressive strength value 1.6±0.01 GPa whereas binary alloy yields the compressive strength value 1.1±0.01 GPa. Enhancement in indentation fractured toughness is observed in Al added ternary alloy (20.4±0.5MPa√m) compare to binary alloy (9.2±0.05 MPa√m). Thermal analysis by TGA and DTA were used to see the oxidation behavior of Al added ternary alloy. Chapter seven deals with the deposition characteristics and the TEM studies on the laser deposited Nb-Si thin films. Films were deposited on the NaCl crystals and Si single crystal substrates. The compositions chosen in this case are Nb-25at.%Si, Nb-37.5at.%Si and Nb-66.7at.%Si. These compositions correspond to the equilibrium intermetallic compounds Nb3Si, Nb5Si3 and NbSi2 respectively. In this chapter we have briefly discussed the microstructural and phase evolutions in the intermetallic coatings. The smooth films quenched from the vapor and/or plasma state show amorphous structure. The sequence of crystallization was studied by hot stage TEM experiments as well as by cross sectional TEM in the films deposited at the elevated temperatures (600oC and 700oC) on Si substrates. During the hot stage experiment, crystallization is observed in Nb-25at.%Si film around 850oC with nucleation of metastable cubic Nb3Si phase. Occasionally metastable hexagonal Nb3Si3 phase has also been observed (close to Si substrate) along with cubic Nb3Si phase in the films at elevated temperatures. For Nb-37.5at.%Si film, crystallization is observed at 800oC with the nucleation of grains of metastable hexagonal Nb5Si3 phase. Cross-sectional TEM shows the presence of hexagonal Nb5Si3 phase along with few grains of NbSi3 (equilibrium) phase in the films deposited at elevated temperatures. Hot stage experiment of Nb-66.3at.%Si film showed the onset of crystallization much earlier at 400oC and complete crystallization at 600oC. This crystallization leads to the nucleation of grains of NbSi2 phase. Films of this composition deposited at elevated temperatures showed the presence of NbSi2 and metastable hexagonal Nb5Si3 phases (occasionally). The laser ablated films, besides the film matrix also contain the micron and submicron sized spherical droplets of different sizes. These droplets travel at very high velocities and impinge on the substrate resulting in a very high rate of heat transfer during solidification from liquid state. Therefore in this work we have also studied the microstructural evolution in the droplets for each composition. The phases observed in the droplets embedded in the matrix of Nb-25 at% Si alloy film are the bcc Nb and the cubic Nb3Si (metastable phase). The droplets in the matrix of Nb-37.5 at% Si alloy showed the bcc Nb and tetragonal β-Nb5Si3 phases. The phases observed in the droplets of in the Nb-66.3at.%Si alloy are the bcc Nb, tetragonal β-Nb5Si3 and the hexagonal NbSi2 (metastable phase). Chapter eight describes the synthesis and microstructural characterization using TEM of Nb/Si multilayers. The aim of this work is to check the stability and phase formation sequence in Nb/Si multilayer. Nb/Si multilayers were first annealed at different time intervals at 600oC and at different temperatures (for 2 hours) and then characterized by the cross-sectional transmission electron microscopy. As-deposited Nb layer is crystalline while Si layer is amorphous. Microstructural and compositional evidences suggest the intermixing between the Nb and Si layers at the interfaces. Nb/Si multilayer annealed at 600oC for 1 hour, NbSi2 was identified as the first crystalline nucleating phase. However amorphous silicide layers were also observed between Nb and NbSi2 layers. Metastable hexagonal Nb5Si3 was identified as the next crystalline phase that nucleated from the amorphous silicide layers at the interfaces of Nb and NbSi2 layers. Occasionally few grains of cubic Nb3Si phase were also observed after 8 hours of annealing at 600oC. In the chapter we have compared the results to the other reported works in Nb-Si bulk diffusion couples and also thin film couples. The final chapter summarizes the major conclusions of the present work and scope of future work. Niobium-Silicon Alloys Niobium-Silicon Multilayer Niobium-Silicon Thin Films Nb-Si Alloys Pulsed Laser Deposition Nb-Si Binary Alloys Nb-Si Ternary Alloys Nb-Si Intermetallics Nb-Si-Al Alloy Nb/Si Multilayer Materials Science
204	Etude des mécanismes de précipitation, de recristallisation et de transformation de phases dans les aciers Dual Phase microalliés au titane niobium lors du recuit / Study of the mechanisms of precipitation, recrystallization and phase transformation in Titanium Niobium microalloyed Dual Phase Steels during annealing cycle Philippot, Clément 10 December 2013 (has links) L’allégement des véhicules est l’un des objectifs prioritaires des constructeurs automobile pour répondre aux directives environnementales d’émission de CO2. Le développement des aciers multiphasés à très haute résistance mécanique est l’une des solutions communément adoptées pour réduire l’épaisseur des tôles dans les véhicules tout en conservant leur capacité à assurer la sécurité des passagers. La présente étude porte sur l’optimisation des paramètres du procédé de production industrielle de l’une des ces familles d’aciers : les aciers Dual Phase microalliés au titane et au niobium de haut grade ; c'est-à-dire possédant une résistance à la rupture supérieure à 800MPa.A partir d’une microstructure initiale bainite + martensite laminée à froid, les différents phénomènes se produisant au cours du recuit, de la chauffe jusqu’à la fin du maintien intercritique, sont caractérisés. L’influence des paramètres du recuit comme la vitesse de chauffe, la température et le temps de maintien est étudiée. Le système d’interactions triple entre la précipitation des éléments de microalliage, la recristallisation et la formation de l’austénite est au cœur du problème. Un scénario des évolutions microstructurales a été établi à partir de la caractérisation des divers phénomènes. La finesse de la microstructure étudiée (sub-micrométrique) a nécessité l’emploi combiné de techniques de caractérisation multi-échelles : MEB, MET, sonde atomique tomographique, nano-SIMS. / Lightening the weight of vehicles is one of the main challenging objectives of the automotive industry to reach the environmental regulation in term of CO2 emissions. The development of multiphase high strength steels is a common solution to reduce the thickness of sheet steel used in vehicles while keeping the same level of passenger’s safety requirements. The present study deals with the optimization of industrial process parameters applied to obtain one of these steels: the high strength microalloyed Dual Phase steels; i.e. with ultimate tensile strength superior to 800MPa.From an initial cold rolled microstructure made of bainite + martensite, the phenomena occurring during the annealing are characterized since the heating up to the end of the intercritical holding. The influence of process parameters as the heating rate, the holding temperature and the holding time are studied. The triple interactions system between the precipitation of microalloying elements, the recrystallization and the austenite formation is the core of the problem. A scenario of microstructural evolutions has been established based on the characterized phenomena. The studied fine microstructure (sub-microns) requires the combination of multiscale characterization techniques: SEM, TEM, atom probe tomography, nano-SIMS. Précipitation Formation d’austénite Microalliage Titane Niobium Acier à très haute résistance Multiphasé Recuit Multi-échelle Precipitation Austenite formation Microalloying Titanium Niobium High strength steel Multiphase Annealing cycle Multi-scale
205	Influence du niobium sur la microstructure et les propriétés d'usage des aciers inoxydables austéno-ferritiques (duplex) / Influence of niobium on the microstructure and properties of austenic-ferritic strainless steel(duplex) Baumhauer, Christophe 28 November 2012 (has links) Les aciers inoxydables sont employés dans des secteurs d’activitéspour lesquels les caractéristiques mécaniques et la résistance à lacorrosion sont primordiaux. Les nuances austéno-ferritiques sansmolybdène (lean-duplex), ont une résistance à la corrosion et despropriétés mécaniques supérieures aux aciers inoxydables austénitiques.Cependant, leur usinabilité est inférieure à celle de leur homologueausténitique. Pour améliorer cette propriété des éléments peuvent êtreajoutés dans les nuances, tel que le niobium. L’objectif de cette étude estd’améliorer l’usinabilité des lean-duplex sans dégrader les autrespropriétés. Différentes teneurs en niobium ont été ajoutées dans un1.4362 pour comprendre comment cet élément affecte la microstructure,la résilience, et la résistance à la corrosion par piqûres. Ces résultatsvont permettre de définir une teneur en niobium optimale. Pour finir, desessais d’usinabilité et de résilience ont été effectués sur des couléesindustrielles de 1.4362 avec et sans niobium après divers traitementsthermiques pour comprendre l’influence d’un ajout de niobium sur cesdeux propriétés. / Stainless steels are used in some industries requiring mechanicalproperties and corrosion resistance. Lean duplex have higher corrosionresistance and mechanical properties than the austenitic stainless steels.However, their machinability is below that of the corresponding austeniticstainless steels. To improve it, some elements can be added in thegrade, like niobium. The aim of this study is to increase machinability oflean duplex grades without degrading their other properties. Differentcontents of niobium were tested in a 1.4362 to understand how thiselement affects the microstructure, the toughness and the pittingcorrosion resistance. With these results optimum niobium content isdefined. Turning and toughness experiments were done on industrial1.4362 grades with and without niobium and with different heatstreatments in order to understand how niobium can influence theseproperties. Aciers inoxydables Duplex Niobium Résilience Usinabilité Stainless steels Duplex Niobium Toughness Machinability Chip Breaking Zone and Quick-Stop
206	Contribution à l'identification et à l'évaluation d'un combustible UO2 dopé à potentiel oxygène maîtrisé / Contribution to the identification and the evaluation of a doped UO2 fuel with controlled oxygen potential Pennisi, Vanessa 20 October 2015 (has links) La température et la pression partielle d’oxygène (PO2) constituent les paramètres majeurs contrôlantles évolutions thermochimiques en réacteur des combustibles nucléaires de type oxyde, et notammentla spéciation des produits de fission potentiellement corrosifs (Cs, I, Te). Pour limiter les risques derupture de la gaine en Zr par corrosion, une solution innovante consiste à imposer au combustible defonctionner dans un domaine de PO2 où les espèces chimiques des gaz de fission sont inoffensives, pardopage in-situ avec un tampon oxydo-réducteur solide. Le niobium, avec ses couples redoxNbO2/NbO et Nb2O5/NbO2, a été identifié comme le candidat le plus prometteur. Un procédé defabrication d’un combustible dopé niobium répondant à cet objectif et conforme aux spécificationsd’usage (densité, microstructure) a été optimisé. L’étude expérimentale du système UO2-NbOx a révélél’existence à 810°C d’une phase liquide entre UO2 et NbO2, non identifiée à ce jour. La caractérisationdes phases solides et en solution du niobium nous a conduit à proposer un modèle thermodynamiquede solubilité du dopant dans UO2 à 1700°C. Une étude approfondie de la spéciation du niobiumprécipité a permis d’identifier la présence simultanée dans le matériau des phases majeures NbO2 etNbO, ainsi que Nb en moindre teneur. La coexistence du niobium sous deux degrés d’oxydationdifférents constitue un élément-clé de démonstration d’un possible effet tampon in-situ, dont l’impactest observé sur certaines propriétés du combustible dépendantes de la PO2, la densification notamment.Les résultats confirment le potentiel prometteur des combustibles tamponnés en PO2 au regard de sesperformances en réacteur. / Temperature and oxygen partial pressure (PO2) of nuclear oxide fuels are the main parametersgoverning both their thermochemical evolution in reactor and the speciation of volatile fissionproducts such as Cs, I or Te. An innovative way to limit the risk of cladding rupture by corrosionunder irradiation consists in buffering the oxygen partial pressure of the fuel under operation in a PO2domain where the fission gas are harmless towards Zr clad, by using solid redox buffers as additives.Niobium, with its NbO2/NbO and Nb2O5/NbO2 redox couples has been found to be a promisingcandidate to this end. A manufacturing process of a buffered UO2 fuel, doped with niobium has beenoptimized, in order to fulfill usual specifications (density, microstructure). The experimental study ofthe UO2-NbOx system has shown the existence of a liquid phase between UO2 and NbOx at 810°C,which was not reported in the literature. The characterization of Nb containing phases present in UO2both in solid solution and as precipitates has lead us to propose a solubility thermodynamic model ofniobium in UO2 at 1700°C. An extensive study of the niobium precipitates shows the co-existence inthe fuel of NbO2 and NbO as major phases, together with small amounts of metallic Nb. The coexistenceof niobium under two oxidation states inside the fuel is a key element of demonstration of apossible in-situ buffering effect, which is likely to impact some properties of the material that aredependent upon PO2, such as densification. These results confirm the promising potential of oxygenbuffered fuels as regard to their performance in reactor. UO2 Combustible dopé Niobium Tampon redox Pression partielle d’oxygène Combustible tamponné UO2 Oxide fuels Niobium Redox buffer Oxygen partial pressure Oxygen buffered fuel Additives 541.38
207	Nouvelles voies de synthèses du paracétamol et de son précurseur / New synthetic routes to paracetamol and its precursor synthesis Joncour, Roxan 11 December 2014 (has links) Le paracétamol est un analgésique parmi les plus consommés dans le monde. Les synthèses actuelles de cette molécule induisent la formation de quantités non-négligeables de sels ou de produits secondaires non valorisables. En plus d'induire de faibles économies d'atomes, la présence de ces déchets engendre des surcoûts importants pour la synthèse du paracétamol dus aux lourds traitements des réactions. Les objectifs de la thèse étaient à la fois de proposer une synthèse plus respectueuse de l'environnement mais également économiquement viable. En ce sens, deux synthèses du paracétamol ont été étudiées. La première synthèse étudiée concerne la réduction sélective du nitrobenzène en p-aminophénol, l'intermédiaire clé du paracétamol. Cette synthèse nécessite typiquement une quantité importante d'acide sulfurique qui est corrosif et engendre la formation de sels (sulfate d'ammonium) importante. Un catalyseur acide recyclable à base d'oxyde de niobium a été utilisé et associé à l'acide sulfurique. Ainsi les sélectivités en aminophénol de 74 % sans catalyseur de niobium ont été améliorées à 82 % en présence de ce catalyseur. En outre, la quantité d'acide sulfurique a été réduite au minimum sans pertes significatives de sélectivité. La deuxième synthèse est la substitution de l'hydroquinone par l'acétate d'ammonium en milieu acide acétique. Cette synthèse innovante s'est révélée être particulièrement performante car elle induit la formation du paracétamol en une étape en partant d'un produit disponible en grande quantité, avec de très bons rendements et sélectivités. De plus, un test à large échelle a permis de montrer que le paracétamol produit est facilement récupérable par précipitation et l'acide acétique récupérable par distillation. Enfin, la réaction a été testée avec succès à d'autres polyhydroxybenzènes et aux naphtols / Paracetamol is an analgesic among the most consumed in the world. Currents syntheses of paracetamol induce a quantity of salts and non-reusable by-products. These wastes lead to both a low atom economy and a high process cost due to the work-ups. The main objectives of this thesis were to propose eco-friendly and competitive synthesis of paracetamol. Two syntheses have been studied. The first one was the selective reduction of nitrobenzene to p-aminophenol, the key intermediate of paracetamol. This synthesis requires a large amount of sulphuric acid which is corrosive and induces salts formation. A reusable niobium oxide-based catalyst has been associated with sulphuric acid. This association gave better selectivities to aminophenol (82%) compare to sulphuric acid alone (74%). Moreover, the quantity of sulphuric acid has been minimized without significant loss of selectivities. The second synthesis study was the hydroquinone substitution to paracetamol with ammonium acetate in acid acetic. This new synthesis is very powerful due to the one-step synthesis of paracetamol from bulk quantity available products, with very good conversion and selectivity. Moreover, a large scale synthesis has been tested which demonstrates that paracetamol and acetic acid were easily recovered by precipitation and distillation, respectively. The reaction has been successfully extended to other polyhydroxybenzenes and naphtols Paracétamol P-aminophénol Nitrobenzène hydrogénation Réarrangement de Bamberger Niobium Catalyse Hydroquinone Amidation Acétate d’ammonium Paracetamol P-aminophenol Nitrobenzene hydrogenation Bamberger rearrangement Niobium Catalysis Hydroquinone Amidation Ammonium acetate 541
208	Metallurgy and superconductivity of niobium-titanium-tantalum ternary alloy systems Li, Na 13 April 2001 (has links) The metallurgy and superconductivity of the Nb-Ti-Ta ternary alloy system were studied. The Nb-Ti, and Ta-Ti binary samples, and Nb-Ti-Ta ternary samples were precipitation heat treated under different schedules. After the precipitating heat treatment, the samples were characterized by X-Ray Diffraction (XRD) techniques. Equilibrium binary and ternary phase diagrams based on the different alloy compositions and heat treatment temperatures were developed. The Ta-Ti binary phase diagram is very close to the ASM standard phase diagram. The ��-phase boundary of Nb-Ti binary phase diagram developed here is at a higher temperature relative to the ASM standard one. A working ternary equilibrium phase diagram for the Nb-Ti-Ta system has been developed that is based on the experimental measurements and quantitative thermodynamic calculations. Measurements of superconducting critical temperature, Tc, show a good agreement with previous measurements of Tc in the ternary alloys. / Graduation date: 2002 Niobium-tantalum alloys -- Metallurgy Tantalum alloys -- Metallurgy Ternary alloys -- Metallurgy Superconductivity
209	Ferroelectricity in free niobium clusters Moro, Ramiro Alfredo 01 December 2003 (has links) No description available. Ferroelasticity Niobium Magnetic properties Tantalum Magnetic properties Vanadium Magnetic properties Polarization (Electricity) Vanadium Magnetic properties Ferroelasticity Niobium Magnetic properties Polarization (Electricity) Tantalum Magnetic properties
210	Sintese e caracterizacao de vidros niobofosfato de bario e potassio para aplicacoes como matriz hospedeira de ions de terras raras SENE, FRANK F. 09 October 2014 (has links) Made available in DSpace on 2014-10-09T12:46:35Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T13:58:19Z (GMT). No. of bitstreams: 1 08329.pdf: 6162183 bytes, checksum: 3160f070ec997b983dcab9969e9c257e (MD5) / Tese (Doutoramento) / IPEN/T / Instituto de Pesquisas Energeticas e Nucleares - IPEN/CNEN-SP glass phosphate glass niobium barium potassium synthesis niobium oxides doped materials rare earths structural chemical analysis optical properties mechanical properties laser materials

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