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601	L'anisotropie magnétique perpendiculaire induite par oxydation et recuit thermique : de la structure au magnétisme / The magnetic anisotropy induced by oxidation and thermal annealing : From structure to magnetism Mohamed Garad, Houmed 03 April 2012 (has links) Dans le domaine des couches minces (épaisseur~Å) associant un métal magnétique (Fe, Co, Ni) et un élément non magnétique (essentiellement métallique ou isolant), de remarquables propriétés physiques (aimantation, transport) nécessitent des caractérisations structurales fines. En particulier, citons le cas de jonctions tunnel (métal/isolant/métal) à aimantation perpendiculaire qui sont en cours d'étude au laboratoire Spintec (UMR8191 (CEA/CNRS/UJF). Ces nanomatériaux sont déposés par voie physique (pulvérisation cathodique) au sein de ce laboratoire. Ces nanostructures sont également sondées par diffraction aux rayons X au sein de l'Institut Néel (UPR 2940) via une collaboration entre Spintec et une équipe de cet Institut (Surface, interfaces et nanostructures du Département MCMF, Matière Condensée, Matériaux, et Fonctions). Ces mesures de réflectivité X constituent la sonde privilégiée de choix dans la cadre de cette thèse. D'autres voies sont également exploitées: à l'aide des moyens de rayonnement synchrotron tels que la spectroscopie d'absorption de rayons X : EXAFS, XANES et XMCD. La thèse aura pour but d'étudier expérimentalement ces phénomènes en couches continues sur ces empilements à jonction tunnel avec aimantation perpendiculaire. Plus précisément, le travail de thèse permettra de comprendre les mesures magnétiques (effectuées à l'institut Néel notamment par magnétométrie SQUID et HALL à basse température) grâce à une batterie de mesures structurales (diffraction aux rayons X, rasant, figures de pôles, réflectivité, absorption X …). Notamment, l'influence des paramètres de dépôt (types de couches, épaisseurs, recuits) du matériau sont étudiées via la collaboration entre les différents groupes de recherche précédemment cités. Cette thématique s'inscrit d'une part dans le cadre de travaux menés à Spintec et dédiés à la recherche de nouveaux matériaux à forte valeur ajoutée industrielle (sur le stockage d'information à ultrahaute densité sur media discrets par exemple). Elle s'inscrit d'autre part dans le renforcement de liens entre recherches fondamentales (laboratoire propre du CNRS comme l'institut Néel) et appliquées (CEA), avec un recours aux solides compétences en caractérisations structurales et magnétiques de l'Institut Néel. / In the domain of thin film (thickness ~ Å) combining a magnetic metal (Fe, Co, Ni) and a non-magnetic (largely metal or insulator), remarkable physical properties (magnetization, transport) require fine structural characterization. In particular, include the case of tunnel junctions (metal / insulator / metal) with perpendicular magnetization which are being studied in the laboratory Spintec (UMR8191 (CEA / CNRS / UJF). These nanomaterials are deposited by physical (sputtering) in this laboratory. These nanostructures are probed by X-ray diffraction in the Neel Institute (UPR 2940) via collaboration between Spintec and a team of the Institute (Surface, Interfaces and Nanostructures Department MCFP, Condensed Matter Materials and Functions). These reflectivity measurements X are the preferred sensor of choice in the context of this thesis. Other routes are also used: using means such as synchrotron radiation absorption spectroscopy X-ray: EXAFS, XANES and XMCD. The thesis will aim to study these phenomena experimentally in continuous layers on the tunnel junction stacks with perpendicular magnetization. Specifically, the thesis will include the magnetic measurements (performed at the Institut Néel SQUID magnetometry including HALL and low temperature) through a battery of structural. This theme is part of a share in the context of work carried Spintec and dedicated to research of new materials with high added value industries (information storage on ultra-high density of discrete media for example). It registers on the other hand in strengthening links between basic research (CNRS own laboratories as Neel Institute) and applied (ECA), with strong skills in use of structural and magnetic characterization of the Institute Neel. Couches minces Anisotropie perpendiculaire Reflectivité aux Rays X Structures Metal/isolant Extraordinary Hall Effect X Rays Absorption( EXAFS , XANES ) Magnetic layered films Perpendicular Magnetic Anisotropy X rays Reflectivity Metal/Insulator structures Extraordinary Hall Effect 530
602	Utilização de eletrodos de Cu e Au em eletroanalítica: detecção amperométrica de etanol em ar exalado e outras aplicações / Utilization of gold and copper electrodes in electroanalysis: amperometric detection of ethanol in breath and other applications Thiago Regis Longo Cesar da Paixão 12 March 2004 (has links) A potencialidade do eletrodo de cobre em meio alcalino foi demonstrada para o determinação de etanol a +0,6 V vs Ag/AgCl. A participação de espécies solúveis de Cu(III) no processo eletrocatalítico envolvendo a oxidação do etanol foi demonstrada por experimentos utilizando eletrodo disco-anel. A influência do potencial de pré-tratamento no sinal anódico foi investigada e correlacionada com a morfologia dos filmes formados na superfície do eletrodo por EDS (Energy Dispersive X-Ray Spectroscopy), indicando que as espécies de Cu(III) são originadas a partir da oxidação da camada de CuO. As medidas de etanol foram realizadas por amperometria em 0,6 V (vs Ag/AgCl). A repetibilidade das medidas utilizando padrão aquoso de etanol 0,05 % (v/v) foi de 3 % (v/v) e os limites de detecção e quantificação foram de 0,005 % (v/v) e 0,01 % (v/v), respectivamente. Nas condições experimentais otimizadas, o sensor amperométrico foi utilizado para o monitoramento da concentração de etanol no ar exalado (BrAC), que foi convenientemente coletado em um balão de borracha (V = 3 L) e introduzido em uma solução de NaOH 1 mol L-1 (V = 10 mL). O sensor apresentou uma faixa linear para concentrações de etanol em ar exalado na faixa de 0,26 130 mg L-1, operando de acordo com os parâmetros analíticos especificados na Legislação Brasileira para a quantificação de etanol no ar exalado em condutores de veículos automotores. A constante de eliminação de etanol do corpo humano também foi investigada e os resultados concordaram com os valores da literatura. Empregando-se eletrodos de Cu e Au foram também desenvolvidas outras metodologias para a quantificação de dipirona, glicose e ácido ascórbico e sistemas em fluxo. Estudos sobre o desenvolvimento e propriedades de um sistema gerador-coletor foram realizados e o dispositivo foi utilizado em titulações de substâncias redutoras com iodo gerado eletroquimicamente. / A copper disc working electrode in alkaline solutions was demonstrated to act as a suitable amperometric sensor for ethanol determination at +0.6 V vs Ag/AgCl. The participation of free-soluble Cu(III) species in the electrocatalytic process involving the anodic oxidation of ethanol has been demonstrated by rotating ring-disc electrode voltammetry. The influence of the pretreatment potential on the anodic signal was investigated and a correlation with the morphology of the electrode surface characterized by Energy Dispersive X-Ray Spectroscopy (EDS) indicated that the Cu(III) species is originated from the oxidation of a CuO layer. Ethanol measurements were performed in the amperometric mode at 0.6 V (vs Ag/AgCl). The repeatability of the measurements for a 0.05 % aqueous ethanol solution was estimated as 3 %, and the detection and quantification limits were determined as 0.005 % and 0.01 %, respectively. At the optimum experimental conditions, the amperometric sensor was used to monitor the concentration of ethanol in breath (BrAC), which was conveniently collected in a rubber air balloon (volume = 3 L) and introduced in a 1 mol L-1 NaOH working solution (volume = 10 mL). The sensor can measure a person\'s breath ethanol over the concentration range 0.26 - 130 mg L-1 by operating it according to an established protocol, of which the analytical parameters are specified by the Brazilian Legislation for BrAC measurements in drivers. The rate of ethanol degradation in the body was followed, and the results agree with predictions in the literature. Methodologies for the determination of dipyrone, glucose and ascorbic acid were also developed by using Cu and Au electrodes. Features of a dual-band electrochemical cell were investigated towards the development of a generator-collector system, which was employed in titrations with electrogenerated iodine. Ácido ascórbico Amperometria Ar exalado Dipirona Eletrodo de cobre Eletrodo de ouro Etanol Glicose Sistema gerador-coletor em fluxo Titulação em camada delgada Ascorbic acid Breath alcohol Copper electrode Diffusion layer titration Dypirone Electrochemical cell Ethanol Glucode Gold electrode Thin-layered dual-band
603	Optimization of HfO2 Thin Films for Gate Dielectric Applications in 2-D Layered Materials Ganapathi, K Lakshmi January 2014 (has links) (PDF) Recently, high-κ materials have become the focus of research and been extensively utilized as the gate dielectric layer in aggressive scaled complementary metal-oxide-semiconductor (CMOS) technology. Hafnium dioxide (HfO2) is the most promising high-κ material because of its excellent chemical, thermal, mechanical and dielectric properties and also possesses good thermodynamic stability and better band offsets with silicon. Hence, HfO2 has already been used as gate dielectric in modern CMOS devices. For future technologies, it is very difficult to scale the silicon transistor gate length, so it is a necessary requirement of replacing the channel material from silicon to some high mobility material. Two-dimensional layered materials such as graphene and molybdenum disulfide (MoS2) are potential candidates to replace silicon. Due to its planar structure and atomically thin nature, they suit well with the conventional MOSFET technology and are very stable mechanically as well as chemically. HfO2 plays a vital role as a gate dielectric, not only in silicon CMOS technology but also in future nano-electronic devices such as graphene/MoS2 based devices, since high-κ media is expected to screen the charged impurities located in the vicinity of channel material, which results in enhancement of carrier mobility. So, for sustenance and enhancement of new technology, extensive study of the functional materials and its processing is required. In the present work, optimization of HfO2 thin films for gate dielectric applications in Nano-electronic devices using electron beam evaporation is discussed. HfO2 thin films have been optimized in two different thickness regimes, (i) about 35 nm physical thicknesses for back gate oxide graphene/MoS2 transistors and (ii) about 5 nm physical thickness to get Equivalent Oxide Thickness (EOT) less than 1 nm for top gate applications. Optical, chemical, compositional, structural and electrical characterizations of these films have been done using Ellipsometry, X-ray Photoelectron Spectroscopy (XPS), Rutherford Back Scattering (RBS), X-ray Diffraction (XRD), Capacitance-Voltage and Current-Voltage characterization techniques. The amount of O2 flow rate, during evaporation is optimized for 35 nm thick HfO2 films, to achieve the best optical, chemical and electrical properties. It has been observed that with increasing oxygen flow rate, thickness of the films increased and refractive index decreased due to increase in porosity resulting from the scattering of the evaporant. The films deposited at low O2 flow rates (1 and 3 SCCM) show better optical and compositional properties. The effects of post deposition annealing (PDA) and post metallization annealing (PMA) in forming gas ambient (FGA) on the optical and electrical properties of the films have been analyzed. The film deposited at 3 SCCM O2 flow rate shows the best properties as measured on MOS capacitors. A high density film (ρ=8.2 gram/cm3, 85% of bulk density) with high dielectric constant of κ=19 and leakage current density of J=2.0×10-6 A/cm2 at -1 MV/cm has been achieved at optimized deposition conditions. Bilayer graphene on HfO2/Si substrate has been successfully identified and also transistor has been fabricated with HfO2 (35 nm) as a back gate. High transconductance compared to other back gated devices such as SiO2/Si and Al2O3/Si and high mobility have been achieved. The performance of back gated bilayer graphene transistors on HfO2 films deposited at two O2 flow rates of 3 SCCM and 20 SCCM has been evaluated. It is found that the device on the film deposited at 3 SCCM O2 flow rate shows better properties. This suggests that an optimum oxygen pressure is necessary to get good quality films for high performance devices. MoS2 layers on the optimized HfO2/Si substrate have been successfully identified and transistor has been fabricated with HfO2 (32 nm) as a back gate. The device is switching at lower voltages compared to SiO2 back gated devices with high ION/IOFF ratio (>106). The effect of film thickness on optical, structural, compositional and electrical properties for top gate applications has been studied. Also the effect of gate electrode material and its processing on electrical properties of MOS capacitors have been studied. EOT of 1.2 nm with leakage current density of 1×10-4 A/cm2 at -1V has been achieved. Hafnium Dioxide Thin Films High-K Materials Gate Dielectric High-K Gate Dielectric HfO2 Gate Dielectrics Dielectric Thin Films HfO2 Back Gated Graphene Transistors HfO2 Back Gated MoS2 Transistors Dielectrics Metal-Oxide Semiconductor Transistors HfO2 Thin Films 2-D lLyered Materials Instrumentation and Applied Physics
604	Investigations into the Microstructure Dependent Dielectric, Piezoelectric, Ferroelectric and Non-linear Optical Properties of Sr2Bi4Ti5O18 Ceramics Shet, Tukaram January 2017 (has links) (PDF) Ferroelectric materials are very promising for a variety of applications such as high-permittivity capacitors, ferroelectric memories, pyroelctric sensors, piezoelectric and electrostrictive transducers and electro-optic devices, etc. In the area of ferroelectric ceramics, lead-based compounds, which include lead zirconatetitanate (PZT) solid solutions, occupy an important place because of their superior physical properties. However, due to the toxicity of lead, there is an increasing concern over recycling and disposing of the devices made out of these compounds, which has compelled the researchers around the globe to search for lead-free compounds with promising piezo and ferroelectric properties. Ferroelectric materials that belong to Aurivillius family of oxides have become increasingly important from the perspective of industrial applications because of their high Curie-temperatures, high resistivity, superior polarization fatigue resistanceand stable piezoelectric properties at high temperatures. These bismuth layer-structured ferroelectrics (BLSF) comprise an intergrowth of [Bi2O2]2+ layers and [An+1Bn O3n+1]2- pseudo-perovskite units, where ‘n’ represents the number of perovskite-like layers stacked along the c-axis. ‘A’ stands for a mono-, di- or trivalent ions or a combination of them, ‘B’ represents a small ion with high valencysuch as Ti4+, Nb5+, Ta5+or a combination of them.Ferroelectricity in the orthorhombic phase of these compounds was generally attributed to the cationic displacement along the polar a-axis and the tilting of octahedra around the a- and c-axes. Sr2Bi4Ti5O18(SBT) is ann = 5 member of the Aurivillius family and possess promising ferroelectric and piezoelectric properties that could be exploited for a wide range of applications, including ferroelectric random access memories (FeRAM), piezoelectric actuators, transducers and transformers. Reports in the literaturereveal that the ferroelectricand piezoelectric properties of these oxides can be tuned depending on synthesis routes vis-a-vis micro-structural aspects (texture, grain size) and site specific dopant substitutions.In the present study, textured SBT ceramics were fabricated using pre-reacted precursors and their anisotropic dielectric, piezoelectric and ferroelectric properties were demonstrated. Grain size tunability with regard to their physical properties was accomplished in the ceramics, fabricated using fine powders obtained from citrate assisted sol-gel synthesis. The grain size dependent second harmonic generation activity of SBT ceramics was investigated. Enhancement in the piezoelectric and ferroelectric properties of SBT ceramics was achieved by substituting A site ions (Sr2+) with a combination of Na+ and Bi3+. From the perspective of non-linear optical device applications, physical properties associated with the SBT crystallized in a transparent lithium borate glass matrix were studied. The results obtained in the present investigations are organized as follows, Chapter 1 gives a brief exposure to the field of ferroelectrics. The emphasis has been on the ferroelectric oxides belonging to the Aurivillius family. Structural aspects and the underlying phenomena associated with ferroelectricity in these compounds are discussed. A brief introduction to the glasses, thermodynamic aspects of glass formation and fabrication of glass- ceramics are included. Basic principles involved in the non-linear optical activities are highlighted. Chapter 2 describes the various experimental techniques that were employed to synthesize and characterize the materials under investigation. The experimental details pertaining to the measurement of various physical properties are included. Chapter 3 deals with the fabrication of Sr2Bi4Ti5O18 ceramics using the pre-reacted Bi4Ti3O12 and SrTiO3 powders viasolid-state reaction route. These in stoichiometric ratio were uniaxially pressed and sintered at 1130oC for 3 h resulting in textured Sr2Bi4Ti5O18 ceramics. The obtained dense ceramics exhibited crystallographic anisotropy with prominent c-axis oriented grains (Lotgering factor of 0.62) parallel to the uniaxially pressed direction. The resultant anisotropy in the ceramics was attributed to the reactive template-like behavior of Bi4Ti3O12 that was used as a precursor to fabricate Sr2Bi4Ti5O18 ceramics. Dielectric, ferro and piezoelectric properties measured on the ceramics in the direction perpendicular to the uniaxially pressed axis were found to be superior to that measured in the parallel direction. Chapter 4 reports the details pertaining to the synthesis of strontium bismuth titanate (Sr2Bi4Ti5O18) powders comprising crystallites of average sizes in the range of 94–1400 nm via citrate-assisted sol-gel route. X-ray powder diffraction, Transmission Electron Microscopy (TEM) and Raman spectroscopy were employed for the structural studies. A crystallite size-dependent variation in the lattice parameters and the shift in the Raman vibration modes were observed. Second harmonic signal (532 nm) intensity of the Sr2Bi4Ti5O18 powders increased with the increase in the average crystallite size and the maximum intensity obtained in the reflection mode was 1.4 times as high as that of the powdered KH2PO4. Piezo force microscopic analyses carried out on an isolated crystallite of size 74 nm, established its single domain nature with the coercive field as high as 347 kV/cm. There was a systematic increase in the d33 value with an increase in the size of the crystallite and a high piezoelectric coefficient of ~27 pm/V was obtained from an isolated crystallite of size 480 nm. Chapter 5 illustrates the details concerning the fabrication of Sr2Bi4Ti5O18(SBT) ceramics with different grain sizes (93 nm–1.42 μm) using nano-crystalline powders synthesized via citrate assisted sol-gel method. The grain growth in these powder compacts was found to be controlled via the grain boundary curvature mechanism, associated with anactivation energy of 181.9 kJ/mol. Interestingly with a decrease in grain size there was an increase in the structural distortion which resulted in a shift of Curie-temperature (phase transition) towards higher temperatures than that of conventional bulk ceramics. Extended Landau phenomenological theory for the ferroelectric particles was invoked to explain experimentally observed size dependent phase transition temperature and the critical size for SBT is predicted to be 11.3 nm. Grain size dependent dielectric, ferroelectric and piezoelectric properties of the SBT ceramics were studied and the samples comprising average grain size of 645 nm exhibited superior physical properties that include remnant polarization (2Pr) = 16.4 μC cm-2, coercive field (Ec) = 38 kV cm-1, piezoelectric coefficient (d33) = 22 pC N-1 and planar electromechanical coupling coefficient (kp) = 14.8 %. In Chapter 6, the studies pertaining to the fabrication of Sr(2-x)(Na0.5Bi0.5)xBi4Ti5O18 (SNBT) ceramics for various x values (0, 0.1, 0.25, 0.3, 0.4 and 0.5), using fine powders synthesized via sol-gel route are dealt with. X-ray powder diffraction, transmission electron microscopy and Raman spectroscopic studies were carried out to confirm composition dependent structural changes taking place in the SNBT ceramics. Scanning electron microscopic studies carried out on ceramics revealed that dopants played an important role in inhibiting the grain growth. Dielectric constants of the ceramics were found to decrease with an increase in ‘x’. The increase in Curie temperature with increase in ‘x’ is attributed to the decrease in the tolerance factor. Particularly,x = 0.3 composition of the SNBT ceramics exhibited better piezo and ferroelectric properties with a higher Curie-temperature (569 K). The piezoelectric coefficient (d33) and the planar electromechanical coupling coefficient (kp) of SNBT(x = 0.3) were enhanced by 25% and 42% respectively as compared to that of the undoped ceramics. Chapter 7 deals with the glasses in the system (100 –x) {Li2O + 2B2O3} ─x {2SrO + 2Bi2O3 +5TiO2} (where, x = 10, 25 and 35) fabricated via conventional melt-quenching technique. The amorphous and glassy characteristics of the samples were confirmed respectively using X-ray diffraction (XRD) and differential scanning calorimetric (DSC) methods. All the compositions under investigation exhibited two distinct crystallization peaks (exothermic peaks in the DSC traces): the first peak at ~ 545 °C and the second at ~610 °C that were found to be associated with the crystallization of the phases (as confirmed from the XRD studies) Sr2Bi4Ti5O18 (SBT)and Li2B4O7 (LBO) respectively. Non-isothermal crystallization kinetics (using modified Ozawa-type plots) for SBT crystallization in the LBO glass matrix for the compositions x = 10 and 35, indicated three dimensional growth of the crystallites from pre-existing nuclei present in the as-quenched samples and their effective activation energies for crystallization were found to be around 686 ± 85 kJ/mol and 365 ± 53 kJ/mol, respectively. The optical band gap of the as-quenched glasses for the composition x = 35 was 2.52 eV, is less than that of the composition x = 10 (2.91 eV). The Urbach energies for the as-quenched glasses of compositions x = 10, 25 and 35 were found to be 118 ± 2 meV, 119 ± 2 meV and 192 ± 1 meV respectively.The glasses associated with the composition x = 35, on controlled heat-treatment at 515 °C for various durations (1―20 h), yielded glass-ceramics comprising SBT nano-crystals (18―28 nm) embedded in the LBO glass matrix. Compressive strain in the nano-crystallites of SBT, analyzed using Williamson-Hall method was found to decrease with an increase in the crystallite size. The second harmonic generation signal (532 nm) intensity emanating from glass-nanocrystal composites comprising 22.1 nm SBT crystallites was nearly 0.3 times that of a KDP single crystal. Although each chapter is provided with conclusions and a list of references, thesis ends with a separate summary and conclusions. Non-centro Symmetric Materials Ceramics - Non liner Optical Properties Ceramics - Piezo Electric Properties Ferroelectric Hysteresis Ferroelectric Domains Ferroelectric Phase Transition Sr2Bi4Ti5O18 Ceramics Perovskite Materials Glass-nanocrystal Composites (GNCs) Fabrication of Glasses Li2B4O7 (LBO) Te2V2O9 Calcium Bismuth Borate Glasses Tellurium Vanadate SBT Ceramics Materials Engineering
605	Comportement des tôles métalliques à gradient de propriété sous chargement dynamique / Impact behavior of functionally graded multi-layered sheet metals Shi, Feifei 19 August 2015 (has links) Cette étude vise à bien comprendre puis à modéliser le comportement mécanique dans une large plage de vitesse de déformation des tôles d’acier austénitique AISI304 ayant subis un traitement d'attrition mécanique de la surface (SMAT). Ces tôles ainsi traités sont des matériaux multicouches avec un gradient de propriétés. Les principaux résultats obtenus sont résumés comme suit：(1) La sensibilité globale à la vitesse déformation des tôles d’acier austénitique AISI304 traités avec SMAT est caractérisée par des essais de double cisaillement sous chargements quasi-statiques et dynamiques, qui permet d’atteindre une grande déformation sans instabilité géométrique. Des essais de double cisaillement sous impact sont réalisés à l’aide des barres de Hopkinson de grande diamètre et un système d’attache qui a une même impédance acoustique que la barre. Une sensibilité significative a été révélée et on observe ce renforcement n’a pas induit une réduction importante de la ductilité.(2) Dans le but d’un meilleur dépouillement de ces essais de double cisaillement, leur conditions d’essai est analysé dans le détaillé. Le modèle numérique avec le système d’attache a été construit pour étudier l’influence du système d’attache au début de chargement. On trouve un effet limité pour les diverses conditions imparfaites des essais comme la souplesse de système d’attache, des champs mécaniques non-homogènes, l’état de non-équilibre, etc. Par contre, les études numérique et analytique ont démontré que l’hypothèse simple de petites perturbations habituellement utilisé pour le dépouillement de ces essais n’est pas suffisamment précise. La déformation Eulérien cumulée doit être utilisée pour obtenir un résultat numérique correct. A partir de ce résultat, la sensibilité à la vitesse déformation des tôles d’acier austénitique AISI304 traités avec SMAT obtenue expérimentalement a été retouchée.(3) Un modèle multicouche elasto-plastique en dommageable a été proposé pour décrire le comportement des tôles d’acier austénitique AISI304 traités avec SMAT. Les paramètres sont identifiées à partir des essai de traction. La partie elasto-plastique est calée par une loi d’écrouissage de type Ludwig. Par contre, les paramètres d’endommagement sont obtenus avec une méthode d’identification inverse sur la base de simulation numérique de ces essais de traction. Pour valider ce modèle multi-couche elasto-plastique dommageable, un essai d’indentation/perforation est réalisé sur des tôles d’acier austénitique AISI304 traités avec SMAT. Des simulations numériques correspondantes montres que ce modèle multi-couche elasto-plastique en dommageable une prédiction plutôt précise de ces essais de d’indentation/perforation.(4) Pour évaluer la performance anti-perforation des tôles d’acier austénitique AISI304 traités avec SMAT, des essais de perforation sous impact a été réalisés avec des barres de Hopkinson. Des simulations numériques de ces essais de perforation sous impact sont réalisées avec un modèle numérique comparable avec le cas quasi-statique. ́tant donne que la sensibilité globale à la vitesse déformation des tôles d’acier austénitique AISI304 traités avec SMAT est caractérisée par des essais de double cisaillement, la sensibilité à la vitesse a été introduite dans le modèle multi-couche elasto-plastique en dommageable. Le résultat numérique correspond bien à la mesure expérimentale, ce qui indique non seulement l’efficacité du modèle numérique mais aussi celle du modèle multicouche elasto-plastique en dommageable. / This Ph.D dissertation aimed at the comprehensive understanding and the constitutive modeling of the mechanical behaviours of the surface mechanical attrition treatment (SMAT) treated AISI304 stainless steel sheet under a large range of loading rates. SMAT treated AISI304 stainless steel sheets are multi-layered functionally graded materials (FGM). The main research results and conclusions are summarized as followed:(1) The overall rate sensitivity SMAT treated AISI304 stainless steel sheet is characterized by the double shearing test under quasi-static and dynamic loading where a large strain can be achieved without geometry instability. Impact double shear test are performed with a large diameter Hopkinson bar system and an adapted equal-impedance clamping device. Significant rate sensitivity is found. It is also observed that such a rate enhancement does not induce an important reduction of the ductility.(2) In order to extract accurate material information from the double shear tests, their testing conditions are thoroughly analyzed using numerical simulation. Numerical models including clamping devices have been built to investigate the influence of this clamping device at the early stage of loading. A limited effect was found for various imperfect testing conditions such as the clamping device stiffness, non-homogeneous stress and strain fields, non-equilibrium state, etc. On the contrary, numerical and analytical study shows that the simple small strain assumption usually used in double shear tests are not accurate enough. Eulerian cumulated strain definition should be used to get consistent numerical results. From this finding, the experimental rate sensitivity obtained for the SMAT treated AISI304 stainless steel sheet are recalculated.(3) A multi-layers elastic plastic damageable constitutive model is proposed to model SMAT treated AISI304 stainless steel sheet. The parameters are identified using tensile testing results. The elastic plastic behavior is curve fitted with a simple Ludwig hardening model. However, the damage parameters should be identified using an inverse method on the basis of numerical simulation of these tensile tests. In order to validate this multi-layer elastic plastic damageable constitutive model, indentation/piercing tests on SMAT treated AISI304 stainless steel sheet are performed. Numerical simulation of this indentation/piercing tests is also realized. It is found that the identified multi-layer elastic plastic damageable constitutive model allows for a quite accurate prediction of the experimental piercing tests.(4) In order to evaluate the impact anti-piercing capacity of the SMAT treated AISI304 stainless steel sheet, the impact perforation tests using Hopkinson bar are carried out. Numerical simulation of these impact perforation tests are realized with a similar FEM model as the quasi-static case. As the rate sensitivity of SMAT treated AISI304 stainless steel sheet is experimentally characterized with double shear test, a rate sensitive multi-layer elastic plastic damageable constitutive model is introduced. The numerical results agree well with the experimental ones, which indicates the effectiveness of the numerical model as well as the rate sensitive multi-layer elastic plastic damageable constitutive model. Mécanique des matériaux Sensibilité à la vitesse Essais de double cisaillement Barres de Hopkinson Modèle elasto-plastique dommageable Rate sensitivity Double shear tests Hopkinson bars Elastic plastic damageable model SMAT treated AISI304 stainless steel
606	Etude des propriétés structurales, morphologiques et électrochimiques de couches minces de nanocomposites hybrides de type hydroxyde double lamellaire (HDL) / biomolécules : application aux biocapteurs de polyphénols / Study of the structural, morphological and electrochemical properties of thin films of hybrid nanocomposites made of layered double hydroxide (LDH) / biomolecules : application to the design of polyphenols biosensors Soussou, Asma 02 December 2016 (has links) Les polyphénols sont des bioproduits générés par le métabolisme des végétaux. Récemment, ils ont attiré l’attention par leur impact potentiellement positif sur la santé, en grande partie lié à leur capacité antioxydante. Ils interviennent également dans les arômes de vin, café, thé… et intéressent donc l’industrie agroalimentaire. Le développement de biocapteurs adaptés à ces molécules est donc nécessaire, tout en respectant certains critères (simplicité d’utilisation, rapidité de la mesure, faible coût). Dans le cas des biocapteurs enzymatiques, l’étape déterminante est l'immobilisation de l’enzyme sur la surface du transducteur sans affecter ses performances.Dans cette thèse nous avons utilisé des matériaux de type « hydroxyde double lamellaires » (HDLs) comme matrice d’immobilisation de la tyrosinase, enzyme reconnaissant spécifiquement les polyphénols, afin de fonctionnaliser la surface d’électrodes d’or sérigraphiées. L’objectif était d’élaborer des microbiocapteurs pour détecter les polyphénols extraits du thé vert.Les HDLs ont été synthétisés par la méthode de coprécipitation directe, puis caractérisés par différentes méthodes physiques (spectroscopies Raman et infrarouge, diffraction des RX) afin de confirmer leur composition et de définir leur structure cristalline. Puis, des films minces bidimensionnels de HDL de différentes compositions ont été réalisés en faisant varier différents paramètres comme la nature du substrat, la concentration de la solution initiale de HDL et la méthode de dépôt (auto-assemblage « SAM » ou spin coating). L’étude morphologique de ces films a été réalisée par microscopie de force atomique (AFM) afin d’optimiser l’état de surface avant l’immobilisation de la tyrosinase. Le greffage de cette dernière a également été étudié par AFM. Enfin, une étude électrochimique (par voltammétrie cyclique et chronoampérométrie) nous a permis de déterminer les caractéristiques analytiques des microbiocapteurs ampérométriques ainsi élaborés. Les résultats ont montré que nos systèmes présentent une grande sensibilité aux polyphénols et sont capables de détecter ces molécules grâce à leur oxydation et aussi à la réduction des composés enzymatiquement générés par la réaction catalytique. Ils sont dynamiques dans une large gamme linéaire de détection (jusqu'à 1000 ng.mL-1) et peuvent également détecter des traces de polyphénols (de m’ordre de quelques pg.mL-1). / Polyphenols are in abundance in diet, being present in various fruits or vegetables, but also in tea or wine. Their antioxidant properties attracted an increasing interest of different researchers in the field of medicine and food manufacturers. Consequently, very intensive studies have been conducted to develop efficient polyphenols biosensors, while respecting certain criteria (simplicity of use, speed of measurement, low cost). In the case of enzymatic biosensors, the decisive step is the immobilization of the enzyme on the transducer surface without affecting its performances.In this thesis, we used layered double hydroxides (LDHs) as a host matrix to immobilize tyrosinase, an enzyme recognizing specifically polyphenols, at the surface of screen printed gold electrodes. Polyphenols used to study the biosensors were extracted from green tea.LDHs nanosheets were prepared by the co-precipitation method. In a first step, their structural properties were characterized by X-ray powder diffraction, Raman and Infra-Red spectroscopies, confirming crystalline phase and chemical composition of LDHs. In a second step, LDHs-thin films were prepared by self-assembly and spin coating deposition under various experimental conditions (nature and concentration of LDHs …), and studied by Atomic Force Microscopy (AFM) to obtain information about the surface morphology of the host matrix before enzyme immobilization. The presence of tyrosinase after the immobilization step was also confirmed by AFM. Electrochemical characteristics of the amperometric biosensors, whose design is based on this study, were determined by cyclic voltammetry and chronoamperometry. This study showed that these systems are highly sensitive to polyphenols, detecting them by their oxidation but also by the reduction of compounds enzymatically generated. They exhibit also other very attractive characteristics for the detection of complex mixture of polyphenols: a large dynamic range (up to 1000 ng.mL-1)and a very low detection limit (few pg.mL-1). Microbiocapteurs Polyphénols Tyrosinase Hydroxyde double lamellaire (HDL) Nanofilms Matrice hôte Fonctionnalisation de surface Nanocomposites hybrides Spin coating Microscopie à force atomique (AFM) Polyphenols micro-biosensor Tyrosinase Layered double hydroxide (LDH) Nanofilms Host matrix Surface fonctionalization Hybrid nanomaterials Spin coating Atomic force microscopy (AFM)
607	Naphthalene based plant regulating compounds : photophysics, direct an polyoxometalate catalysed degradation in homogeneous and heterogeneous media by layered double hydroxides / Etudes de dérivés de naphtalène utilisés comme pesticides régulateurs de la croissance de plantes : caractérisations photophysiques et études de la photodégradation directe et catalysée par les polyoxométalates en phase homogène et en phase hétérogène fixés sur des hydroxydes doubles lamellaires Silva, Eliana Sousa da 29 July 2014 (has links) Résumé non disponible. / Résumé non disponible. Pesticides Régulateurs de croissance des plantes Naphthalèneacétamide Acide naphtyloxy-acétique Pollution de l´eau Photophysique Photocatalyse Polyoxométalates Décatungstate Hydroxydes double lamellaire Macropores Pesticides Plant growth regulators 2-(1-naphthyl) acetamide 2-naphthoxyacetic acid Water pollution Photophysics Excited states Photocatalysis Polyoxometalates Decatungstate anion Layered double hydroxides Macroporous
608	Synthèse, caractérisations structurales et propriétés d'oxydes multifonctionnels A2B2O7 (A = lanthanide; B = Ti, Zr) sous forme massive et en couches minces / Synthesis, structural characterizations and properties of multifunctional oxides A2B2O7 (A = lanthanide ; B = Ti, Zr) in bulk and in thin films Bayart, Alexandre 21 November 2014 (has links) Cette thèse porte sur la synthèse et la caractérisation de nouvelles phases d’oxydes multifonctionnels de la famille Ln2B2O7 avec Ln = lanthanide, B = Ti ; Zr. Ces oxydes présentent de nombreuses propriétés : photocatalytiques, ferroélectriques, piézoélectriques, de luminescence... Sous forme massive, des solutions solides (La1-xLnx)2Ti2O7 avec Ln = Pr à Lu et La2(Ti1-xZrx)2O7 ont été synthétisées par réaction solide-solide. L’étude portant sur la substitution du site Ln a permis de déterminer les limites de stabilité de la phase pérovskite en feuillets en fonction de la nature du lanthanide. Des analyses menées par spectrométrie Raman, ainsi que par spectrofluorimétrie ont mis en évidence des propriétés de luminescence dans les solutions solides (La1-xEux)2Ti2O7 et (La1-xTbx)2Ti2O7, suggérant ainsi la possibilité d’utiliser ces composés pour la fabrication de nouveaux systèmes luminophores. Des couches minces de Ln2Ti2O7 ont été élaborées par ablation laser pulsé, puis caractérisées par diffraction de rayons X haute résolution et par microscopie électronique à transmission haute résolution. Les nouvelles limites de stabilité des films minces à structure pérovskite en feuillets ont pu être déterminées dans le cas de dépôts réalisés sur des substrats de SrTiO3 et LaAlO3 orientés (100) et (110). Le caractère piézoélectrique/ferroélectrique des films de Ln2Ti2O7 cristallisés dans la phase α monoclinique a été confirmé à l’échelle locale par la microscopie à force piézoélectrique. Enfin, nous avons montré que la croissance épitaxiale d’un film de La2Zr2O7 déposé sur SrTiO3-(110) pouvait conduire à l'existence de la ferroélectricité en raison d'une structure pyrochlore géométriquement frustrée et la perte de la symétrie cubique. Ces résultats prometteurs font de ces composés Ln2B2O7 des candidats de premier choix en vue du développement de nouvelles phases oxydes multifonctionnelles. De plus, l’absence de plomb au sein de ces structures, ainsi que leur formidable résistance à la température et à l’irradiation ouvrent des perspectives intéressantes quant à l’utilisation de ces matériaux dans les équipements électroniques et en milieux extrêmes. / This thesis focuses on the synthesis and characterization of new multifunctional Ln2B2O7 oxides phases with Ln = lanthanide, B = Ti, Zr. These oxides possess many properties, including photocatalysis, ferroelectricity, piezoelectricity and luminescence. In bulk form, solid solutions of (La1-xLnx)2Ti2O7 with Ln = Pr to Lu and La2(Ti1-xZrx)2O7 were synthesis by solid-solid reaction. Study on the Ln site substitution highlighted the limits of stability of the layered perovskite depending on the nature of the lanthanide. Analysis carried out by Raman spectroscopy and spectrofluorimetry also permit the detection of luminescence in (La1-xEux)2Ti2O7 and (La1-xTbx)2Ti2O7 solid solutions, suggesting the possibility to use such compounds for fabrication of new phosphor systemes. Ln2Ti2O7 thin films were grown by pulsed laser deposition, and characterized by high resolution X-rays diffraction and high resolution transmission electron microscopy. The new limits of stability of films with layeredperovskite structure have been determined in the case of samples grown on (100)- and (110)-oriented SrTiO3 and LaAlO3 substrates. The piezoelectric/ferroelectrique properties of Ln2Ti2O7 thin films crystallized in the monoclinic α phase were confirmed at the local level by piezoelectric force microscopy measurements. Finally, we have shown the the epitaxial growth of La2Zr2O7 films deposited on (110)-oriented SrTiO3 substrate can induce ferroelectricity for geometrically frustrated pyrochlore structure with the loss of cubic symmetry. These interesting results make Ln2B2O7 compounds promising candidates for the development of new multifunctional oxides. Moreover, the absence of lead in these structures and their resistance to the temperature and irradiation open interesting perspectives for the use of such materials in electronic equipments and in extreme environments. A2B2O7 Solution solide Pérovskite en feuillets Luminescence Couche mince Ablation laser pulsé Cartographie du réseau réciproque Piézoélectrique Ferroélectrique Microscopie à force atomique (AFM) A2B2O7 Solid solution Layered perovskite structure Luminescence Thin film Pulsed laser deposition High resolution X-rays diffraction Reciprocal space mapping Piezoelectric Ferroelectric Atomic force microscopy (AFM) Piezoelectric force microscopy (PFM) 541
609	Popis šíření trhlin v polích silně nehomogenních a reziduálních napětí / Description of Crack Propagation in the Fields of Strongly Non-Homogeneous and Residual Stresses Štegnerová, Kateřina January 2019 (has links) This Ph.D. thesis was written under the supervision of Assoc. Prof. Luboš Náhlík, Ph.D. and Assoc. Prof. Pavel Hutař, Ph.D. Thesis is focused mainly on application of generalized linear elastic fracture mechanics, which allows description of crack behaviour propagating from general singular stress concentrators, such as material interfaces or sharp V-notches, and verification of validity of used fracture criteria. The obtained results were used in the next part of the thesis, which deals with the issue of crack propagating in ceramic composites, where the stress distribution field is strongly influenced by the existence of material interface and presence of residual stresses, that arise during manufacturing process of composite.
610	Analýza metodiky pro navrhování pražcového podloží / Analysis of the procedure for design of trackbed Svobodová, Nikola Unknown Date (has links) The diploma thesis focuses on analysing the current Railway Infrastructure Administration methodology for designing the sleeper substructure concerning the construction's deformation resistance, its comparison with the multi-layered method, which is used in the road engineering and finite element method. It deals with various methodologies of determining the deformation resistance of the track substructure.

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