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21	Behavior of cutting tool coating material Ti<sub>1-x</sub>Al<sub>x</sub>N at high pressure and high temperature / Faser i Ti<sub>1-x</sub>Al<sub>x</sub>N-ytbeläggningar vid högt tryck och hög temperatur Dilner, David January 2009 (has links) <p>The high pressure and high temperature (HPHT) behavior of Ti<sub>1-x</sub>Al<sub>x</sub>N coatings on cutting tool inserts have been of interest for this diploma work. A literature study of HPHT techniques as well as measurement methods has been done. A diamond anvil cell (DAC) would be a good device to achieve high pressure and high temperature conditions on small samples. Another way to obtain these conditions would be a cutting test, which has been performed on a Ti<sub>1-x</sub>Al<sub>x</sub>N coated cutting tool insert with x = 0.67. Also a cubic press could be used to apply HPHT on a Ti<sub>1-x</sub>Al<sub>x</sub>N sample or a large volume press on a whole cutting tool insert. To measure hardness on thin coatings a nanoindentor could be used, which have been done on heat-treated Ti<sub>0.33</sub>Al<sub>0.67</sub>N and TiN samples. X-ray diffraction (XRD) is a suitable method to measure phase composition of a sample and was performed on the cutting tested insert as well as on an untreated reference insert. Three ways to continue this project have been outlined all starting with more comprehensive cutting tests.</p> thin film physics hard coatings Ti1-xAlxN diamond anvil cell high pressure and high temperature cutting tools cutting test nanoindentation XRD Material physics with surface physics Materialfysik med ytfysik
22	Behavior of cutting tool coating material Ti1-xAlxN at high pressure and high temperature / Faser i Ti1-xAlxN-ytbeläggningar vid högt tryck och hög temperatur Dilner, David January 2009 (has links) The high pressure and high temperature (HPHT) behavior of Ti1-xAlxN coatings on cutting tool inserts have been of interest for this diploma work. A literature study of HPHT techniques as well as measurement methods has been done. A diamond anvil cell (DAC) would be a good device to achieve high pressure and high temperature conditions on small samples. Another way to obtain these conditions would be a cutting test, which has been performed on a Ti1-xAlxN coated cutting tool insert with x = 0.67. Also a cubic press could be used to apply HPHT on a Ti1-xAlxN sample or a large volume press on a whole cutting tool insert. To measure hardness on thin coatings a nanoindentor could be used, which have been done on heat-treated Ti0.33Al0.67N and TiN samples. X-ray diffraction (XRD) is a suitable method to measure phase composition of a sample and was performed on the cutting tested insert as well as on an untreated reference insert. Three ways to continue this project have been outlined all starting with more comprehensive cutting tests. thin film physics hard coatings Ti1-xAlxN diamond anvil cell high pressure and high temperature cutting tools cutting test nanoindentation XRD Material physics with surface physics Materialfysik med ytfysik
23	Exploring Nuclear Magnetic Resonance at the Highest Pressures Meißner, Thomas 10 June 2013 (has links) (PDF) Die vorliegende Arbeit beschäftigt sich mit der Entwicklung und Anwendung der Kernmagnetresonanz (NMR) unter extremen Drücken bis 101 kbar. Es wird gezeigt, dass die Empfindlichkeit von NMR Experimenten unter hohen Drücken in Diamantstempel- und ähnlichen Hochdruckzellen im Vergleich zu früheren experimentellen Versuchsanordnungen durch Verwendung von Mikrospulen um mehrere Größenordnungen verbessert werden kann. Die neue Versuchsanordnung wird dann zum einen bei der Untersuchung der Druckabhängigkeit elektronischer Eigenschaften von metallischem Aluminium bis 101 kbar verwendet. Zum anderen wird damit der Pseudogap des Hochtemperatursupraleiters YBa2Cu4O8 bei Drücken bis zu 63 kbar untersucht. Hochdruck Diamant Druck Zelle NMR Kernmagnetresonanz Festkörper NMR high pressure diamond anvil cell condensed matter high temperature superconductor pseudogap ddc:530
24	Extending the Search Space for Novel Physical Forms of Pharmaceuticals and Biomolecules using High-Pressure Techniques Saouane, Sofiane 30 September 2015 (has links) No description available. 910 550 Crystallisation Polymorphism Single-crystal X-ray diffraction Crystallography Active pharmaceutical ingredients Raman spectroscopy Cyclodextrins Ionic liquids High pressure Diamond Anvil Cell
25	Structural Studies of Boron Nitride Compounds Under Extreme Conditions Sterling, Spencer 27 October 2021 (has links) This document will present the work done on BN under high pressure conditions, both at room temperatures and at high temperatures under laser heating conditions. These experiments are performed to identify possible phase transitions within the BN system and characterize the materials present under the given conditions using a mixture of X-ray diffraction and Raman and infrared spectroscopies are employed. A review of the background and motivations for studies of BN under extreme conditions, as well as the techniques employed, is given as an introduction. A phase transition from hexagonal boron nitride (hBN) to wurtzite boron nitride (wBN) is observed beginning at 9 GPa and room temperature, with coexistence of the two phases until 14 GPa for hydrostatic conditions and to above 20 GPa for non-hydrostatic conditions. This transition is partially reversible below 2 GPa. The formed wBN has a high concentration of defects. For recovered samples, defects couple with the 532.18 nm excitation laser producing a heating effect, observed as a Raman downshift with increasing laser power. The bulk modulus B0 and pressure derivative of the bulk modulus B0′ of hBN are estimated to be 30.6 ± 0.5 GPa and 8.7 ± 0.7, respectively. The bulk modulus of wBN is estimated to be 392 ± 5 GPa, leading to a Vickers hardness of 68 ± 1 GPa. Extra diffraction lines are observed for hBN samples loaded with N2, indicating a potential new structure arising from a reaction of N2 with hBN, but Raman spectroscopy fails to corroborate this ﬁnding. The crystallinity of the hBN samples and the choice of pressure transmitting medium are shown to have little to no effect on the estimated physical properties of hBN. Laser heating is performed on hBN with various sample assemblies. The effectiveness of different assemblies is discussed. NaCl is used as a pressure and temperature gauge local to the X-ray probe to contrast the stationary ruby pressure gauge and the non-local black body temperature measurement. A large contrast between the two temperature measurements yields doubt that the intended temperatures of around 2000 K are produced in the sample. Observation of the proposed high-pressure high-temperature transition to body-centered tetragonal BN or intercalated BN cannot be conﬁrmed, likely due to insufﬁcient heating. The prospects for studying Li-BN intercalation compounds under extreme conditions is discussed. An initial experiment on the system studied with X-ray diffraction is unable to conﬁrm heating of the material nor the presence of intercalation compounds. Pressure Temperature Crystallography Extreme Conditions hBN Diamond Anvil Cell XRD FTIR Raman Spectroscopy Wurtzite NaCl Intercalation Materials Synchrotron Transition Defects Heating
26	Exploring Nuclear Magnetic Resonance at the Highest Pressures: Closing the Pseudogap under Pressure in a High Temperature Superconductor Meißner, Thomas 30 April 2013 (has links) Die vorliegende Arbeit beschäftigt sich mit der Entwicklung und Anwendung der Kernmagnetresonanz (NMR) unter extremen Drücken bis 101 kbar. Es wird gezeigt, dass die Empfindlichkeit von NMR Experimenten unter hohen Drücken in Diamantstempel- und ähnlichen Hochdruckzellen im Vergleich zu früheren experimentellen Versuchsanordnungen durch Verwendung von Mikrospulen um mehrere Größenordnungen verbessert werden kann. Die neue Versuchsanordnung wird dann zum einen bei der Untersuchung der Druckabhängigkeit elektronischer Eigenschaften von metallischem Aluminium bis 101 kbar verwendet. Zum anderen wird damit der Pseudogap des Hochtemperatursupraleiters YBa2Cu4O8 bei Drücken bis zu 63 kbar untersucht. info:eu-repo/classification/ddc/530 ddc:530
27	Laser ultrasonics in a diamond anvil cell for investigation of simple molecular compunds at ultrahigh pressures / Ultrasons laser dans les cellules à enclume de diamant pour l'étude des composés moléculaires simples à ultrahautes pressions Nikitin, Sergey 19 January 2015 (has links) Le travail que j’ai effectué durant ce doctorat est dédié à l’utilisation de l’ultrason des lasers sous haute pression physique. La recherche est construite en utilisant les récentes techniques de mesure de laser ultrasonique dans une enclume de diamant, conduisant à l’exploration de la propagation du son et de sa détermination suivant la vitesse de l’onde acoustique sous ultra-hautes pressions. La diffusion Brillouin a été appliquée ici pour déterminer l’épaisseur de la glace polycristalline compressée dans l’enclume à diamant sous pressions de mégabars. La technique permet d’examiner les caractéristiques des dimensions des inhomogénéités élastiques et la texture de la glace polycristalline, de ce fait ce processus est commun pour les surfaces de l’enclume à diamant avec des sous micromètres de résolution spatiale via les mesures des variations résolues dans le temps sur la vitesse de propagation du pouls acoustique voyageant dans l’échantillon compressé. Ceci a été appliqué pour mesurer la vitesse acoustique dans du H2O à l’état de glace jusqu’à 84 Gpa. La technique d’imagerie développée contient, pour chaque cristallite (ou groupe de cristallites) dans un ensemble homogène chimique transparent, des informations utiles sur son orientation ainsi que sur sa valeur élastique modulée par rapport à la direction de la propagation du son. Cela répand les bases pour une application réussite sur la déformation de solides sous haut-développement de modèles micromécaniques sous la pression à mégabars. Pour une plus longue durée, ce genre d’expériences répandus sur les minéraux de la terre et avec des températures basses ou hautes, assurerait un progrès important dans la compréhension de la construction de la cape terrestre, son évolution ainsi que celle d’autres planètes. / This PhD research work is devoted to the use of laser ultrasound in high-pressure physics. The research is done using the recently established technique of laser ultrasonic measurements in a diamond anvil cell which allows investigation of the sound propagation and determination of the acoustic wave velocities at ultrahigh pressures. Time domain Brillouin scattering was applied here to depth-profiling of polycrystalline aggregate of ice compressed in a diamond anvil cell to megabar pressures. The technique allowed examination of characteristic dimensions of elastic inhomogeneities and texturing of polycrystalline ice in the direction, normal to the diamond anvil surfaces with sub-micrometer spatial resolution via time-resolved measurements of variations in the propagation velocity of the acoustic pulse travelling in the compressed sample. It was applied to measure the acoustic velocities in H2O ice up to 84 Gpa. The developed imaging technique provides, for each crystallite (or a group of crystallites) in chemically homogeneous transparent aggregate, usable information on its orientation as well as on the value of the elastic modulus along the direction of the sound propagation. This extends the basis for a successful application of highly developed micromechanical models of solids deformation at mbar pressure. On long term, such experiments extended to earth’s minerals and high or low temperatures would insure a significant progress in understanding of convection of the earth’s mantle and thus evolution of this and other planets. Lasers ultrasonics à picosecondes Haute pression Cellules à enclume de diamant Matière condensée (H2O) Oscillations Brillouin Picosecond laser ultrasonics High pressure Diamond anvil cell Condensed matter (H2O) Brillouin oscillations Acoustic properties of H2O up to 84 GPa 534.22
28	Experimental investigation of hydrocarbon formation and transformation under Earth´s upper mantle conditions Kolesnikov, Anton January 2010 (has links) The theory of the abyssal abiotic petroleum origin considers oil and natural gas to begenerated in the Earth’s upper mantle. Hydrocarbons migrate further through the deep faults into the Earth’s crust, where they can form oil and gas deposits in any kind of rock in any kind of structural position. Until recently one of the main obstacles for further development of this theory has been the lack of the data covering processes of generation and transformations of hydrocarbons. Experimental data, presented in this thesis, confirms the possibility of hydrocarbons formation from mantle inorganic compounds (water, Fe, CaCO3 or graphite) at temperature and pressure of the upper mantle (1500 K and 5 GPa). Experiments were carried out in CONAC high pressure device and multianvil apparatus BARS. Compositions of received gas mixtures were similar to natural gas. Quantity of hydrocarbons depended on the cooling regime of reaction mixture under pressure. Slow cooling favored higher quantity. We found that donor of carbon (CaCO3 or graphite) determines formation of “dry” (methane-rich) gas or “wet” (light hydrocarbons-rich) gas. Experiments in laser-heated diamond anvil cells showed that methane and ethane partially react under upper mantle thermobaric conditions (2-5 GPa, 1000-1500 K) to form mixture of hydrocarbons: methane, ethane, propane and n-butane – main compounds of natural gas. Similarity of final product mixture obtained from methane and ethane means thermodynamic stability of hydrocarbons in the thermobaric conditions of the upper mantle and equilibrium character of the observed processes. / QC 20101203 theory of deep abiotic petroleum origin natural gas hydrocarbons methane ethane graphite hydrogen high pressure high temperature CONAC BARS diamond anvil cell Raman X-ray gas chromatography Engineering mechanics Teknisk mekanik
29	Optics and acoustics with a single nano-object : environment effects / Optique et acoustique avec un nano-objet individuel : effets d'environnement Medeghini, Fabio 26 February 2018 (has links) Dans cette thèse, les propriétés d'une nanoparticule unique ont été réglée en modifiant son environnement.Plus spécifiquement, dans la première partie de ce travail, la résonance des plasmons de surface des nanobipyramides d'or individuelles a été étudié expérimentalement dans un milieu sous pression contrôlable et son évolution encadré par modélisations théoriques.Afin d'accéder à l'optique d'une nanoparticule unique tout en générant un environnement sous haute-pression, la combinaison de la spectroscopie par modulation spatial avec la cellule en enclume de diamant a été atteint.Dans la seconde partie de la thèse, les vibrations acoustiques des nanodisques d'or individuels sur a substrat en saphir ont été caractérisé expérimentalement via spectroscopie pump&probe. Une attention particulière a été accordée à leur amortissement en fonction du rapport d'aspect des disques en soulignant la présence des amplifications en factor de qualité.Modélisations numériques ont fourni un aperçu des amplifications observées, montrant que l'hybridations entre modes se produit pour rapport d'aspect spécifiques, potentiellement en atténuant les pertes en énergie acoustique à travers l'interface disque/substrat / In this thesis, the properties of a single nanoparticle have been tuned altering its environment. Specifically, in the first part of this work, the surface plasmon resonance of individual gold nanobipyramids has been experimentally studied under a pressure adjustable surrounding and its evolution physically framed thorough theoretical modeling.In order to access to the single nanoparticle optics while generating a hydrostatic high-pressure environment, a challenging combination of the spatial modulation spectroscopy technique with the diamond anvil cell method has been achieved.In the second part of the thesis, the acoustic vibrations of individual gold nanodisks on sapphire substrate has been experimentally characterized via pump&probe spectroscopy. Particular attention has been paid to their damping as a function of the disks aspect-ratio enlightening the presence of quality-factors enhancements.Numeric modeling has provided a physical insight for the observed amplifications, showing that modes hybridizations occur at specific aspect-ratios, potentially reducing the acoustic energy loss towards the interface disk/substrate Nanoparticules Haute pression Cellule en enclume de diamant Facteur de qualité acoustique Modes propres de vibration Résonance Spectroscopie pumpe sonde Spectroscopie par modulation spatial Nanoparticles High pressure Diamond anvil cell Acoustic quality factor Vibrational eigenmodes Resonance Pump&probe spectroscopy Spatial modulation spectroscopy 532
30	Étude des propriétés élastiques des verres d’oxydes sous haute pression : implications structurales / Pressure induced structural transformations in glasses Sonneville, Camille 10 July 2013 (has links) Le comportement des verres sous pression, lié à leurs structures topologiques, est un enjeu majeur à la fois fondamental et appliqué. L’anomalie élastique de la silice à 2,5GPa est un phénomène connu et son existence est plus que probable dans le verre de GeO2. Il semblait alors légitime de questionner son existence dans des verres plus répandus de compositions chimiques complexes comme les verres alumino sodo silicatés. L’anomalie élastique a été étudiée in situ par Diffusion Brillouin et Raman pour le verre de GeO2 et trois verres alumino sodo silicaté de compositions chimiques : (Al2O3)X(Na2O)25−X(SiO2)75 où X=0, 6 et 12%. Il a été montré que l’existence de l’anomalie de compressibilité dans le domaine élastique n’était pas réduite qu’à la silice uniquement mais au contraire persistait sur un vaste domaine de compositions chimiques et semblait être liée à la présence d’anneaux à 6 tétraèdres. Au delà de la limite élastique, les modifications structurales à l’origine du phénomène de densification permanente ont été étudiées pour la silice, le verre de GeO2 et six verres d’alumino sodo silicatés (contenant X=0, 2, 6, 9, 12 et 16% d’Al2O3). Tout d’abord nous avons observé par diffusion Brillouin la disparition progressive de l’anomalie élastique de la silice avec la densification. Ce phénomène a été interprété en termes de transformations induites par la pression d’une forme amorphe basse densité (LDA) en une forme amorphe haute densité (HDA) : LDA → HDA. Des études in situ et ex situ par Diffusion Brillouin et Raman, Résonance Magnétique Nucléaire (RMN) et aussi de Spectroscopie d’Absorption des Rayons X proche du seuil (XANES) ont montré que les modifications structurales à l’origine de la densification permanente dépendaient grandement de la composition chimique. En particulier la présence de cation sodique semble favoriser les modifications à courte portée comme la formation d’espèces hautement coordonnées d’aluminium ou encore de silicium ainsi que la dépolymérisation du réseau. Au contraire les verres les plus riches en aluminium semblent montrer une densification plus proche structurellement de celle de la silice pure c’est à dire modifiant principalement l’ordre à moyenne distance avec diminution de l’angle inter-tétraèdre et de la taille des anneaux / The structural study of glasses under pressure is of fundamental interest in Physics, Earth Science and is technologically important for the comprehension of industrial material properties. The elastic anomaly at 2.5GPa in pure silica glass is a well known phenomenon and its existence is more than likely in GeO2 glass. In this work the persistence of the elastic anomaly in more complex and more widely glass compositions as sodium alumino silicate glasses was studied. The elastic anomaly was studied in situ in GeO2 and three sodium alumino silicate glasses by Brillouin and Raman scattering. The studied sodium alumino silicate glasses had the following compositions : (Al2O3)X(Na2O)25−X(SiO2)75 where X=0, 6 et 12% and is the molar percentage of Al2O3. The elastic anomaly was shown to persist in a broad domain of chemical compositions thus its existence is not reduced to pure silica glass. Its existence seems to be linked to the presence of 6 membered rings. Beyond the elastic limit, the structural modifications was studied in pure silica, GeO2 glass and sodium alumino silica glasses (with X=0, 2, 6, 9, 12 et 16% of Al2O3) in order to structurally better understand the densification phenomenon. Firstly the elastic anomaly was studied by Brillouin scattering experiments, was shown to progressively disappear with the densification. This progressive disappearance was interpreted in terms of a progressive structure induced transformation from a Low Density Amorphous form (LDA) into a High Density Amorphous form (HDA) : LDA → HDA. In situ and ex situ studies by Brillouin and Raman scattering, Nuclear Magnetic Resonance (NMR) and X-ray Absorption Near Edge Structure (XANES) showed that the pressure induced structural transformation was highly dependent of the glass chemical composition. For instance the presence of sodium cations promotes short range order modifications, such as formation of highly coordinated species (Al, Si) and network depolymerization. On the other hand, glasses with a high aluminum concentration show a densification process closer to that of pure silica glass, with mainly middle range order structural modifications such as a decrease of the inter-tetrahedral angle or ring size decrease Verres d’oxyde Silice Verres alumino sodo silicatés Dioxyde de Germanium Hautes pressions Cellule à enclume de diamants Presse Belt Diffusion Brillouin Oxide glasses Silica Sodium alumino silicate glasses Germania High pressure Diamond Anvil Cell Belt Press Brillouin Scattering 531

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