Global ETD Search

21	Caractérisation de la forme et de la surface de poudres laitières et céréalières : Relations entre propriétés et réactivité des particules / Shape and surface characterization of milk and wheat powders : Relation between properties and reactivity of the particles Murrieta-Pazos, Ingrid 16 October 2012 (has links) Les travaux réalisés dans le cadre de la présente thèse se positionnent dans le contexte de la caractérisation des propriétés de surface des particules. La forme ainsi que les propriétés de surface sont fortement reliées aux propriétés fonctionnelles et à la réactivité des poudres alimentaires. Toutefois, le nombre de techniques disponibles pour l'étude et la caractérisation de la surface d'une particule alimentaire sont très réduites. Ainsi, l'objectif de ce travail a été de développer de nouvelles techniques et protocoles de caractérisation de la forme et de la surface des particules de poudre de lait et de semoule. L'objectif ultime est de mettre en relation les propriétés de surface et la réactivité des particules. Le fil conducteur de ce travail est une approche multi-échelle mettant en jeu différentes techniques d'analyse et de caractérisation. A l'échelle atomique, des techniques pour caractériser la surface et le coeur des particules par EDX ont été développées (permettant de sonder la particule à 1 µm de profondeur). L'adaptation de l'EDX couplé à l'XPS (5 nm de profondeur) permet de remonter à des valeurs de composition de surface (lactose, lipides, protéines) à partir des pourcentages atomiques. A l'échelle moléculaire, les gradients de composition par couplage de l'EDX et l'XPS ainsi que les différentes fractions de matière grasse (matière grasse libre, encapsulée et totale) ont été étudiés. En parallèle, un protocole de caractérisation a permis d'évaluer les propriétés de forme à l'aide d'un granumorpholomètre. L'énergie libre de surface a été déterminée par la CGI et la Monté Capillaire. Ces techniques novatrices dans le domaine des poudres alimentaires ont démontré leur intérêt. Finalement, à l'échelle de la microstructure, la modification de la surface par des contraintes externes a été étudié. Ainsi, les interactions particule/eau et la modification de la surface par enrobage à sec ont été étudiés Pour cela, des composants purs comme enrobant (carbohydrates ou protéines) ont été utilisés / The work carried out on this PhD thesis is positioned in the context of the characterization of the food particle surface properties. The shape and surface characteristics are strongly related to the functional properties and reactivity of food powders. However, the number of techniques available, to perfromethe study and characterization of food particles surface is reduced. Thus, the objective of this work was to develop new techniques and protocols in order to characterize the shape and surface of milk powder and semolina particles. The ultimate goal is to relate the particle surface properties and reactivity. A multi-scale approach raised in this work involves different analytical techniques and characterization. At the atomic scale, techniques to characterize the surface and the heart of particles by EDX were developed (exploration of the particle at 1 micron depth). The adaptation of the EDX coupled to the XPS (5 nm depth) permit figure out the values of surface composition (lactose, fat, protein) from atomic percentages. At the molecular level, the composition gradients studied by coupling the EDX and XPS as well as different fractions of fat (fat free, encapsulated and total) were studied. In parallel, a characterization protocol was used to evaluate the shape properties using a granumorpholometer. The surface free energy was determined by IGC and Capillary rise. These innovative techniques in the field of food powders have demonstrated to be of interest. Finally,a at the microstructural scale, the surface modification by external contraintswas studied. Thus, interactions particle / water and surface modification by dry coating,to do it, pure components as coating (carbohydrates or proteins) were used Réactivité Caractérisation de la surface Poudres de lait Semoule XPS EDX CGI Monté Capillaire Reactivity Surface characterization Milk powder Semolina XPS EDX IGC Capillary Rice 620.43
22	Sputtring av Ti-Si-C-Ag beläggningar från sammansatta sputterkällor / Sputtering of Ti-Si-C-Ag coatings from compound sputter sources Edman Jönsson, Gustav January 2009 (has links) <p>Idag används guld som kontaktmaterial på elektriska kontakter för lågströmstillämpningar. Guldhar emellertid låg nötningsbeständighet, är dyrt och miljömässigt påfrestande att utvinna. Ettalternativt kontaktmaterial till guld är nanokomposit Ti-Si-C-Ag belagt medlikströmsmagnetronsputtring. Nanokomposit Ti-Si-C-Ag har hittills belagts med sammansatt Ti-Si-C sputterkälla och separat silverkälla.</p><p>I detta arbete har filmer belagts från tre olika sammansatta Ti-Si-C-Ag-källor med tre olikakolhalter. Filmerna har belagts i två olika beläggningssystem: Ett konventionellt batchladdat ochett sekventiellt med sluss.</p><p>Filmernas fas- och ämnessammansättning har studerats med XRD och EDX. Tjocklek ochmikrostruktur har analyserats med SEM. Vidhäftning och resistivitet har analyserats medRockwellindentation och ytresistansmätning med fyrpunktsprob. Kontaktresistansen har ävenstuderats i begränsad mån.</p><p>Arbetet visar att ökat kolinnehåll i källan ger kolrikare filmer med större titankarbidkorn.Resistiviteten ökar p.g.a. tilltagen amorf fas mellan kornen men kontaktresistansen sjunker givetduktilare film.</p> / <p>Today gold is used as contact material on electric contacts for low current applications. Gold, however,has low wear resistance, is expensive and environmentally stressful to produce. An alternative contactmaterial to gold is nano composite Ti-Si-C-Ag deposited with DC-magnetron sputtering. Nanocomposite Ti-Si-C-Ag has so far been deposited by a compound Ti-Si-C sputter source with a separateAg source.</p><p>In this work films have been deposited by three different compound Ti-Si-C-Ag sources with threedifferent carbon contents. The films have been deposited in two separate PVD systems: Oneconventional batch loaded and one sequential with a load-lock.</p><p>The phase- and elemental composition of the films has been studied with XRD and EDX respectively.Thickness and microstructure have been analysed with SEM. Adhesion and resistivity has beenanalysed with Rockwell indentation and surface resistivity measurement with four point probe. Contactresistance has also been studied to a limited extent.</p><p>The work shows that the increment of carbon content in the source yields more carbon rich films withlarger titanium carbide crystallites. The resistivity is increasing due to an increased amorphous phasebetween the crystallites but the contact resistance is decreasing due to a more ductile film.</p> PVD thin film physics nanocomposite electric contact XRD SEM EDX PVD tunnfilmsfysik nanokomposit elektrisk kontakt XRD SEM EDX Condensed matter physics Kondenserade materiens fysik
23	Sputtring av Ti-Si-C-Ag beläggningar från sammansatta sputterkällor / Sputtering of Ti-Si-C-Ag coatings from compound sputter sources Edman Jönsson, Gustav January 2009 (has links) Idag används guld som kontaktmaterial på elektriska kontakter för lågströmstillämpningar. Guldhar emellertid låg nötningsbeständighet, är dyrt och miljömässigt påfrestande att utvinna. Ettalternativt kontaktmaterial till guld är nanokomposit Ti-Si-C-Ag belagt medlikströmsmagnetronsputtring. Nanokomposit Ti-Si-C-Ag har hittills belagts med sammansatt Ti-Si-C sputterkälla och separat silverkälla. I detta arbete har filmer belagts från tre olika sammansatta Ti-Si-C-Ag-källor med tre olikakolhalter. Filmerna har belagts i två olika beläggningssystem: Ett konventionellt batchladdat ochett sekventiellt med sluss. Filmernas fas- och ämnessammansättning har studerats med XRD och EDX. Tjocklek ochmikrostruktur har analyserats med SEM. Vidhäftning och resistivitet har analyserats medRockwellindentation och ytresistansmätning med fyrpunktsprob. Kontaktresistansen har ävenstuderats i begränsad mån. Arbetet visar att ökat kolinnehåll i källan ger kolrikare filmer med större titankarbidkorn.Resistiviteten ökar p.g.a. tilltagen amorf fas mellan kornen men kontaktresistansen sjunker givetduktilare film. / Today gold is used as contact material on electric contacts for low current applications. Gold, however,has low wear resistance, is expensive and environmentally stressful to produce. An alternative contactmaterial to gold is nano composite Ti-Si-C-Ag deposited with DC-magnetron sputtering. Nanocomposite Ti-Si-C-Ag has so far been deposited by a compound Ti-Si-C sputter source with a separateAg source. In this work films have been deposited by three different compound Ti-Si-C-Ag sources with threedifferent carbon contents. The films have been deposited in two separate PVD systems: Oneconventional batch loaded and one sequential with a load-lock. The phase- and elemental composition of the films has been studied with XRD and EDX respectively.Thickness and microstructure have been analysed with SEM. Adhesion and resistivity has beenanalysed with Rockwell indentation and surface resistivity measurement with four point probe. Contactresistance has also been studied to a limited extent. The work shows that the increment of carbon content in the source yields more carbon rich films withlarger titanium carbide crystallites. The resistivity is increasing due to an increased amorphous phasebetween the crystallites but the contact resistance is decreasing due to a more ductile film. PVD thin film physics nanocomposite electric contact XRD SEM EDX PVD tunnfilmsfysik nanokomposit elektrisk kontakt XRD SEM EDX Condensed matter physics Kondenserade materiens fysik
24	Développement d'une nouvelle technique d'analyse pour les nanosctructures gravées par plasmas : (S)TEM EDX quasi in-situ / Development of a new analysis technique for plasma etched nanostructures : Quasi in-situ TEM EDX characterization Serege, Matthieu 14 December 2017 (has links) Avec la diminution perpétuelle des dimensions des circuits intégrés, la gravure de dispositifs à l’échelle nanométrique constitue un véritable défi pour les procédés plasma qui montrent des limites dans le cas d’empilement de couches minces notamment. L’anisotropie de gravure réside sur la formation de couches de passivations sur les flancs des motifs, qui agissent comme film protecteur bloquant la gravure latérale par les radicaux du plasma. Cependant, cette fine couche est responsable de l’apparition de pente dans les profils gravés et il est difficile de contrôler son épaisseur. De plus, une deuxième couche réactive est aussi formée en fond de motifs. Les produits de gravures sont formés au sein de cette couche permettant d’augmenter la vitesse de gravure du substrat. Il a récemment été admis que contrôler l’épaisseur de ces couches réactives constitue le paramètre clé pour obtenir une gravure à très haute sélectivité.Cependant, les couches réactives à analyser hautement réactives, en raison de leur forte concentration en halogènes, s’oxydent immédiatement lors de la remise à l’air.Cette étude se propose de développer une approche originale, simple et extrêmement puissante pour observer ces couches de passivation quasi in-situ (sans contact avec l’air ambiant) : Apres gravure, l’échantillon est transporté sous vide à l’intérieur d’une valise spécifique jusqu’à une enceinte de dépôt, où il est alors encapsulé par une couche métallique (PVD assisté par magnétron). L’échantillon ainsi encapsulé peut être observé ex-situ sans modification chimique grâce à des analyses STEM EDX. / As the size of integrated circuit continues to shrink, plasma processes are more and more challenged and show limitations to etch nanometer size features in complex stacks of thin layers. The achievement of anisotropic etching relies on the formation of passivation layers on the sidewalls of the etched features, which act like a protective film that prevents lateral etching by the plasma radicals. However, this layer also generate a slope in the etch profile and it’s difficult to control its thickness. Another thin layer called “reactive layer” is also formed at the bottom of the features. Etch products are formed in this layer allowing a high etch rate of the substrate. It starts to be realized that controlling the thickness of this reactive layer is the key to achieve very high selective processes.However, the layers to be analyzed are chemically highly reactive because they contain large concentrations of halogens and they get immediately modified (oxidized) when exposed to ambient atmosphere.In this work we develop an original, simple and extremely powerful approach to observe passivation layers quasi in-situ (i.e. without air exposure): After plasma etching, the wafer is transported under vacuum inside an adapted suitcase to a deposition chamber where it is encapsulated by a metallic layer (magnetron sputtering PVD). Then, the encapsulated features can be observed ex situ without chemical / thickness modification thanks to (S)TEM-EDX analysis. Gravure plasma Microélectronique Tem edx Fib sem Dépôt physique en phase vapeur Plasma etching Microelectronic Tem edx Fib sem Physical vapour deposition 620
25	O efeitos da temperatura sobre a oxidaÃÃo de nanotubos de carbono / Temperature effects on the oxidation of carbon nanotubes NÃdia Ferreira de Andrade 20 July 2010 (has links) Conselho Nacional de Desenvolvimento CientÃfico e TecnolÃgico / Os nanotubos de carbono apresentam extraordinÃrias propriedades fÃsico-quÃmicas que tÃm sido exploradas para aplicaÃÃes que vÃo desde a ciÃncia de materiais atÃ a biologia. No entanto, a maioria das aplicaÃÃes requer modificaÃÃes quÃmicas dos nanotubos de modo a explorar ao mÃximo seu potencial. Neste contexto, o desenvolvimento de protocolos de tratamento e de purificaÃÃo Ã muito importante. O objetivo deste estudo Ã contribuir para o entendimento de como a mudanÃa de uma variÃvel especÃfica, a temperatura, afeta as propriedades fÃsico-quÃmicas dos nanotubos de carbono de paredes mÃltiplas (MWNTs) durante a purificaÃÃo. Um grama (1g) de MWNTs (Ctube 100, CNT Co. Ltd., Incheon - CorÃia do Sul) foram submetidos a um refluxo de Ãcido nÃtrico 9 mol/L por 12 horas em temperaturas de 25ÂC, 75ÂC, 125ÂC e 175ÂC. ApÃs o refluxo, as amostras foram resfriadas em um banho tÃrmico, filtradas em condiÃÃes de vÃcuo com uma membrana de PTFE de 0, 2 Âm e lavadas com Ãgua deionizada atÃ que o pH neutro do filtrado foi atingido. Por Ãltimo, os MWNTs oxidados foram secos em vÃcuo durante 48 h. As tÃcnicas utilizadas neste trabalho para a realizaÃÃo das caracterizaÃÃes forneceram resultados que tratam desde caracterÃsticas macro e de superfÃcie atÃ as associadas ao nÃvel atÃmico. A estabilidade tÃrmica foi analisada por meio de medidas de TGA, uma vez que muitos dos grupos funcionais criados no tratamento sÃo termicamente instÃveis. A oxidaÃÃo resultante do tratamento introduz grupos polares na superfÃcie dos MWNTs e assim cria a estabilidade eletrostÃtica necessÃria para uma dispersÃo estÃvel em meio aquoso. A estabilidade foi avaliada para cada amostra por meio de medidas de potencial zeta. A quantidade e o tipo de resÃduos catalÃticos presentes nas amostras antes e depois do tratamento foram analisados atravÃs de medidas de EDX e UV-VIS. Medidas de espectroscopia Raman Confocal permitiram a anÃlise especÃfica dos defeitos estruturais criados sobre a superfÃcie dos tubos, em conseqÃÃncia do processo de oxidaÃÃo. Constatou-se que os experimentos Raman devem ser realizados sobre muitos pontos para poder acessar as propriedades mÃdias das amostras. A capacidade de adsorÃÃo da superfÃcie de cada amostra apÃs o tratamento foi inspecionada atravÃs de medidas de Ãrea superficial especÃfica (mÃtodo BET). Ao comparar os resultados de diferentes tÃcnicas, foi possÃvel acessar os efeitos da temperatura do tratamento sobre as propriedades fÃsico-quÃmicas relevantes, permitindo assim a obtenÃÃo de amostras bem caracterizadas que serÃo Ãteis para futuros estudos em Ãreas bio-relacionadas. / Carbon nanotubes exhibit remarkable physico-chemical properties which have been exploited for applications ranging from materials science to biology. However, most of the aplications requires the chemical modification of the nanotubes in order to exploit their maximum potential. In this context, the development of protocols for treatment and purification is very important. The purpose of this study is to contribute for the understand on how the change of a particular purification parameter, temperature, affects the physico-chemical properties of multi-walled carbon nanotubes (MWNTs) during the purification. One gram (1g) of MWNTs (Ctube 100, CNT Co. Ltd., Incheon - South Korea) were subjected to a reflux with nitric acid 9 mol/L for 12 hours at temperatures 25ÂC, 75ÂC, 125ÂC and 175ÂC. After refluxed, the samples were cooled down in a heat bath, filtered in vacuum condition using a PTFE membrane of 0, 2 Âm and washed with deionized water until the neutral pH of the filtrate was reached. Afterwards, the oxidized MWCNTs were dried in vacuum for 48 h. The experimental techniques used in this work to perform the samples characterization provide results that allow to get information from macro and surface characteristics to those associated with the atomic level. Thermal stability was analyzed by TGA measurements, since many of the functional groups created during the treatment are thermally unstable. Oxidation resulting from treatment introduces polar groups on the surface of MWNTs thus creating the electrostatic stability required for a stable dispersion in aqueous medium. The stability was evaluated for each sample by zeta potential measurements. The amount and type of catalytic residues present in the samples before and after treatment were analyzed by means of EDX and UV-VIS. Techniques confocal Raman spectroscopy measurements allowed the specific analysis of the structural defects created on the surface of the tubes as a consequence of oxidation process. It was found that Raman experiments should be performed on may points of the sample in order to access their average properties. The adsorption capacity of the surface of each sample after treatment, were inspected through specific surface area measurements (BET method). By comparing the results of different techniques it was possible to access the effects of temperature on the treatment on the relevant physico-chemical properties thus allowing us to have well characterized samples that will be useful for further studies in biorelated areas. EDX potencial zeta BET TGA purificaÃÃo MWNTs espectroscopia Raman UV-VIS purification MWNTs Raman spectroscopy UV-VIS EDX zeta potential BET TGA FISICA DA MATERIA CONDENSADA
26	The high Arctic summer aerosol : Size, chemical composition, morphology and evolution over the pack-ice Hamacher-Barth, Evelyne January 2017 (has links) Aerosol particles, especially in the high Arctic are still not very well represented in climate models. Particle size and number concentrations are strongly under-predicted and temporal variations of aerosol composition and size are still not very well understood, mainly due to the sparsity of observations. The main objective of this thesis is the characterization of the high Arctic summer aerosol by means of electron microscopy in order to extend the existing data set from previous expeditions by size resolved data on aerosol number, morphology and chemical composition and to gain a better understanding of the evolution of the aerosol in the atmosphere. Ambient aerosol was collected over the pack ice during the Arctic Summer Cloud and Ocean (ASCOS) campaign to the high Arctic in summer 2008. Aerosol particles were evaluated with scanning electron microscopy and subsequent digital image processing to assess particle size and morphology. More than 3900 aerosol particles from 9 sampling events were imaged with scanning electron microscopy and merged into groups of similar morphology which contributed to different degrees to the total aerosol: single particles (82%), gel particles (11%) and halo particles (7%). Single particles were observed over the whole size range with a maximum at 64 nm in diameter, gel particles appeared > 45 nm with a maximum in number at 174 nm, halo particles appeared > 75 nm with a maximum in number at 161 nm. The majority of particles showed the morphology of marine gels, no sea salt or otherwise crystalline particles were observed. Transmission electron microscopy enabled more subtle insights into particle morphology and allowed further subdivision of gel particles into aggregates, aggregates with film and mucus-like particles. Energy dispersive X-ray spectroscopy of individual particles revealed a gradual transition in the content of Na+/K+ and Ca2+/Mg2+ between particle morphologies. Single particles and aggregate particles preferentially contained Na+/K+ whereas aggregate with film particles and mucus-like particles mainly contained Ca2+/Mg2+ suggesting a connection between particle morphology and ion content. Back-trajectory analysis was used to identify aerosol sources and to understand the evolution of the aerosol as a function of the synoptic weather situation. Particle numbers, size and morphology changed with the days the air mass spent over the pack-ice. A morphological descriptor applied to gel particles showed a clear trend suggesting that the contour of the particles becomes sharper and more distinct with increased time spent over the pack-ice. For a very long time over the pack-ice, however, we observed a morphology comparable to freshly emitted particles suggesting aerosol sources over the inner pack-ice. Size resolved aerosol chemical composition measurements were utilized to investigate the inorganic composition of laboratory generated nascent sea spray aerosol particles and ambient aerosol samples collected during ASCOS. A significant enrichment of Ca2+ was observed in submicrometer particles in either case with a tendency for increasing Ca2+ enrichment with decreasing particle size. This has strong implications for the alkalinity of sea spray aerosol particles with consequences for the sulfur chemistry in the marine boundary layer, the hygroscopicity and thus the potential of sea spray aerosol particles to act as cloud condensation nuclei. / <p>At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 4: Manuscript.</p> Arctic aerosol marine gel electron microscopy EDX-spectroscopy chemical composition morphology size distribution
27	Thermobaromètrie des phylloscilicates dans les séries naturelles : conditions de la diagénèse et du métamorphisme de bas degré / Thermobarometry of phyllosilicates in natural fields : diagenesis and low-grade metamorphism conditions Bourdelle, Franck 22 June 2011 (has links) Les illites et les chlorites sont des minéraux ubiquistes dans la plupart des roches diagénétiques. Leurs compositions chimiques dépendent des conditions physiques subies (pression, P ; température, T) et de la composition de l’encaissant (e.g. Vidal et al., 1999 ; Parra et al., 2002a, 2002b). Ces minéraux peuvent donc potentiellement être de très bons marqueurs de l’histoire de l’enfouissement, et sont à la base de nombreuses méthodes empiriques ou thermodynamiques d’estimation des conditions P-T.Une compilation de données naturelles et la comparaison des thermobaromètres existants ont permis d’établir leurs limitations respectives. Pour s’en affranchir, un nouveau modèle ordonné de solution solide pour les chlorites a été développé, qui rend compte des forts contenus en silicium observés dans les chlorites naturelles de basses températures. La calibration de ce nouveau thermobaromètre sur des domaines géologiques variés de BT-BP a été testée sur des analyses de chlorites naturelles de la Gulf Coast (Texas) au pic de température (où les données P-T ont été mesurées in situ) et montre d’excellents résultats. Concernant les illites, le modèle thermodynamique le plus abouti (Dubacq et al., 2010) a également été testé de manière à estimer sa précision. L’étude a été complétée par la quantification de l’influence du fer ferrique. Les analyses chimiques utilisées ont été obtenues grâce à un protocole analytique à haute résolution spatiale. Alliant FIB et MET-EDS, ce protocole a permis une étude microtexturale et chimique fine des chlorites et des illites. Il en ressort que ces minéraux possèdent une diversité intracristalline dans leurs compositions et que la zonation chimique résultante apparaît comme une potentielle source d’erreurs dans la calibration des thermobaromètres, tout en permettant d’envisager la notion d’équilibre à l’échelle locale.Cette approche a été utilisée pour quantifier les trajets P-T d’unités géologiques des Alpes de Glarus. Ces résultats, comparés à ceux obtenus avec des méthodes thermobarométriques conventionnelles, donnent une bonne image des processus d’enfouissement et d’exhumation des roches de basse température. Ainsi, il apparaît que chaque composition enregistre une portion du chemin P-T rétrograde. D’une manière générale, chaque zone d’un même cristal renvoie à une partie de l’histoire de la roche. / Illite and chlorite are ubiquitous in most diagenetic rocks. Their chemical compositions are sensitive to thermobarometric conditions (pressure, P; temperature, T) and the bulk composition (e.g. Vidal et al., 1999; Parra et al., 2002a, 2002b). These minerals can be good indicators of burial history, and are the basis of several empiric or thermodynamic methods to estimate P-T conditions. A compilation of natural data and the comparison of existing thermobarometers allowed to establish their limitations. To circumvent it, an ordered model of solid solution for chlorites was developed which considers Si-rich low-T compositions. The calibration of this new thermobarometer on various LT-LP geologic fields was tested on natural chlorites analysis of Gulf Coast (Texas) at metamorphic peak, and gives accurate results. Concerning illites, the thermodynamic model of Dubacq et al. (2010) was also tested to estimate its precision. The study was completed by the quantification of the Fe3+ effects. Chemical analyses were obtained by an analytical protocol with high spatial resolution. Combining FIB and EDX-TEM, this protocol allowed an accurate microstructural study of chlorites and illites. These minerals have an intracristalline diversity of their chemical composition. The resulting chemical zonation is a potential error in calibration of thermometers, but allowed consideration of local equilibrium.This approach was used to quantify the P-T path of geologic units in Alps (near Glarus). These results, compared to results of conventional thermobarometers, give a good representation of burial and exhumation process for low-T rocks. Thus, the chemistry records a part of retrograde P-T path and each part of a crystal zoning corresponds to a part of rocks history. Thermobarométrie Phyllosilicate Illite Chlorite Diagenèse MET-EDS FIB Thermobarometry Phyllosilicate Illite Chlorite Diagenesis TEM-EDX FIB
28	Tool Life and Flank Wear Modeling of Physical Vapour Deposited TiAlN/TiN Multilayer Coated Carbide End Mill Inserts when Machining 4340 Steel Under Dry and Semi-Dry Cutting Conditions Chakraborty, Pinaki 03 January 2008 (has links) This study investigates the tool wear of advanced PVD TiALN/TiN multilayer coated end mill inserts when dry and semi-dry machining 4340 low alloy medium carbon steel. A factorial design of experiment setup consisting of two levels of speed, three levels of feed, two levels of depth of cut, and two levels of cutting conditions (semi-dry and dry) was used for the study. The combination of cutting conditions that gave the best response for different components of cutting force, cutting power, surface roughness and tool life were determined using MANOVA & ANOVA analysis and Tukey comparison of means test using MINITAB statistical software package. From a study of the Energy Dispersive X ray (EDX) analysis and primary back scatter images obtained from the worn out crater surface of the insert, it was observed that diffusion wear prevailed under both dry and semi-dry machining conditions. A tool life model was developed using multiple regression analysis within the range of cutting conditions selected. A model for flank wear progression was also developed using mixed effects modeling technique using S Plus statistical software package. This technique takes into account between and within work piece variations during end milling and produces a very accurate model for tool wear progression. This is the first time application of the mixed effects modeling technique in metal cutting literature.
29	Thickness Analysis Of Thin Films By Energy Dispersive X-ray Spectroscopy Canli, Sedat 01 December 2010 (has links) (PDF) EDS is a tool for quantitative and qualitative analysis of the materials. In electron microscopy, the energy of the electrons determines the depth of the region where the X-rays come from. By varying the energy of the electrons, the depth of the region where the X-rays come from can be changed. If a thin film is used as a specimen, different quantitative ratios of the elements for different electron energies can be obtained. Unique thickness of a specific film on a specific substrate gives unique energy-ratio diagram so the thickness of a thin film can be calculated by analyzing the fingerprints of the energy-ratio diagram of the EDS data obtained from the film. QC Spectroscopy 450-467
30	Anorganische Kolloide im Wasser der Elbe Opel, Karsten, Hüttig, Gudrun, Zänker, Harald 31 March 2010 (has links) (PDF) Das Wasser der Elbe auf der Höhe von Dresden enthält anorganische Kolloidpartikel, deren Partikelgrößenverteilung nahezu den gesamten kolloidalen Definitionsbereich (1 nm bis 1 µm) überstreicht und die vor allem aus sekundär ausgeschiedener amorpher Kieselsäure sowie aus Oxyhydroxiden des Fe, Al und Mn bestehen. Als wichtigstes Schwermetall führen sie Zn. Ihre Konzentration liegt unter 5×10-1 mg/l, um etwa Faktor 30 unter der Konzentration der Schwebstoffe des Elbwassers (Partikel >1 µm). Wegen ihrer hohen spezifischen Oberfläche sind die Kolloidpartikel als potentielle Träger für Schadstoffe trotz dieser geringeren Massekonzentration nicht gegenüber den Schwebstoffen zu vernachlässigen. Die in der Elbe gemessene Partikelgrößenverteilung ähnelt derjenigen, die zu einem früheren Zeitpunkt im Rhein gefunden worden war. Auch die chemische Zusammensetzung der Kolloidpartikel in der Elbe ist der der Partikel des Rheins ähnlich. Die Konzentration der Kolloidpartikel in der Elbe war aber um Faktor 5 bis 10 höher als im Rhein. Grund für letzteres ist wahrscheinlich der höhere Gehalt des Elbwassers an gelöstem Kohlenstoff (DOC). Im "Bulk" eines Flusses sind kolloidgetragene Schadstoffe - anders als schwebstoffgetragene - vermutlich fast genauso mobil wie echt gelöste. Unterschiede zwischen den Transportgeschwindigkeiten der kolloidgetragenen und der echt gelösten Spurenstoffe treten in bestimmten Situationen auf, in denen das Wasser den "Bulk" eines Flusses verlässt (Sickerbereich unter dem Fluss, Ästuar). Es werden Schlussfolgerungen über die Rolle von Kolloidpartikeln im Ökosystem eines Flusses gezogen und noch bestehende Forschungsdesiderate benannt. colloids particles river water contaminants photon correlation spectroscopy centrifugation filtration REM EDX

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