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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

In-situ subsurface density estimations using a seismic technique

Fourie, Christoffel Johannes Stephanus 16 January 2009 (has links)
A new geophysical method was developed to satisfy a need for in-situ density measurements. Various situations, such as a gravity dam wall requires that density measurements should be done without damage to the structure. The sample volume should also not be that large in order to be sensitive enough for variations. This method measures the in-situ density of the weathered layer and other man made structures, using seismic waves in three directions. The seismic waves utilized are P-waves and S-waves. It is however surface waves that are treated like body waves because they do not separate at this shallow depth. These waves are very sensitive to the attenuation factor, which is in turn sensitive to certain physical properties of the propagation medium. This factor is utilsed when the multi layer problem is encountered. The maximum depth of exploration is 2-5m and depends solely on the seismic skin depth. This method utilises a large base plate. The source is a large sledge hammer and shots are done at each side of the base plate. Different dominant frequencies are identified and used to calculate the densities of the layers associated with that specific frequency. The velocities of the subsurface are determined by small seismic refraction surveys. The method will find application mainly in the civil and engineering geology fields. The main application will be to determine subsurface densities and small movement elasticity modulli for engineers to aid in obtaining adequate design parameters. Case studies on three different geologic environments are presented. The results indicate that this method will be useful, although certain modifications are recommended to make this method even faster and more user friendly. / Thesis (PhD)--University of Pretoria, 2007. / Geology / unrestricted
2

Microstructure-Property Relations Throughout The Powder Metallurgy Process

Tucker, Laura Arias 15 December 2007 (has links)
To produce crack free powder compacts with desirable mechanical properties and uniform densities, a predictive finite element simulation of the powder metallurgy process is necessary (compaction and sintering). The finite element method, through the use of appropriate constitutive material models captures the microstructure-property history after compaction and sintering. A FC-0205 cylinder and FC-0208 automotive main bearing cap were compacted to investigate the microstructure changes at different locations within the parts. Measurements of the pore volume fraction, pore size, pore nearest neighbor, pore aspect ratio, and grain size were performed after compaction for the cylinder after compaction and after compaction and sintering for the MBC. An image analysis methodology was created to measure density in the main bearing cap, and to validate future model results. A comparison between the image analysis and the Archimedes immersion methods demonstrated the reliability of the methods.
3

Accurate Measurements and Modeling of the PpT Behavior of Pure Substances and Natural Gas-Like Hydrocarbon Mixtures

Mantilla, Ivan 2012 August 1900 (has links)
The scale of the energy business today and a favorable and promising economic environment for the production of natural gas, requires study of the thermophysical behavior of fluids: sophisticated experimentation yielding accurate, new volumetric data, and development and improvement of thermodynamic models. This work contains theoretical and experimental contributions in the form of 1) the revision and update of a field model to calculate compressibility factors starting from the gross heating value and the mole fractions of diluents in natural gas mixtures; 2) new reference quality volumetric data, gathered with state of the art techniques such as magnetic suspension densimetry and isochoric phase boundary determinations; 3) a rigorous first-principles uncertainty assessment for density measurements; and 4) a departure technique for the extension of these experimental data for calculating energy functions. These steps provide a complete experimental thermodynamic characterization of fluid samples. A modification of the SGERG model, a standard virial-type model for prediction of compressibility factors of natural gas mixtures, matches predictions from the master GERG-2008 equation of state, using least squares routines coded at NIST. The modification contains new values for parametric constants, such as molecular weights and the universal gas constant, as well as a new set of coefficients. A state-of-the-art high-pressure, single-sinker magnetic suspension densimeter is used to perform density measurements over a wide range of temperatures and pressures. This work contains data on nitrogen, carbon dioxide, and a typical residual gas mixture (95% methane, 4% ethane, and 1% propane). Experimental uncertainty results from a rigorous, first-principles estimation including composition uncertainty effects. Both low- and high-pressure isochoric apparatus are used to perform phase boundary measurements. Isochoric P-T data can determine the phase boundaries. Combined with density measurements, isochoric data provides isochoric densities. Further mathematical treatment, including noxious volume and thermal expansion corrections, and isothermal integration, leads to energy functions and thus to a full thermodynamic characterization.
4

Sample size effects related to nickel, titanium and nickel-titanium at the micron size scale

Norfleet, David M. 30 August 2007 (has links)
No description available.
5

Exploring Transcriptional Heterogeneity in the Postnatal SVZ / Explorer l'hétérogénéité transcriptionnelle dans la SVZ postnatale

Zweifel, Stefan 28 March 2018 (has links)
Une activité germinale persiste après la naissance dans des niches spécialisées du cerveau des mammifères, à savoir le gyrus denté de l'hippocampe et la zone sous-ventriculaire (SVZ) bordant le ventricule latéral. Les cellules souches neurales (NSC) de la SVZ postnatale se différencient en progéniteurs transitoires qui vont générer des neuroblastes migrant à travers la voie de migration rostrale vers le bulbe olfactif, où ils se différencient en neurones. La SVZ génère également des progéniteurs gliaux qui se dispersent dans le parenchyme voisin. Les travaux récents auxquels j'ai participé soulignent la nature hétérogène de la SVZ postnatale, composée de différents microdomaines générant des lignées neurales distinctes. Les objectifs de mon travail de thèse ont permis de : 1) développer de nouveaux moyens pour explorer l'hétérogénéité de la SVZ; et 2) d'identifier et d'étudier le rôle d'un facteur de transcription exprimé par une sous population des NSCs de la SVZ. Objectif 1: La SVZ est une région hautement complexe et irrégulière dans laquelle une forte activité germinale persiste après la naissance. Le caractère hétérogène de la SVZ est évident et des études récentes ont généré une très grande base de données de transcrits, qui sont différentiellement exprimés entre les microdomaines. Cependant, un outil approprié pour l'analyse rapide du niveau d'expression d'une protéine d'intérêt, le long des axes rostro-caudal et dorso-ventral de la SVZ est toujours manquant et nécessaire. Par conséquent, j'ai développé "FlashMap", un logiciel semi-automatique qui permet une analyse rapide des niveaux d'expression de protéines dans le SVZ, basé sur des mesures de densité optique après immunohistochimie. "FlashMap" génère des cartes thermiques facilement lisibles en deux dimensions, qui peuvent être superposées avec précision aux reconstructions tridimensionnelles du système ventriculaire pour une visualisation spatiale fine et rapide. Cette nouvelle approche accélérera la recherche sur la régionalisation de la SVZ, en permettant l'identification de marqueurs (e.g. facteurs de transcription) exprimés dans des régions discrètes de la SVZ. Objectif 2: J'ai utilisé des approches de transcriptomique et de « fate mapping » des NSCs pour étudier la relation entre l'expression régionale de facteurs de transcription et leur différenciation dans des lignées neurales distinctes. Mes résultats supportent un amorçage précoce des NSCs à produire différents types cellulaires en fonction de leur localisation spatiale dans la SVZ. Nos données identifient Hopx comme un marqueur d'une sous population de NSCs qui génère principalement des astrocytes. De façon intéressante, la manipulation de l'expression de Hopx montre des effets mineurs sur l'astrogénèse, mais entraîne des changements marqués quant au nombre de NSCs et de leur descendance. Dans son ensemble, Mes résultats mettent en évidence à la fois une hétérogénéité spatiale des NSCs postnatales ainsi que leur amorçage précoce à produire des types cellulaires distincts / Germinal activity persists in the postnatal mammalian brain in specialized niches, namely the dentate gyrus of the hippocampus and the subventricular zone (SVZ) surrounding the lateral ventricle. Neural stem cells (NSCs) of the postnatal SVZ differentiate into transient amplifying progenitors that will generate neuroblasts migrating through the rostral migratory stream, into the olfactory bulb, where they differentiate into neurons. The SVZ additionally generates glial progenitors that invade the nearby parenchyma. Recent work to which I have participated, highlights the heterogeneous nature of the postnatal SVZ in respect to different microdomains generating distinct neural lineages. The objectives of my PhD work were twice: 1) to develop new means to explore the heterogeneity of the SVZ; and 2) to identify transcription factors expressed by subpopulations of NSCs of the SVZ and acting in their differential specification. Objective 1: The SVZ is a highly complex and irregular region of ongoing postnatal germinal activity. The heterogeneous character of the SVZ is evident and recent studies generated enormous datasets of transcripts, which are differentially expressed between divergent microdomains. However, an appropriate tool for fast analysis of the protein level along the full rostro-caudal and dorso-ventral extend of the SVZ is still missing. Therefore, I developed “FlashMap”, a semi-automatic software that allows rapid analysis of protein levels in the full SVZ, based on optical density measurements after immunohistochemistry. “FlashMap” generates easy readable heatmaps in two dimensions, which can be accurately superimposed on three-dimensional reconstructions of the ventricular system for rapid spatial visualization and analysis. This new approach will fasten research onto SVZ regionalization, by guiding the identification of markers, such as transcription factors expressed in specific SVZ microdomains. Objective 2: I used transcriptomic as well as fate mapping approaches to investigate the relation between regional expression of transcription factors by NSCs and their acquisition of distinct neural lineage fates. Our results support an early priming of NSCs to produce defined cell types depending of their spatial location in the SVZ and identify Hopx as a marker of a subpopulation biased to generate astrocytes. Interestingly, manipulation of Hopx expression showed minor effects on astrogenesis, but resulted in marked changes in the number of NSCs and of their progenies. Taken together, our results highlight transcriptional and spatial heterogeneity of postnatal NSCs, as well as their early priming toward specific lineages and suggest a role for Hopx in the evolution of SVZ germinal activity

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