Global ETD Search

31	Teplovodná deska s řízeným teplotním polem / Thermal conductive plate with controlled thermal field Masár, Pavol January 2010 (has links) This work deals with design of thermal source of panel shape for scientific biological application. Panel has adjustable surface temperature and thermal gradient. The first part of this work concern with design and numerical modeling of the thermal system, application of materials and arrangement of thermal and cooling devices – Peltier elements. Second part of this work is about construction of the panel and experimental measurement.
32	Effects of Static and Dynamic Thermal Gradients in Gas Chromatography Avila, Samuel 07 January 2021 (has links) Gas chromatography (GC) is an analytical chemistry tool used to determine the chemical composition of a gas sample by separating sample analytes as they travel through a GC column. Recent efforts have been made to understand and control gas chromatography separations with a negative thermal gradient on the column. The present work presents results from thermal gradient GC separations on two GC columns in different configurations (serpentine and radial) in a stainless-steel plate. Methods to fabricate the GC systems capable of isothermal, temperature programmed and thermal gradient separations are presented. Isothermal experimental data from the serpentine column were used to fit retention and dispersion parameters in a transport model that simulates GC separation for hydrocarbons C12-C14. Transport model simulated retention times and peak widths matched experimental values well for isothermal, temperature programmed and thermal gradient separations. The validated transport model was used to study the effect of static (not varying temporally) thermal gradients on GC separations with varying injection widths, injection band shapes and stationary phase thickness. Resolution results from different heating conditions were considered comparable if retention times for each analyte were within 5%. An optimal, static thermal gradient is shown to reduce analyte band spreading from axially-varying velocity gradients with resolution improvements over isothermal separations of up to 8% for analytes with similar retention factors. Static thermal gradients have a larger effect on fronting peak shape than tailing peak shape. Stationary phase distribution acts similar to a velocity gradient and can be corrected by a thermal gradient. Another transport model was created from isothermal experimental data on a commercial column for hydrocarbons C12-C20. An optimal, static thermal gradient does not improve resolution for all analyte pairs. An optimal, dynamic (varying tempo-rally) thermal gradient is created by uniformly increasing the temperature on an optimal, static thermal gradient. Improvements in resolution of up to 20% are achievable over temperature programmed GC separation. A dynamic thermal gradient can also correct for a poor sample injection by creating a temperature trap at the beginning of the column. thermal gradient gas chromatography transport model injection width modeling tailing peak modeling fronting peak modeling stationary phase thickness stationary phase distribution random walk spatially varying temporally varying Engineering
33	Effects of Thermal Gradient and Fines Content on Frost Heave of an Alaska Base Material Homewood, Adam Ray 08 October 2010 (has links) (PDF) The objective of this research was to investigate the effects of thermal gradient and fines content and the interaction between these two factors on the frost heave characteristics of a typical Alaska base material. The laboratory frost heave testing involved one type of aggregate base material, three thermal gradients, and three fines contents in a full-factorial experimental design with two replicates. The aggregate was classified in the American Association of State Highway and Transportation Officials soil classification system as A-1-a; the thermal gradients were 0.15, 0.30, and 0.45 ºC/cm; and the fines contents were 6, 8, and 10 percent. After frost heave testing, a stepwise regression analysis was performed to identify significant independent variables for each of nine separate dependent variables, including frost heave, heave-uptake ratio, steady-state frost heave rate, gravimetric water ingress, and gravimetric water content in each of the five individual lifts tested following frost heave testing. Soil suction, specific gravity, salinity, and hydraulic conductivity testing were also performed on samples prepared at each of the three fines contents to support numerical modeling of the frost heave test results using the computer program ICE-1. The results of the stepwise regression analysis indicate that thermal gradient is a significant predictor of six of the nine dependent variables and that the square of thermal gradient is a significant predictor of five of these six dependent variables. As the thermal gradient increased, the samples experienced decreasing amounts of water ingress and frost heave. However, the data show that neither fines content nor the square of fines content is a significant predictor of any of the dependent variables. Thus, although previous research has shown that higher fines contents are generally associated with greater susceptibility to frost heave, this effect is not manifest in the comparatively small increases in fines contents evaluated in this research. The interaction between thermal gradient and fines content is a significant predictor of only one independent variable. Differences between the modeled and measured frost heave values ranged from 0.01 to 0.92 cm, with the larger differences typically associated with the lowest thermal gradient and the lowest fines content. aggregate base material base course fines content freezing frost heave frost susceptibility hydraulic conductivity matric suction osmotic suction thermal gradient Civil and Environmental Engineering
34	Evaluation of Rigid Pavement Rehabilitation Methods Using an Unbonded Concrete Overlay Ambrosino, Joel D. 24 July 2007 (has links) No description available. Unbonded concrete overlay Rigid pavement rehabilitation PCC instrumentation JRCP JPCP Interstate 86 I-86 Strain Deflection Curling Thermal Gradient Pavement Temperature Loss of support Fracturing techniques Rubbilize Rubbilization
35	Modélisation expérimentale du stockage géologique du CO2 : étude particulière des interfaces entre ciment de puits, roche reservoir et roche couverture / Experimental simulation of the geological storage of CO2 : particular study of the interfaces between well cement, reservoir rock and caprock Jobard, Emmanuel 22 February 2013 (has links) Dans le cadre du stockage géologique de gaz acides, il est impératif de garantir l'intégrité des matériaux sollicités afin d'assurer un confinement pérenne du fluide injecté. Le but de ce travail de thèse est d'étudier, par le biais de modélisations expérimentales, les phénomènes pouvant être responsables de la déstabilisation du système et qui peuvent conduire à des fuites du gaz stocké. Le premier modèle expérimental, appelé COTAGES a permis d'étudier les effets de la déstabilisation thermique provoquée par l'injection d'un gaz à température ambiante dans un réservoir chaud. Ce dispositif a permis de mettre en évidence un transfert de matière important depuis la zone froide (30°C) vers la zone chaude (100°C) conduisant à des modifications des propriétés pétrophysiques. Ces résultats soulignent l'importance de la température d'injection sur la conservation des propriétés d'injectivité du système. Le second modèle, appelé "Sandwich" a permis d'étudier le comportement de l?interface entre la roche couverture (argilite COX) et le ciment de puits. Les expériences batch du modèle Sandwich en présence de CO2 ont permis de mettre en évidence une fracturation de l'interface provoquée par la carbonatation précoce du ciment. Ces résultats soulignent l'importance de l'état initial de la roche couverture dans la séquestration du fluide injecté. Le troisième modèle expérimental est le modèle MIRAGES. Ce dispositif innovant permet d'injecter en continu un flux de CO2 dans un échantillon. Les résultats ont mis en évidence un colmatage partiel de la porosité inter-oolithe à proximité du puits d'injection, ainsi qu'une carbonatation du ciment sous la forme d'un assemblage calcite/aragonite / In the framework of the CO2 storage, it is crucial to ensure the integrity of the solicited materials in order to guarantee the permanent confinement of the sequestrated fluids. Using experimental simulation the purpose of this work is to study the mechanisms which could be responsible for the system destabilization and could lead CO2 leakage from the injection well. The first experimental model, called COTAGES allows studying the effects of the thermal destabilisation caused by the injection of a fluid at 25°C in a hotter reservoir (submitted to the geothermal gradient). This device allows demonstrating an important matter transfer from the cold area (30°C) toward the hot area (100°C). These results highlight the importance of the injection temperature on the injectivity properties and on the possible petrophysical evolutions of the near well. The second model, called ?Sandwich?, allow studying the behaviour of the interface between caprock (COX argillite) and well cement. Indeed, interfaces between the different rock and the well materials represent a weakness area (differential reactivity, fracturing?). Batch experiments carried out with this device in presence of CO2 show the fracturing of the interface caused by the early carbonation of the cement. The third experimental model, called MIRAGES is an innovative device which allows injecting continuously CO2 in a core sample. Samples made of Lavoux limestone and well cement reproduce the injection well at 1/20 scale. Results show a partial filling of the inter-oolithic porosity close to the injection well, and also the carbonation of the cement according to an assemblage of calcite/aragonite Modélisation expérimentale Séquestration géologique du CO2 Gradient thermique Interfaces Ciment de puits Roche réservoir calcaire Roche couverture Experimental simulation Geological storage of CO2 Thermal gradient Interfaces Well cement Carbonated reservoir rock Caprock 628.53
36	Elaboration et caractérisation de composites Alumine/Zircone à vocation orthopédique / Elaboration and characterization of alumina/zirconia composites for orthopedic applications Biotteau, Katia 10 September 2012 (has links) Ce travail de thèse a pour objectif l’élaboration et la caractérisation de composites Alumine/Zircone obtenus par voies conventionnelles, et dédiés à un usage orthopédique. Ces composites présentent une biocompatibilité prouvée, d’excellentes propriétés mécaniques ainsi qu’une grande stabilité. Ils sont plus résistants, plus fiables que l’alumine ou la zircone seules et permettent d’envisager des composants de tailles et formes plus exigeantes mécaniquement. Actuellement ces composites semblent les plus adaptés pour la réalisation de prothèses orthopédiques mais peuvent encore être optimisés via la modification des microstructures. La première partie de ce travail a concerné l’étude de la réalisation industrielle de composants de grande taille à partir d’une poudre. Les différentes étapes de l’élaboration sont traitées : pressage des composants, frittage et usinage. Cette première partie est majoritairement consacrée à l’étude des gradients thermique dans une sphère lors du frittage. Nous montrons qu’il est possible de modéliser et de mesurer les gradients thermiques dans le matériau de manière très réaliste, ainsi que d’obtenir des ordres de grandeur des contraintes mécaniques. On pourra ainsi envisager de tester numériquement les cycles de frittage en fonction de la géométrie des pièces frittées. Nous étudions par ailleurs la possibilité de réaliser un usinage des composants après un traitement de préfrittage, qui permettrait de diminuer les coûts et simplifier l’élaboration de composants de grande taille. La seconde partie de ce mémoire a permis de montrer que différents types de microstructures, présentant des propriétés mécaniques différentes, peuvent être obtenues par simple mélange de poudre. Ceci est possible par l’utilisation d’un traitement thermique adapté, la variation du taux de zircone et grâce à l’ajout de dopants (Si, Ca et Mg) jouant sur la mobilité des joints de grains d’alumine. Lors de l’utilisation de Ca ou Mg, le taux de zircone et la température ont un effet prépondérant sur l’aspect des microstructures, permettant d’obtenir des micro/micro-composites (< 16vol% de zircone et >1500°C) et nano/nano-composites (25vol% de zircone et T < 1500°C). Seul l’ajout conjoint de Si et de Ca pour des échantillons contenant 2,5vol% de zircone permet de conduire à des micro/nano-composites avec une grande proportion de zircone intragranulaire. Les observations sur des composites avec un taux de zircone proche du taux de percolation (16vol%) permettent de mettre en évidence l’ensemble des types de renforcement observés dans la littérature, en fonction de la température et des dopants utilisés. La variété des microstructures obtenues permet de progresser dans le contrôle des microstructures des composites alumine-zircone, mais aussi d’envisager d’autres applications de ces composites en fonction des mécanismes de renforcement observés et de leurs propriétés mécaniques et structurales. / The aim of this work was to elaborate and characterize zirconia toughened alumina composites with different microstructures, using a simple process. These composites are obtained by colloidal process and are dedicated to orthopedic application. ZTA composites offer both higher strength and toughness than alumina, a lower sensitivity to ageing than zirconia, and also a proven biocompatibility. They open the door to component designs not reachable with other, more brittle materials. Nowadays, these composites are the safest for orthopedic implants application, but can still be improved. The first part of our study is dedicated to a numerical modeling of a large femoral head during sintering. It is so possible to obtain a realistic model of thermal and mechanical strain gradient. However, the modeling should be enhanced by a thorough study of the elastic-viscous-plastic behavior of the composite at high temperature. Then some experiments of sintering with various load or pressure and speed should be practice to determine precisely the sintering related strain. The possibility of machining in the pre-sintered state, with the aim of reducing machining costs and simplify the process of large components, is investigated. The second part is focused on the development of various microstructures with specific mechanical properties and reinforcement behaviors. Such structures were achieved by adjusting the amount of zirconia, controlling the grain growth with dopants to improve or inhibit the alumina grain growth (Si, Ca and Mg), and by adjusting the sintering thermal treatment. The use of calcium associated or not with magnesium seems useless as compared to the predominant influence of the zirconia content. Adjusting zirconia amount led to micro-composites (< 16vol% of zirconia and >1500°C) and nano-composites (25vol% of zirconia and < 1500°C). Only Si/Ca co-doped ZTA composites with small amount of zirconia (2.5vol %) leads to almost homogeneous micro/nano composites with a large proportion of intragranular zirconia particles at high temperature. Around the percolation threshold (16vol% of zirconia) all types of reinforcement mechanisms that could be observed in ZTA composites (referred to literature) can be observed, depending on the thermal treatment and the dopants used. The range of microstructures obtained in this study leads us to investigate other applications for these composites depending of its reinforcement behavior and its mechanical and structural properties. Nanocomposite à matrice céramique Alumine Zircone Frittage Dopage Usinage Microstructure du matériau Gradient de température Gradient de densité Méthode des éléments finis Ceramic matrix nanocomposite Alumina Zirconia Sintering Doping Machining Material microstructure Thermal gradient Density gradient Finite element method 620.143 072
37	A Feasibility Study of Thin-Shell Deformable Mirrors with Adaptive Truss Support for Spaced-Based Telescopes Marzette, Russell K., Jr. 19 July 2006 (has links) Space-based telescopes are limit by the payload requirements of existing launch vehicles. Thus, despite distinct advantages the resolution of terrestrial telescopes exceeds space-based telescopes due to larger size and powerful adaptive optics. To overcome payload limitations, a primary mirror technology that is lighter in weight, but no less effective, is required. As this will result in new structural conditions, new approaches to maintaining the optical shape (figure) of the mirror will also be required. This thesis culminates work at the Georgia Institute of Technology in modelling a hexagonal thin-shell deformation mirror manipulated by an adaptive truss. This research specifically examines the feasibility of a surface parallel actuated (SPA) thin-shell CuZr deformable mirror (DM) as an alternative to a typical surface normal actuated (SNA) based mirror. It is believed that by using a thin-shell mirror (100 m or less in thickness) with a light weight substrate, such as a truss, that a significant weight-savings will occur, thus enabling larger space based telescopes. This thesis advances the SPA DM concept by 1) creating a representative model, 2) developing design evaluation methods, 3) evaluating the FEA simulated response of the deformable mirror over Zernike error modes, 4) evaluating the FEA simulated response to select thermal loads, and 5) evaluating the ability of the DM to remove thermal error, and the forces required to do so. Finally, it is concluded that overall the SPA DM concept is feasible. Thermal gradient Truss Substrate Facesheet Space Space-based Active optics JPL Xinetics University of Florida NRO Georgia Tech Mirror Lightweight Surface parallel actuator Surface normal actuation Thin-shell Adaptive optics Deformable mirrors
38	Effect of Step Change in Growth Speed During Directional Solidification on Array Morphology of Al-7 wt% Si Alloy Pakiru, Swapna January 2011 (has links) No description available. Chemical Engineering Materials Science Metallurgy Directional Solidification Step change Growth Speed Morphology Nearest Neighbor Spacing Trunk diameter Side branch length Side branch orientation Al- 7 wt% Si alloy thermal gradient step increase step decrease steady state transition.
39	Évaluation hémodynamique par thermographie infrarouge chez l’enfant après une chirurgie cardiaque Bridier, Armelle 07 1900 (has links) Introduction : L’évaluation hémodynamique des patients critiques est difficile et l'estimation du débit cardiaque par le clinicien est peu fiable. La chaleur des extrémités est utilisée pour évaluer la perfusion périphérique mais reste très subjective. Un gradient thermique élevé entre la température centrale et la température périphérique a été corrélé à une augmentation des résistances vasculaires systémiques et une diminution du débit cardiaque. L'objectif de cette étude est d'évaluer la relation entre le gradient thermique, obtenu par thermographie infra-rouge (TIR), et le ratio d'extraction d'oxygène (O2ER) chez les enfants de 0 à 18 ans ayant eu une chirurgie cardiaque avec circulation extracorporelle. Méthode : Étude observationnelle prospective portant sur les enfants en post opératoire de chirurgie cardiaque avec une circulation extracorporelle. Le gradient thermique entre la température centrale (cantus interne de l’oeil) et périphérique (hallux) obtenue par TIR a été comparé à l’O2ER concomitant dans les 24 premières heures post opératoires. Résultats : 41 patients ont été inclus. Une corrélation faible a été retrouvée entre le gradient thermique et l’O2ER (r = 0.25 p = 0.016). Cette corrélation augmentait pour des niveaux d’O2ER plus élevés. La spectroscopie par proche infra-rouge (NIRS) cérébrale avait aussi une corrélation significative avec le gradient thermique (r = -28 p=0.001). Seul l’âge influençait significativement le gradient thermique. Les agents vasopresseurs et vasodilatateurs n’exerçaient aucune influence. Conclusion : Une corrélation significative mais faible a été retrouvée entre le gradient thermique par thermographie infrarouge et l’O2ER après une chirurgie cardiaque pédiatrique. Une caméra thermique plus sensible et l’acquisition de mesures plus précises du gradient thermique à partir d’un plus grand effectif pourraient améliorer nos résultats. / Introduction: Hemodynamic assessment of critical patients is challenging, and clinician estimation of cardiac output is unreliable. Extremity heat is used to assess peripheral perfusion but remains highly subjective. A high thermal gradient between core and the peripheral temperature has been correlated with increased systemic vascular resistance and decreased cardiac output. The objective of this study was to evaluate the relationship between the thermal gradient obtained by infrared thermography (IRT) and the oxygen extraction ratio (O2ER) in children aged 0 to 18 years, after cardiac surgery with cardiopulmonary bypass. Method: Prospective observational study of children undergoing postoperative cardiac surgery with cardio-pulmonary bypass. The thermal gradient between the central (inner eye cantus) and peripheral (hallux) temperatures obtained by IRT was compared with concomitant O2ER in the first 24 hours postoperatively. Results: 41 patients were included. A weak correlation was found between the thermal gradient and O2ER (r = 0.25 p = 0.016). This correlation increased for higher O2ER levels. Cerebral near infrared spectroscopy (NIRS) also correlated significantly with thermal gradient (r = -28 p=0.001). Only age significantly influenced the thermal gradient. Vasopressor and vasodilator agents had no influence. Conclusion: A significant but weak correlation was observed between thermal gradient by IRT and O2ER after pediatric cardiac surgery. A more sensitive thermal camera and acquiring of more accurate thermal gradient measurements from a larger population could improve our results. Thermographie Infra rouge gradient thermique chirurgie cardiaque ratio d’extraction en oxygène monitoring hémodynamique bas débit cardiaque pédiatrie Infrared thermography thermal gradient cardiac surgery oxygen extraction ratio hemodynamic monitoring low cardiac output pediatrics
40	Microstructure, texture and mechanical property evolution during additive manufacturing of Ti6Al4V alloy for aerospace applications Antonysamy, Alphons Anandaraj January 2012 (has links) Additive Manufacturing (AM) is an innovative manufacturing process which offers near-net shape fabrication of complex components, directly from CAD models, without dies or substantial machining, resulting in a reduction in lead-time, waste, and cost. For example, the buy-to-fly ratio for a titanium component machined from forged billet is typically 10-20:1 compared to 5-7:1 when manufactured by AM. However, the production rates for most AM processes are relatively slow and AM is consequently largely of interest to the aerospace, automotive and biomedical industries. In addition, the solidification conditions in AM with the Ti alloy commonly lead to undesirable coarse columnar primary β grain structures in components. The present research is focused on developing a fundamental understanding of the influence of the processing conditions on microstructure and texture evolution and their resulting effect on the mechanical properties during additive manufacturing with a Ti6Al4V alloy, using three different techniques, namely; 1) Selective laser melting (SLM) process, 2) Electron beam selective melting (EBSM) process and, 3) Wire arc additive manufacturing (WAAM) process. The most important finding in this work was that all the AM processes produced columnar β-grain structures which grow by epitaxial re-growth up through each melted layer. By thermal modelling using TS4D (Thermal Simulation in 4 Dimensions), it has been shown that the melt pool size increased and the cooling rate decreased from SLM to EBSM and to the WAAM process. The prior β grain size also increased with melt pool size from a finer size in the SLM to a moderate size in EBSM and to huge grains in WAAM that can be seen by eye. However, despite the large difference in power density between the processes, they all had similar G/R (thermal gradient/growth rate) ratios, which were predicted to lie in the columnar growth region in the solidification diagram. The EBSM process showed a pronounced local heterogeneity in the microstructure in local transition areas, when there was a change in geometry; for e.g. change in wall thickness, thin to thick capping section, cross-over’s, V-transitions, etc. By reconstruction of the high temperature β microstructure, it has been shown that all the AM platforms showed primary columnar β grains with a <001>β. 629.1

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