Global ETD Search

281	Stability of the free-surface problem arising in ice-sheet- and glacier modeling : Numerical investigation and stabilization Löfgren, André January 2023 (has links) This thesis consists of two papers dealing with a stabilization method for free-surface flows. The method was initially developed to stabilize mantle-convection simulations, but is in this work extended to ice-sheet- and glacier modeling. The objective of this thesis is to assess the method when applied glaciological simulations, with regards to stability and accuracy. It is shown that the method works well and increases stable time-step sizes substantially both for ice-sheet- and glacier simulations, without loss of accuracy. The increased stability properties might be useful for performing long-term simulations and increasing sea-level-rise predictions on a centennial time scale. / Denna avhandling består av två artiklar som inom ramen för ismodellering undersöker en stabiliseringsmetod för flöden med en fri yta. Metoden framtogs först för stabilisering av simuleringar av mantelkonvektion, men har i den här avhandlingen anpassats till ismodellering. Avhandlingens mål har varit att utvärdera metoden med avseende på stabiltet och noggrannhet. Från de utförda studierna framkommer det att metoden ökar längden på stabila tidssteg avsevärt, utan att nämnvärt påverka noggrannheten hos islösaren. De ökade stabilitetsegenskaperna hos metoden kan exempelvis innebära ökad nogrannheten i fastställandet av framtida havsnivåhöjning genom möjliggörandet av långtidssimuleringar på en tidsskala av flera hundra år. Ice-sheet modeling glacier modeling ice-sheet dynamics free-surface flow stability stabilization free-surface stabilization algorithm Computational Mathematics Beräkningsmatematik Climate Research Klimatforskning
282	Ultrathin Liquid-Sheet Jets for X-ray Imaging : Gas-Accelerated Liquid-Sheet Jet Nozzles for Sample Delivery Mehlig, Robert Daniel January 2024 (has links) X-ray free-electron lasers (XFELs) can achieve near-atomic resolution in imaging organic molecules. As a fourth-generation light source, modern XFELs can generate brilliant ultrashort X-ray pulses at MHz repetition rates. This allows XFELs to image single molecules with great detail, obtaining information about their dynamics and states through the interaction of the electrons within the molecule with the X-rays. A key challenge when imaging biomolecules (e.g. proteins, viruses, or bacteria) is to image the sample within its native environment, in solution. 3D-printed gas-accelerated liquid-sheet jet nozzles for liquid sample-delivery have yielded promising results in this respect, demonstrating that liquid sheets can be a reliable alternative to conventional sample-delivery methods, e.g. electrospray. Although the nozzles that this project uses have been successfully used for measurements at XFELs, the effect of nozzle design and liquid material-properties have not previously been explored. Therefore, the present report aims to explore different flow regimes of gas-accelerated liquid-sheet jets, and to study how the generated sheet jet depends upon different parameters, such as gas and liquid flow-rates, sample solution, and nozzle geometry. The findings suggest that low surface tension is crucial for producing large jets, and that higher viscosity may help to generate more stable sheet jets. However, further studies are required to draw definite conclusions. Liquid Jet Liquid Sheet Liquid-sheet jet Nozzle Molecular biophysics X-ray diffraction XFEL Sample delivery X-Ray Free-Electron Laser Biophysics Biofysik Physical Sciences Fysik
283	Improving the Rate of Diabetes Preventative Care Practices in a Nurse Practitioner Owned Family Clinic: A Quality Improvement Project Wilson, Kendra Marie January 2016 (has links) Background: Type 2 diabetes mellitus (T2DM) is a complex health condition that impacts multiple organ systems and contributes to both acute and chronic health problems. In the United States (U.S.), T2DM is a growing health concern with increasing prevalence among both adult and pediatric populations (American Diabetes Association [ADA], 2015; Dea, 2011). Developing a comprehensive plan of care that incorporates a multifaceted treatment and prevention plan is necessary to address this growing health concern and reduce overall morbidity and mortality. Problem: The Edmund Primary Care (EPC) practice data for routine annual diabetic foot exams, annual eye exams, annual urine microalbumin, smoking cessation education and recommendations for pneumococcal polysaccharide do not meet the ADA (American Diabetes Association, 2015) recommendations for patients with T2DM.Design: Quality improvement (QI) project applying the Plan-Do-Study-Act (PDSA) cycle to develop a process change to improve diabetic preventative care measures for hemoglobin A1C, urine microalbumin, diabetic foot exams, and optometry referrals. Setting: A small, nurse practitioner owned, family practice clinic targeting patients 18 years and older with a diagnosis of T2DM.Intervention: A fishbone diagram to conduct a root cause analysis led to identification of key factors contributing to the problem. A comprehensive process change integrating a Diabetic Assessment Flow Sheet (DAFS) and diabetic foot exam sheet was developed to address the problem. Expected Outcome: Increase in rates of completion to at least 90% over eight weeks. Results: Analyzed with run charts demonstrating an increase in rates of completion to 100% for A1C, urine microalbumin, diabetic foot exams, and optometry referrals. A positive percent of change for each measure is as follows: A1C 7%; urine microalbumin 43%; diabetic foot exams 150%; and referrals to optometrist 43%. Significance: This QI project emphasizes the importance of implementing a system to evaluate the quality of care being delivered. It also highlights the usefulness of the PDSA cycle as a method to implementing quality improvement measures in health care. Lastly, this QI project demonstrated the effectiveness of flow sheets in improving the quality of care delivered to patients with T2DM. Flow Sheet Nurse Practitioner Preventative Care Quality Improvement Type 2 Diabetes Nursing Clinical Decision Support
284	Bound states near the interface of a distorted graphene sheet and a superconductor Van Zyl, Hendrik Jacobus Rust 12 1900 (has links) Thesis (MSc)--Stellenbosch University, 2011. / ENGLISH ABSTRACT: The goal of this thesis is to investigate the effects of distorting a graphene lattice and connect- ing this distorted graphene sheet to a superconductor. At low energies the possible excitation states in graphene are restricted to two distinct regions in momentum space called valleys. Many electronic applications are possible if one can design a graphene system where excitations can be forced to occupy a single valley in a controllable way. Investigating the spectrum of the distorted graphene sheet reveals that, if the chemical potential is chosen to coincide with a bulk Landau level, the normal-superconductor interface always supports propagating modes in both directions. Excitations from opposite valleys travel in opposite directions along the interface. The spectrum of a distorted graphene sheet terminated by an armchair edge, in contrast, is dis- persionless. We verify this insulating nature of the armchair edge for finite samples by numerical means. Furthermore, we verify previous analytical results pertaining to a graphene sheet with NS interface and an applied perpendicular real magnetic field numerically. In the process, it is shown that considering graphene sheets of perfect width is not necessary, as long as the width a few magnetic lengths away from the interface is well-defined. By then considering a finite graphene sheet, terminated by armchair edges, that is distorted and connected to a superconductor, we find bound states near the NS interface that can be changed by distorting the graphene lattice further. / AFRIKAANSE OPSOMMING: Die doel van hierdie tesis is om die uitwerking van die vervorming van ’n grafeenrooster te ondersoek wanneer die met ’n supergeleier verbind word. By lae energieë word die moontlike opwekkings in grafeen beperk tot twee aparte gebiede van momentumruimte — die sogenaamde valleie. Verskeie elektroniese toepassings is moontlik indien ’n grafeenstelsel ontwerp kan word waar opwekkings slegs ’n enkele vallei beset en die besetting beheer kan word. Deur die spektrum van die vervormde grafeenrooster te ondersoek word daar gevind dat, indien die chemiese potensiaal gekies word om saam te val met ’n Landauvlak, die NS-tussenvlak geleiding in beide rigtings ondersteun. Opwekkings van verskillende valleie beweeg in teenoorgestelde rigtings langs die tussenvlak. Daarteenoor is die spektrum van ’n vervormde grafeenroster met ’n leunstoelrand dispersieloos. Ons bevestig hierdie insulerende gedrag van ’n leunstoelrand vir eindige grafeen- roosters deur middel van ’n numeriese berekening. Verder word vorige analitiese resultate wat verband hou met ’n grafeenrooster met normaal-supergeleiertussenvlakstelsel en loodregte mag- neetveld op die vlak bevestig deur middel van numeriese berekeninge. In die proses word dit ook aangedui dat die grafeenrooster nie ’n perfekte wydte hoef te hˆe nie, solank die wydte goed gedefinieer is vir ’n paar magnetiese lengtes in die omgewing van die tussenvlak. Deur dan die eindige grafeenrooster met leunstoelrande te koppel aan ’n supergeleier word gebonde toe- stande naby aan die NS tussenvalk gevind. Hierdie toestande kan gemanipuleer word deur die grafeenrooster verder te vervorm. Graphene-superconductor Interface Bound states Distorted graphene sheet Dissertations -- Physics Theses -- Physics
285	A transmission electron microscopy study of the development of rollingdeformation microstructures in an interstitial free steel Shen, Kai, 沈凱 January 2004 (has links) published_or_final_version / Mechanical Engineering / Doctoral / Doctor of Philosophy Rolling (Metal-work) Deformations (Mechanics) Microstructure. Strains and stresses. Sheet-steel - Microscopy. Transmission electron microscopy.
286	Remote Acoustic Characterization of Thin Sheets Mfoumou, Etienne January 2006 (has links) There is a need to monitor the existence and effects of damage in structural materials. Aircraft components provide a much publicized example, but the need exists in a variety of other structures, such as layered materials used in food packaging industries. While several techniques and models have been proposed for material characterization and condition monitoring of bulk materials, less attention has been devoted to thin sheets having no flexural rigidity. This study is therefore devoted to the development of a new method for acoustic Non-Destructive Testing (NDT) and material characterization of thin sheets used in food packaging materials or similar structures. A method for assessing the strength in the presence of crack of thin sheets used in food packaging is first presented using a modified Strip Yield Model (SYM). Resonance frequency measurement is then introduced and it is shown, at low frequency range (less than 2kHz), that a change in the physical properties such as a reduction in stiffness resulting from the onset of cracks or loosening of a connection causes detectable changes in the modal properties, specifically the resonance frequency. This observation leads to the implementation of a simple method for damage severity assessment on sheet materials, supported by a new theory illustrating the feasibility of the detection of inhomogeneity in form of added mass, as well as damage severity assessment, using a measurement of the frequency shift. A relationship is then established between the resonance frequency and the material’s elastic property, which yields a new modality for sheet materials remote characterization. The result of this study is the groundwork of a low-frequency vibration-based method with remote acoustic excitation and laser detection, for nondestructive testing and material characterization of sheet materials. The work also enhances the feasibility of the testing and condition monitoring of real structures in their operating environment, rather than laboratory tests of representative structures. The sensitivity of the new experimental approach used is liable to improvement while being high because the frequency measurement is one of the most accurate measurements in physics and metrology. Remote acoustic excitation material characterization acoustic NDT vibration-based technique sheet material evaluation fracture toughness.
287	Quality control test for carbon fiber reinforced polymer (CFRP) anchors for rehabilitation Huaco Cárdenas, Guillermo David 21 September 2010 (has links) Different strategies can be used to repair, rehabilitate and strengthen existing structures. Techniques based on Fiber Reinforced Polymer (FRP) materials appear to be innovative alternatives to traditional solutions because of their high tensile strength, light, weight, and ease of installation. One of the most common and useful FRPs is Carbon Fiber Reinforced Polymer (CFRP) used in sheets and anchors attached on the concrete surface to strengthen the section through addition of tensile capacity. The purpose of this study was develop a technique for assesses the strength of anchors for quality control purpose. However, to transfer tensile capacity to a concrete surface, the sheets are bonded to the surface with epoxy adhesive. As tension increase, CFRP sheets lose adherence of the epoxy from the concrete surface and finally debond. To avoid this failure, CFRP anchors are applied in addition at the epoxy. The CFRP anchors allow the CFRP sheets to utilize their full tensile capacity and maximize the material efficiency of the CFRP retrofit. The number and size of anchors play a critical role. However the capacity of CFRP anchors has not been investigated extendedly. A methodology for assessing the quality of CFRP anchors was developed using plain concrete beams and reinforced externally with CFRP sheets attached with epoxy and CFRP anchors. Applying load to the beam, allowed the development a tensile force in the CFRP sheets and a shear force on the CFRP anchors. The shear forces in the CFRP anchors were defined by the load applied to the beam and compared with forces based on measured stress in CFRP sheets. / text Carbon fiber reinforced polymer CFRP anchor CFRP sheet Epoxy Rehabilitation projects Quality control
288	Drainage hydraulics of porous pavement : coupling surface and subsurface flow Eck, Bradley Joseph 06 October 2010 (has links) Permeable friction course (PFC) is a porous asphalt pavement placed on top of a regular impermeable roadway. Under small rainfall intensities, drainage is contained within the PFC layer; but, under higher rainfall intensities drainage occurs both within and on top of the porous pavement. This dissertation develops a computer model—the permeable friction course drainage code (PERFCODE)—to study this two-dimensional unsteady drainage process. Given a hyetograph, geometric information, and hydraulic properties, the model predicts the variation of water depth within and on top of the PFC layer through time. The porous layer is treated as an unconfined aquifer of variable saturated thickness using Darcy’s law and the Dupuit-Forchheimer assumptions. Surface flow is modeled using the diffusion wave approximation to the Saint-Venant equations. A mass balance approach is used to couple the surface and subsurface phases. Straight and curved roadway geometries are accommodated via a curvilinear grid. The model is validated using steady state solutions that were obtained independently. PERFCODE was applied to a field monitoring site near Austin, Texas and hydrographs predicted by the model were consistent with field measurements. For a sample storm studied in detail, PFC reduced the duration of sheet flow conditions by 80%. The model may be used to improve the drainage design of PFC roadways. / text Porous pavement Permeable friction course Dupuit-Forchheimer Sheet flow Diffusion wave Hydraulic modeling Highway drainage
289	Sensitivity analysis of repeat track estimation techniques for detection of elevation change in polar ice sheets Harpold, Robert Earl 05 October 2010 (has links) Repeat track analysis is one tool that can be used to derive parameters describing elevation changes from elevation data collected from a satellite with a near-repeat groundtrack. While initially developed to study ocean topography, it was then applied to ice sheet data. This study expands upon that previous research by testing the method’s ability to estimate parameters using different amounts of data, different grid sizes and types, and different elevation models containing different parameters to be estimated. In all cases, ICESat-derived elevations were used as input data, as ICESat has a near-repeat groundtrack with extensive coverage of the Greenland and Antarctica ice sheets. Results were compared using the differences between modeled and ICESat-derived elevations, correlation of estimated parameters to known physical features, and differences between known and estimated parameter values for simulated elevation data. It was found that there should be data from at least as many distinct time periods (or, in the case of ICESat, laser campaigns) as parameters being estimated, grids centered on and aligned with the reference groundtrack should be used, and that elevation models containing a constant elevation change rate, slopes, an initial elevation at the grid center, and annual terms should be used. Crossover analysis is a different method to determine elevation change rate with elevation data and serves as an independent verification of the repeat track analysis method. It was found that the hdot values determined from crossover and repeat track analyses agreed to within 5 cm/yr in most areas of the ice sheets, with differences greater than 40 cm/yr along the coasts. While repeat track analysis provides greater coverage than crossover analysis, it is uncertain which method provides the most accurate results. / text Repeat track analysis Estimation ICESat Ice sheet Antarctica Greenland Elevation change
290	Development of a test method for measuring galling resistance W. Lindvall, Fredrik January 2007 (has links) <p>Abstract</p><p>Today sheet metal forming is used to make a variety of mass production because it has a high production rate. One of the biggest concerns in sheet metal forming is wear of the tool in form of galling. Galling in sheet metal forming is characterised by an increased tool surface roughness, unstable friction in the forming process and undesirable scratches on the final products.</p><p>Several ways of ranking materials resistance to galling exist today but only ASM G98 is standardised. Nevertheless, some different methods developed for ranking tool materials’ tendency to galling have also been developed.</p><p>The aim of this thesis is to develop and improve the Uddeholm Tooling Tribo Test rig located at Uddeholm Tooling AB. The rig, which is a variation of cylinder-on-cylinder test equipment, was improved with a new tool holder, a utilization of the real sheet material counter face and a new data acquisition system and software. The galling was detected using scratches on the sheet, metallographic analysis of the material adhered on the tool specimen, monitoring of coefficient of friction and the standard deviation of the coefficient of friction.</p><p>The obtained results show difficulties with ranking of tool materials in terms of galling resistance under non-lubricated conditions. The tool steels tested were SVERKER21 and UNIMAX. AISI304-10, DC04 and DOCOL1000DP sheets were used. Additionally a low friction coating of BalinitC on SVERKER21 was also included. All specimens of the tool steels showed signs of galling on every run, only the low friction coating showed a transition in behaviour of friction coefficient corresponding to galling initiation. The standard deviation of the coefficient of friction increased at low loads. A decrease of the test loads led to stability loss of the system detected by an increase in the standard deviation of the coefficient of friction. This might happen because the Kistler platform is originally designed for larger loads. Although, the test rig does not work properly in its present state, the concept looks promising.</p> galling scoring scuffing sheet metal forming deep drawing Material physics with surface physics Materialfysik med ytfysik

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