10,949 research outputs found

    Metrizability and pattern recognition

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    Metrizability and pattern recognitio

    Creep-rupture reliability analysis

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    A probabilistic approach to the correlation and extrapolation of creep-rupture data is presented. Time temperature parameters (TTP) are used to correlate the data, and an analytical expression for the master curve is developed. The expression provides a simple model for the statistical distribution of strength and fits neatly into a probabilistic design format. The analysis focuses on the Larson-Miller and on the Manson-Haferd parameters, but it can be applied to any of the TTP's. A method is developed for evaluating material dependent constants for TTP's. It is shown that optimized constants can provide a significant improvement in the correlation of the data, thereby reducing modelling error. Attempts were made to quantify the performance of the proposed method in predicting long term behavior. Uncertainty in predicting long term behavior from short term tests was derived for several sets of data. Examples are presented which illustrate the theory and demonstrate the application of state of the art reliability methods to the design of components under creep

    Synthesis of Y1Ba2Cu3O(sub x) superconducting powders by intermediate phase reaction

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    One of the more striking problems for the synthesis of the Y1Ba2Cu3Ox compound is the high-temperature decomposition of the BaCO3. This compound is present as raw material or as an intermediate compound in chemical processes such as amorphous citrate, coprecipitation oxalate, sol-gel process, acetate pyrolisis, etc. This fact makes difficult the total formation reaction of the Y1Ba2Cu3Ox phase and leads to the presence of undesirable phases such as the BaCuO2 phase, the 'green phase', Y2BaCuO5 and others. Here, a new procedure to overcome this difficulty is studied. The barium cation is previously combined with yttrium and/or copper to form intermediate compounds which can react between them to give Y1Ba2Cu3Ox. BaY2O4 and BaCu2O3 react according to the equation BaY2O4+3BaCu2O3 yields 2Y1Ba2Cu3Ox. BaY2O4 is a stable compound of the Y2O3-BaO system; BaCu2O3 is an intimate mixture of BaCuO2 and uncombined CuO. The reaction kinetics of these phases have been established between 860 and 920 C. The phase evolution has been determined. The crystal structure of the Y1Ba2Cu3Ox obtained powder was studied. According to the results obtained from the kinetics study the Y1Ba2Cu3Ox the synthesis was performed at temperatures of 910 to 920 C for short treatment times (1 to 2 hours). Pure Y1Ba2Cu3Ox was prepared, which develops orthorombic type I structure despite of the cooling cycle. Superconducting transition took place at 91 K. The sintering behavior and the superconducting properties of sintered samples were studied. Density, microstructure and electrical conductivity were measured. Sintering densities higher than 95 percent D(sub th) were attained at temperatures below 940 C. Relatively fine grained microstructure was observed, and little or no-liquid phase was detected

    Synthesis of Y1BaCu3O(x) superconducting powders by intermediate phase reactions

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    A procedure for synthesizing Y1Ba2Cu3O(x) by solid state reactions was developed. The method is based on the use of barium compounds, previously synthesized, as intermediate phases for the process. The reaction kinetics of this procedure were established between 860 C and 920 C. The crystal structure and the presence of second phases were studied by means of XRD. The sintering behavior and ceramic parameters were also determined. The orthorhombic type-I structure was obtained on the synthesized bodies after a cooling cycle in an air atmosphere. Superconducting transition took place at 91 K. Sintering densities higher than 95 percent D sub th were attained at temperatures below 940 C

    USE OF FLEET AVIATION ELECTRONIC ATTACK SQUADRONS FOR OPERATIONAL TEST AND EVALUATION OF NEXT GENERATION JAMMER MID-BAND (ALQ-249) PROGRAM

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    The purpose of this research is to analyze the potential advantages, disadvantages, and risks to cost, schedule, and performance of shifting the role of operational test and evaluation (OT&E) of the Next Generation Jammer Mid-Band (NGJ-MB) program from a dedicated OT&E squadron at Air Test and Evaluation Squadron Nine (AIRTEVRON NINE; VX-9) to a fleet aviation electronic attack squadron. The operational constraints of the modern Naval Aviation Enterprise (NAE) squadron to deploy as part of the warfighting force against a peer adversary is examined to identify the risks to the successful OT&E of the NGJ-MB program. My methodology includes examining fleet operational tempo and the Navy’s Optimized Fleet Response Plan scheduling, resourcing, training, proficiency, tactical expertise, and administration. A strengths, weaknesses, opportunities, and threats analysis, followed by a cost-effective analysis, are used to analyze the risks to test execution and reporting compared to VX-9. In the research conclusion, I recommend the more beneficial, efficient, and effective path to execute OT&E for the NGJ-MB program. The consequences to cost, schedule, and performance to the NGJ-MB program give high confidence that fleet aviation squadrons should not be tasked to perform OT&E. VX-9 should be properly resourced, funded, and supported by the Navy to assess the operational effectiveness and suitability of the NGJ-MB pod.Lieutenant Commander, United States NavyApproved for public release. Distribution is unlimited

    Le commerce du poisson au Tchad

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    Unveiling the complex glassy dynamics of square shoulder systems: simulations and theory

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    We performed extensive molecular dynamics (MD) simulations, supplemented by Mode Coupling Theory (MCT) calculations, for the Square Shoulder (SS) model, a purely repulsive potential where the hard-core is complemented by a finite shoulder. For the one-component version of this model, MCT predicted [Sperl {\it et al.} Phys. Rev. Lett. {\bf 104}, 145701 (2010)] the presence of diffusion anomalies both upon cooling and upon compression and the occurrence of glass-glass transitions. In the simulations, we focus on a non-crystallising binary mixture, which, at the investigated shoulder width, shows a non-monotonic behaviour of the diffusion upon cooling but not upon isothermal compression. In addition, we find the presence of a disconnected glass-glass line in the phase diagram, ending in two higher-order singularities. These points generate a logarithmic dependence of the density correlators as well as a subdiffusive behaviour of the mean squared displacement, although with the interference of the nearby liquid-glass transition. We also perform novel MCT calculations using as input the partial structure factors obtained within MD, confirming the simulation results. The presence of two hard sphere glasses, differing only in their hard core length, is revealed, showing that the simple competition between the two is sufficient for creating a rather complex dynamical behaviour

    Block to granular-like transition in dense bubble flows

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    We have experimentally investigated 2-dimensional dense bubble flows underneath inclined planes. Velocity profiles and velocity fluctuations have been measured. A broad second-order phase transition between two dynamical regimes is observed as a function of the tilt angle θ\theta. For low θ\theta values, a block motion is observed. For high θ\theta values, the velocity profile becomes curved and a shear velocity gradient appears in the flow.Comment: Europhys. Lett. (2003) in pres
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