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Análisis de los principios que inspiran la ley no. 19.799, sobre documentos electrónicos, firma electrónica y servicios de certificación de dicha firmaTrivelli G., María Paz January 2003 (has links)
Memoria (licenciado en ciencias jurídicas y sociales) / No autorizada por el autor para ser publicada a texto completo / El objetivo de este trabajo es hacer un análisis para
distinguir y determinar en qué consisten los principios de libertad de prestación de servicios, libre
competencia, neutralidad tecnológica, compatibilidad internacional y equivalencia del soporte
electrónico al soporte de papel, e identificar las instituciones y actividades en que ellos se
manifiestan. Al efecto, el estudio se ordena del mismo modo que la Ley N° 19.799 enuncia los
principios, y en él se determinan las propiedades, elementos, las características, funciones y los
efectos jurídicos que, en virtud de ellos, producen las instituciones y actividades que incorpora el
texto de la Ley.
Se ha optado por tratar en forma conjunta los principios de libertad de prestación de
servicios y de libre competencia en el primer Capítulo. Por otra parte, el análisis del principio de
equivalencia de soportes se ha separado en dos Capítulos. Uno destinado a tratar la aplicación de
este principio a los documentos electrónicos y otro destinado a tratar la firma electrónica.
Cabe señalar que, para el desarrollo de este trabajo, se hizo necesario el estudio de algunas
materias que exceden al ámbito de la Ley, como es el caso de la libertad en la prestación de
servicios, la libre competencia, el estudio de los instrumentos públicos y privados y el de la firma
manuscrita. Ello permitirá un mejor entendimiento de los incisos segundo y tercero del artículo 1
de la Ley
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Certainty equivalent solutions of quadratic team problems by a decentralized innovations approachJanuary 1978 (has links)
by Steven M. Barta, Nils R. Sandell, Jr. / Bibliography: leaves 34-35. / NSF Grant NSF/ENG-77-19971 and Grant ERDA-E(49-18)-2087.
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A critical analysis of the legal role and functions of the Gulf Cooperation Council (GCC)Alhaiyaf, Khalid Nasser January 2014 (has links)
The Gulf Cooperation Council (GCC) is an international organisation established in 1981 between six Gulf countries, Bahrain, the United Arab Emirates (UAE), Kuwait, Oman, Qatar and the Kingdom of Saudi Arabia (KSA). According to the GCC Supreme Council, it was established to foster and manage cooperation between these countries and to serve their common interests. This thesis explores another factor, that it was established in response to specific security concerns in the context of the energy crisis that arose after the 1970‟s war between Egypt and Israel, the Soviet attack on Afghanistan and the Iranian revolution which was followed by the Iran-Iraq war. It is a doctrinal study that aims to determine where the GCC fits as an international institution within the framework of international law and international institutions particularly. Accordingly, the aim of this thesis is to analyse critically what the GCC is and does exactly. More specifically, it examines the type of organisation the GCC is, its relationship with member states and other international organisations and considers its future role as a key regional organisation. This thesis analyses the reason for its establishment, leaders‟ opinions about its nature, the GCC's methods for producing collective political attitudes and economic cooperation. It also assesses the kinds of laws the GCC produces, their status, whether hard and soft law, as well as their enforcement. This analysis is conducted from a combined legal positivist and international relations framework. From Nasserism to the Arab Spring, the GCC has withstood the waves of political movements in the Middle East. This thesis provide a critical analysis of the GCC‟s overall achievements and aims, with a particular focus on its response to key political developments such as these. This thesis argues that GCC members have been using the GCC as means to achieve their own ends. Due to the nature of their governing systems – absolute monarchy – they are using the GCC to maintain the security and stability of their own ruling systems. However, while the GCC has always focused on security and economic cooperation, its achievements are stronger in the latter because security is linked to external factors.
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Inclusion Control At Cemtas Steel PlantSahin, Berkay 01 October 2012 (has links) (PDF)
Ç / EMTAS Steel Plant produces alloy steels used principally by the automotive industry. Demands of customers for cleaner steel with &ldquo / fewer, smaller and homogenously distributed inclusions&rdquo / are getting tighter with time. The tight demands of the customers are checked by ultrasonic testing and faulty regions are cut off and scrapped which results in production losses in steel plants. Decreasing production losses due to scrapping by producing cleaner steels is therefore a major concern. The objective of this study is to investigate factors affecting the cleanliness of the steels produced by Ç / EMTAS. With this objective, the steelmaking practice used was thoroughly investigated and the possible origins of inclusions in the final product was tried to be found. Based on the findings, process parameters like temperature, time, quantities of additives to steel, intensity of stirring etc. were varied with the objective of determining the optimum production practice.
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Recovery Of Tungsten From Tungsten Bearing CompoundsErdogan, Metehan 01 February 2013 (has links) (PDF)
Extensive research in recent years has failed to develop any essentially new method of large scale tungsten production. A new tungsten powder production technique from calcium tungstate (CaWO4) has recently been reported. In this thesis, this technique was further explored from the aspects of electrochemical reduction mechanism and kinetics, applicability to scheelite concentrates and industrial production.
Cyclic voltammetry, constant potential and constant current electrochemical reduction tests were performed to determine the reversible cell potential. Analyses of the experimental results revealed that at least 2.2 V was required to compensate the potentials for the accompanying cell reaction and the electrode polarizations. A cell reaction was proposed by associating the experimental results and the Gibbs Energy changes of the possible reactions.
An experiment (mixture) design was created to optimize the process parameters of the electrochemical reduction of CaWO4 to W in molten CaCl2-NaCl eutectic mixture. Temperature, applied voltage and the length of Kanthal wire winding of the CaWO4 pellets were selected as the process parameters and allowed to vary between the predetermined minimum and maximum values. The rates of the electrochemical reductions were interpreted from the variations of current and total charge vs. time graphs under different conditions. The analysis pointed out 640oC and 2.81 V from the created mixture design for the fastest reduction and it was seen that the effect of Kanthal wire winding on the output current was less pronounced when compared to the other two parameters.
Another set of experiments was performed by full factorial design to investigate the cleaning procedure needed to remove calcium containing byproducts after electrochemical reduction experiments. Three levels were determined prior to the experiments for the selected three parameters / temperature, acid concentration and exposure time. Main effect and interaction graphs for calcium percent as a function of process parameters were plotted. Calcium contents of the samples were determined by XRF measurements.
A 300 g/day capacity tungsten production line was manufactured to take the process one step closer to industrialization. Problems at larger scale were addressed as incomplete reduction, oxidation of graphite and corrosion of cathode materials. After careful research, AISI 316 Ti steel was found to impart sufficient resistance to highly corrosive environment. Oxidation of graphite anode inside the cell was lowered to acceptable levels by continuous nitrogen flow.
Metallic tungsten powder was obtained from rich and flotation concentrates of Uludag Etibank Volfram Plant (closed in 1989) together with mainly iron. It was seen that tungsten and iron do not make compounds at the temperatures used for reduction (600-750oC).
A basic diffusion model in the electrolyte was developed to better understand the decrease in current values and incomplete reduction encountered during large scale production. The model was used to simulate the recorded current vs. time graphs of selected experiments.
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Examination Of Desulfurization Behaviour Of Ladle Furnace Slags Of A Low-sulfur SteelKeskinkilic, Ender 01 October 2007 (has links) (PDF)
The aim of this research was mainly to investigate desulfurization behaviour of ladle furnace slags of a low-sulfur steel. First, the change of the amount of unstable oxides (FetO and MnO) in slags was studied from the converter till the end of ladle furnace treatment for different steel quality groups. It was found that the change in the amount of unstable oxides could be examined best with low-C steel qualities. Then, the change of activity of iron oxide was investigated for a member of low-C steel quality group, namely 4937K, a low-S steel. The relation between the degree of desulfurization at the ladle furnace, % DeS (measured), and the change in activity of iron oxide, % Decrease in aFetO, was examined first using an empirical expression obtained from literature. Then, this relationship was studied using steel oxygen activity measurements conducted at the ladle furnace. With this method, a regression formula was proposed for 4937K slags relating activity coefficient of iron oxide, gama(FetO), with the major slag components. The results obtained from steel oxygen activities were found to be representative for 4937K steel-slag system showing similar behaviour with the ones from the empirical expression obtained
from literature. Similar results were found using Temkin equation and the polymeric anion model. In relation to formation of less harmful inclusions to suppress adverse effects of sulfur, morphological studies of some steels produced in ERDEMiR plant were performed. D-type globular inclusions with severity values of 1-2 were observed.
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Ferroboron Production By ElectrodeoxidationOrs, Taylan 01 September 2008 (has links) (PDF)
In this study ferroboron (Fe - 14 at %B) was synthesized in crystalline form (Fe + Fe2B) via electrodeoxidation. For this purpose, Fe2O3 and H3BO3 were mixed in suitable proportions via spex mill. The powder was cold pressed and sintered at 900 ° / C yielding a two phase structure Fe3BO6 and Fe2O3. The sintered pellets were electro-deoxidized in CaCl2 by applying 3.1 Volts at 850° / C for 12 hours. This yielded Fe and Fe2B in proportions slightly deviating from the target composition. The chemical pathway of reduction is inspected by the help of the available thermodynamic data and the x-ray characterization of partially reduced samples. CaO and the formation of Ca3B2O6 were found to be effective in the mid-steps of this electrodeoxidation process.
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Reduction Of Silicon Dioxide By Electrochemical DeoxidationErgul, Emre 01 July 2010 (has links) (PDF)
Electrochemical reductions of porous SiO2 pellets and bulk SiO2 plate were investigated in molten CaCl2 and/or CaCl2-NaCl salt mixture. The study focused on effects of temperature, particle size of the starting material, electrolyte composition and cathode design on the reduction rate. The behavior of the cathode contacting materials was also examined. Moreover, cyclic voltammetry study was conducted to investigate the mechanism of the electrochemical reaction. Mainly, XRD analysis and SEM examinations were used for characterizations. The rates of electrochemical reduction were interpreted from the variations of current and accumulative electrical charge that passed through the cell as a function of time under different conditions. The results showed that reduction rate of SiO2 increased slightly with increasing temperature or decreasing the particle size of SiO2 powder. Higher reduction rate was obtained when porous pellet was replaced by bulk SiO2 plate. Use of Kanthal wire mesh around the SiO2 cathode increased but addition of NaCl to the electrolyte decreased the reduction rate.
X-ray diffraction results confirmed the reduction of SiO2 to Si in both CaCl2 salt and CaCl2-NaCl salt mixture. However, silicon produced at the cathode was contaminated by the nickel and stainless steel plates which were used as the cathode contacting materials. Microstructures and compositions of the reduced pellets were used to infer that electrochemical reduction of SiO2 in molten salts may become a method to produce solar grade silicon (SOG-Si). In addition, overall reduction potential of SiO2 pellet against the graphite anode and the potential of the cathode reaction at 750° / C in molten CaCl2-NaCl salt mixture were determined as 2.3 V (at 1.19 A current) and 0.47 V, respectively by cyclic voltammetry.
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Nano Calcium Phosphates Doped With Titanium And Fluoride Ions: Sinterability And Stability Of PhasesGungor Geridonmez, Serap 01 June 2012 (has links) (PDF)
The purpose of this study was to synthesize calcium phosphates doped with titanium and fluoride ions in different combinations. Pure and doped calcium phosphates were synthesized by a precipitation method. The synthesized materials were sintered at 1100º / C and 1300º / C for 1h. The ceramics were characterized by density measurements to determine the effect of sintering temperature. Presence of phases and bonds were characterized by XRD diffraction and FTIR spectroscopy. Grain sizes of the samples were obtained by SEM. Microhardness test was applied on the samples to determine the mechanical properties of the samples. It was observed that Ti4+ addition decreased the density of samples significantly at 1100° / C, whereas increasing the sintering temperature to 1300° / C caused an increase. Increasing the F- ion amount increased the densification at 1100° / C when molar ratios were 1.0, 1.25, 1.50 and decreased the density at 1300° / C when Ca /P molar ratios were 1.0, 1.25, 1.67 and 2.0. Ti4+ and F- co-doped samples showed variety in their density behaviour after the sintering at 1100º / C and 1300º / C.
The XRD analyses demonstrated that for Ca to P ratio 1 at 1100° / C, &beta / -CPP phase, when sintering temperature was raised to 1300° / C, as a second phase of &beta / -CPP and &alpha / -TCP observed. Increasing the molar ratio to 1.25 and 1.50 demonstrated &beta / -TCP and/or &beta / -CPP and &beta / -TCP/ HA at 1100° / C and &beta / -TCP and/or &beta / -CPP, &alpha / -TCP, TiO2 and HA, &alpha / -TCP, TiO2 phases at 1300° / C, respectively. In higher Ca/P molar ratios of 1.67 and 2.0, HA, &beta / -TCP, &alpha / -TCP, CaO, TiO2, CaTiO3 and HA, CaO, &alpha / -TCP, CaTiO3 phases were determined. Increasing the sintering temperature to 1300° / C resulted in transformation to &alpha / -TCP.
In FTIR spectroscopy analysis, when the samples with molar ratio of 1, 1.25, 1.50, 1.67 and 2.0, sintered at 1100° / C, the characteristic bands of &beta / -CPP, OCP/&beta / -TCP, &beta / -TCP/HA, HA and HA were observed, respectively. With increasing the sintering temperature to 1300° / C, samples with molar ratio of 1.0 and 1.25 revealed additional secondary characteristic peaks of HA and &beta / -TCP. SEM images revealed that sintering temperature and ion amounts of dopants had significant effect on grain sizes of the samples. The grain sizes were generally increased when sintering temperature rose from 1100° / C to 1300° / C. The &mu / -hardness test demonstrated that Ti4+ and F- ions in large amounts had positive effect on the mechanical properties at the sintering temperatures of 1100° / C and 1300° / C
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The Effect Of Austempering Parameters On Impact And Fracture Toughness Of Din 35nicrmov12.5 Gun Barrel SteelAksu, Engin 01 July 2005 (has links) (PDF)
In this study the effects of different austempering times and temperatures on impact
toughness, hardness and fracture toughness properties of 35NiCrMoV12.5 gun barrel
steel are investigated. 300 ° / C, 325 ° / C and 350 ° / C were chosen as austempering
temperatures. Isothermal holding times at these temperatures were chosen as 1 minute,
10 minutes, 1 hour and 10 hours. It was found that, 350 ° / C being an exception,
austempering temperature and impact toughness has an inverse relationship and impact
toughness increases as isothermal holding time increases. However this behavior is valid
until some point. Prolonged transformation times causes toughness to decrease.
Hardness measurements revealed that, as isothermal holding time increases, hardness
decreases. In order to compare the mechanical properties obtained by austempering with
that of conventional cooling and tempering, 400 ° / C was chosen as the tempering
temperature and applied to both charpy impact and fracture toughness specimens. It was
found that conventional cooling and tempering produced tougher structures. Size of the
fracture toughness specimens might have caused an undesired situation such as
incomplete transformation to bainite. Optical and scanning electron microscopy was
used in order to analyze the microstructures obtained after each treatment. It was
observed that the majority of the morphologies occurred is lower bainite. On the other
hand, martensitic structures were observed almost at every temperature.
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