950 resultados para Resisting moment
Resumo:
The Boltzmann equation of the sand particle velocity distribution function in wind-blown sand two-phase flow is established based on the motion equation of single particle in air. And then, the generalized balance law of particle property in single phase granular flow is extended to gas-particle two-phase flow. The velocity distribution function of particle phase is expanded into an infinite series by means of Grad's method and the Gauss distribution is used to replace Maxwell distribution. In the case of truncation at the third-order terms, a closed third-order moment dynamical equation system is constructed. The theory is further simplified according to the measurement results obtained by stroboscopic photography in wind tunnel tests.
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A method of determining the micro-cantilever residual stress gradients by studying its deflection and curvature is presented. The stress gradients contribute to both axial load and bending moment, which, in prebuckling regime, cause the structural stiffness change and curving up/down, respectively. As the axial load corresponds to the even polynomial terms of stress gradients and bending moment corresponds to the odd polynomial terms, the deflection itself is not enough to determine the axial load and bending moment. Curvature together with the deflection can uniquely determine these two parameters. Both linear analysis and nonlinear analysis of micro-cantilever deflection under axial load and bending moment are presented. Because of the stiffening effect due to the nonlinearity of (large) deformation, the difference between linear and nonlinear analyses enlarges as the micro-cantilever deflection increases. The model developed in this paper determines the resultant axial load and bending moment due to the stress gradients. Under proper assumptions, the stress gradients profile is obtained through the resultant axial load and bending moment.
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The Load-Unload Response Ratio (LURR) method is an intermediate-term earthquake prediction approach that has shown considerable promise. It involves calculating the ratio of a specified energy release measure during loading and unloading where loading and unloading periods are determined from the earth tide induced perturbations in the Coulomb Failure Stress on optimally oriented faults. In the lead-up to large earthquakes, high LURR values are frequently observed a few months or years prior to the event. These signals may have a similar origin to the observed accelerating seismic moment release (AMR) prior to many large earthquakes or may be due to critical sensitivity of the crust when a large earthquake is imminent. As a first step towards studying the underlying physical mechanism for the LURR observations, numerical studies are conducted using the particle based lattice solid model (LSM) to determine whether LURR observations can be reproduced. The model is initialized as a heterogeneous 2-D block made up of random-sized particles bonded by elastic-brittle links. The system is subjected to uniaxial compression from rigid driving plates on the upper and lower edges of the model. Experiments are conducted using both strain and stress control to load the plates. A sinusoidal stress perturbation is added to the gradual compressional loading to simulate loading and unloading cycles and LURR is calculated. The results reproduce signals similar to those observed in earthquake prediction practice with a high LURR value followed by a sudden drop prior to macroscopic failure of the sample. The results suggest that LURR provides a good predictor for catastrophic failure in elastic-brittle systems and motivate further research to study the underlying physical mechanisms and statistical properties of high LURR values. The results provide encouragement for earthquake prediction research and the use of advanced simulation models to probe the physics of earthquakes.
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Dynamic function of damage is the key to the problem of damage evolution of solids. In order to understand it, one must understand its mesoscopic mechanisms and macroscopic formulation. In terms of evolution equation of microdamage and damage moment, a dynamic function of damage is strictly defined. The mesoscopic mechanism underlying self-closed damage evolution law is investigated by means of double damage moments. Numerical results of damage evolution demonstrate some common features for various microdamage dynamics. Then, the dynamic function of damage is applied to inhomogeneous damage field. In this case, damage evolution rate is no longer equal to the dynamic function of damage. It is found that the criterion for damage localization is closely related to compound damage. Finally, an inversion of damage evolution to the dynamic function of damage is proposed.
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In the chiral nematic phase, flexoelectricity can give rise to an interesting electrooptic switching effect, known as flexoelectro-optic switching. Flexoelectro-optic switching gives a fast v-shaped switching regime. Previous studies show that symmetric bimesogens are particularly suited for flexoelectro-optic switching. By introducing two ester linking groups into the molecular structure of a symmetric bimesogen, it was hypothesised that the flexoelectric properties will be enhanced significantly because of the resulting increase in the dipole moment of the molecules. This was found to be the correct; however, the inclusion of ester linking groups reduced the liquid crystallinity of the material.
Resumo:
In this paper, we report on the flexoelastic and viscoelastic ratios for a number of bimesogens compounds with the same generic structure. Values are obtained indirectly by measuring the flexoelectro-optic response in the chiral nematic phase. By varying the molecular structure we alter the bend angle, transverse dipole moment, and length of the molecule. First, to examine the influence of the bend angle we use a homologous series whereby the only alteration in the molecular structure is the number of methylene units in the aliphatic spacer, n. Results show that the flexoelastic ratio, e K, and the effective flexoelectric coefficient, e, both exhibit an odd-even effect with values for n=odd being greater than that for n=even. This is understood in terms of an increase in the bend angle of the molecule and an increase in the transverse dipole moment. Second, in order to investigate the impact of the dipole moment, we have altered the mesogenic units so as to vary the longitudinal dipole moment and used different linkages in the aliphatic spacer in an attempt to alter the transverse dipole moment. Qualitatively, the results demonstrate that the odd-spaced bimesogen with larger transverse dipole moments exhibit larger flexoelastic ratios. © 2007 The American Physical Society.
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The main factors influencing soil erosion include the net rain excess, the water depth, the velocity, the shear stress of overland flows, and the erosion-resisting capacity of soil. The laws of these factors varying with the slope gradient were investigated by using the kinematic wave theory. Furthermore, the critical slope gradient of erosion was driven. The analysis shows that the critical slope gradient of soil erosion is dependent on grain size, soil bulk density, surface roughness, runoff length, net rain excess, and the friction coefficient of soil, etc. The critical slope gradient has been estimated theoretically with its range between 41.5 degrees similar to 50 degrees.
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An algebraic unified second-order moment (AUSM) turbulence-chemistry model of char combustion is introduced in this paper, to calculate the effect of particle temperature fluctuation on char combustion. The AUSM model is used to simulate gas-particle flows, in coal combustion in a pulverized coal combustor, together with a full two-fluid model for reacting gas-particle flows and coal combustion, including the sub-models as the k-epsilon-k(p) two-phase turbulence niodel, the EBU-Arrhenius volatile and CO combustion model, and the six-flux radiation model. A new method for calculating particle mass flow rate is also used in this model to correct particle outflow rate and mass flow rate for inside sections, which can obey the principle of mass conservation for the particle phase and can also speed up the iterating convergence of the computation procedure effectively. The simulation results indicate that, the AUSM char combustion model is more preferable to the old char combustion model, since the later totally eliminate the influence of particle temperature fluctuation on char combustion rate.
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The magnetic moment of square planar melt processed YBa2Cu3O7-δ thick films is observed to scale with the cube of the sample width at 4.2 K, suggesting that current flow on the length scale of the film determines its magnetization at this temperature. A well-defined discontinuity in slope in the scaling data at a sample width corresponding to the average grain size (≈2 mm) implies the coexistence of distinct intra- and inter-grain critical current densities of 1.1 × 105Acm-2 and 0.4 × 105Acm-2 at 1 T and 4.2 K. The presence of a critical state in the films at 4.2T is confirmed by removing the central section from a specimen. The observed change in magnetic moment is in excellent agreement with theory for fields greater than ≈2 T. A critical state is not observed at 77 K which suggests that the grains are only weakly coupled at the higher temperature. © 1994.
Resumo:
En dos plantaciones de espárrago verde (Asparagus officinalis L.) en el centro de la Pcia. de Buenos Aires, del cultivar UC 157 F2, iniciadas con arañas y plantines, durante su primer año de cosecha, se determinó la tasa de elongación diaria y total hasta el momento de la ramificación de los turiones, el número de días hasta alcanzar el largo exportable (22.5 cm) y los días hasta el momento de la ramificación con el objetivo de estudiar su comportamiento en la zona centro de la provincia de Buenos Aires. Las mediciones se efectuaron durante seis semanas, desde el 26 de septiembre hasta el 4 de noviembre de 2005, desde la emergencia del turión hasta el día de su ramificación (rama de 5 mm sobre su bráctea). La elongación máxima hasta el día de ramificación en promedio y para ambos sistemas de inicio, varió 2 desde 35.3 cm al principio de la cosecha hasta 22.8 cm al final de la misma. Las tasas de elongación relativas variaron en promedio para ambos sistemas de inicio, entre 0.11 cm cm-1 d-1 y 0.38 cm cm-1 d-1 dependiendo de la temperatura del aire. Al mismo tiempo las parcelas constituyentes del ensayo fueron sometidas a una cosecha comercial durante las seis semanas de evaluación. Los espárragos cosechados constituyeron el rendimiento total (kg ha-1) para cada sistema de inicio entre los cuales no se encontraron diferencias estadísticamente significativas. Este estudio permitiría explicar las diferencias de rendimiento comercial para un mismo cultivar en diferentes zonas de producción. Se concluye que para una zona dada, la elongación y sobre todo la ramificación, son variables prioritarias para la determinación del potencial productivo de un cultivar, debiendo tener en cuenta las condiciones de temperatura en las cual se pretende producir este cultivo y el mercado de destino de la producción debido a las mercadas preferencias entre sus consumidores.
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Resumen: Con motivo de la celebración del Congreso Eucarístico Nacional, el autor propone volver a la inspiración original de esos congresos, poniendo de relieve la dimensión salvífica social de la Eucaristía de cara a los desafíos que presenta la realidad argentina. Uno de ellos es, sin duda, el establecimiento de un orden social más justo. Como aporte en vista de ese fin, el artículo intenta profundizar en la relación entre Eucaristía y justicia. Esto se hace en un desarrollo en cinco momentos: una clarificación de la noción de justicia, desde el punto de vista jurídico-filosófico y desde la perspectiva bíblica; una relectura de las fuentes bíblicas relativas al signo y al significado de la Eucaristía, donde se pone de manifiesto que ésta es el sacramentum caritatis; un momento especulativo que busca explicitar la relación entre caridad y justicia, y la relación de ésta con la Eucaristía; la verificación de esa interpretación en la praxis sacramental cristiana de los primeros siglos; y, por último, la recuperación de algunos textos claves del Magisterio de la Iglesia que han desarrollado el tema. Esto permite concluir que la Eucaristía señala de modo eminente lo que significa ser cristiano, razón por la cual su celebración exige una cierta conducta ética. La Eucaristía rememora así que en Cristo la justicia de Dios ha sido definitivamente realizada y un nuevo orden ha sido instaurado; ella manifiesta e incentiva a establecer una verdadera “contra-cultura” donde prevalezcan la justicia y la solidaridad; y es signo profético de la realización de los “cielos nuevos y la tierra nueva”. Por eso el significado de la leitourgia del Pueblo de Dios se verá verificado en la diakonía y la martyria.
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En el presente trabajo nos proponemos abordar algunos aspectos relacionados con las restricciones, los privilegios y la violencia, que se implementaron sobre los mudéjares de Castilla, Aragón y Valencia. En relación con los primeros, daremos cuenta del endurecimiento legal –real y eclesiástico– que se desplegó hacia los moros hispánicos y que regló casi todos los aspectos del vivir cotidiano y de sus prácticas religiosas. Sin embargo, los mudéjares y sus aljamas en algún área en particular, fueron sujetos de privilegios reales. Es por esto que analizaremos restricciones y privilegios como dos caras de un mismo proceso que se desplegó durante el tránsito de la baja edad media. Finalmente, indagaremos sobre los episodios de violencia hacia los mudéjares contrastando particularidades regionales, para conectar estos sucesos con la segregación y la restricción.
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The ratios of enstrophy and dissipation moments induced by localized vorticity are inferred to be finite. It follows that the scaling exponents for locally averaged dissipation and enstrophy are equal. However, enstrophy and dissipation exponents measured over finite ranges of scales may be different. The cylindrical vortex profile that yields maximal moment ratios is determined. The moment ratios for cylindrical vortices are used to interpret differences in scale dependence of enstrophy and dissipation previously found in numerical simulations.
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El sistema nacional de procuración de órganos, tejidos y células para trasplante en la Argentina es impulsado, normatizado, coordinado y fiscalizado por el Incucai (Instituto Nacional Central Único Coordinador de Ablación e Implante). Hoy, el sistema de salud cuenta con más de 4000 profesionales capacitados, 300 centros de trasplante, 50 bancos de tejidos y 30 laboratorios de histocompatibilidad habilitados por el Incucai en todo el país. La conciencia sobre la importancia de la donación ha crecido y actualmente cerca de 2.300.000 personas han manifestado la decisión de donar sus órganos y tejidos y otras 40.000 se han inscripto como donantes de células de la médula ósea. En el presente trabajo se analizarán los siguientes puntos: situación actual, logros y avances; principios de definen la distribución de órganos; retos de la donación y el trasplante en la Argentina.
Resumo:
To develop low-pollution burners, the effect of a coal concentrator on NO formation in swirling coal combustion is studied using both numerical simulation and experiments. The isothermal gas-particle two-phase velocities and particle concentration in a cold model of swirl burners with and without coal concentrators were measured using the phase Doppler particle anemometer (PDPA). A full two-fluid model of reacting gas-particle flows and coal combustion with an algebraic unified second-order moment (AUSM) turbulence-chemistry model for the turbulent reaction rate of NO formation are used to simulate swirling coal combustion and NO formation with different coal concentrators. The results give the turbulent kinetic energy, particle concentration, temperature and NO concentration in cases of with and without coal concentrators. The predicted results for cold two-phase flows are in good agreement with the PDPA measurement results, showing that the coal concentrator increases the turbulence and particle concentration in the recirculation zone. The combustion modeling results indicate that although the coal concentrator increases the turbulence and combustion temperature, but still can remarkably reduce the NO formation due to creating high coal concentration in the recirculation zone.