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    Tapped granular packings described as complex networks
    (Taylor and Francis, 2013) Arévalo, Roberto; Pugnaloni, Luis; Maza, Diego; Zuriguel, Iker
    We characterize the structure of simulated two-dimensional granular packings using con- cepts from complex networks theory. The packings are generated by a simulated tapping protocol, which allows us to obtain states in mechanical equilibrium in a wide range of densi- ties. We show that our characterization method is able to discriminate non-equivalent states that have the same density. We do this by examining differences in the topological structure of the contact network of the packings. In particular, we find that the polygons of the network are specially sensitive probes for the contact structure. Additionally, we compare the network properties obtained in two different scenarios: the tapped and a compressed system.
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    Contact network topology in tapped granular media
    (American Physical Society, 2013) Arévalo, Roberto; Pugnaloni, Luis; Zuriguel, Iker; Maza, Diego
    We analyze the contact network of simulated two-dimensional granular packings in different states of mechanical equilibrium obtained by tapping. We show that topological descriptors of the contact network allow one to distinguish steady states of the same mean density obtained with different tap intensities. These equal-density states were recently proven to be distinguishable through the mean force moment tensor. In contrast, geometrical descriptors, such as radial distribution functions, bond order parameters, and Voronoi cell distributions, can hardly discriminate among these states. We find that small-order loops of contacts—the polygons of the network—are especially sensitive probes for the contact structure.
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    Exact predictions from Edwards ensemble vs realistic simulations of tapped narrow two dimensional granular columns
    (Journal of Statistical Mechanics: Theory and Experiment, 2013) Irastorza, Ramiro; Carlevaro, Manuel; Pugnaloni, Luis
    We simulate, via a discrete element method, the tapping of a narrow column of disks under gravity. For frictionless disks, this system has a simple analytical expression for the density of states in the Edwards volume ensemble. We compare the predictions of the ensemble at constant compactivity against the results for the steady states obtained in the simulations. We show that the steady states cannot be properly described since the microstates sampled are not in correspondence with the predicted distributions, suggesting that the postulates of flat measure and ergodicity are, either or both, invalid for this simple realization of a static granular system. However, we show that certain qualitative features of the volume fluctuations which are difficult to predict from simple arguments are captured by the theory.
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    First order phase transition during displacement of amphiphilic biomacromolecules from interfaces by surfactant molecules
    (Journal of Physics: Condensed Matter, 2014) Ettelaie, Rammile; Dickinson, Eric; Pugnaloni, Luis
    The adsorption of surfactants onto a hydrophobic interface, already laden with a fixed number of polymers, is studied using the self consistent field (SCF) calculation method of Scheutjens and Fleer. For polymers having unfavourable interactions with the surfactant molecules, the adsorption isotherms show an abrupt jump at a certain value of surfactant bulk concentration. Alternatively, the same behaviour is exhibited when the number of polymers on the interface is decreased. We show that this sudden jump is associated with a first-order phase transition, by calculating the free energy values for the stable and the metastable states at both sides of the transition point. We also observe that the transition can occur for two approaching surfaces, from a high surfactant coverage phase to a low surfactant coverage one, at sufficiently close separation distances. The consequence of this finding for the steric colloidal interactions, induced by the overlap of two polymer + surfactant films, is explored. In particular, a significantly different interaction, in terms of its magnitude and range, is predicted for these two phases. We also consider the relevance of the current study to problems involving the competitive displacement of proteins by surfactants in food colloid systems.
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    Arching during the segregation of two dimensional tapped granular systems Mixtures versus intruders
    (Springer, 2014) Uñac, Rodolfo; Benito, Jesica; Vidales, Ana María; Pugnaloni, Luis
    We present numerical simulations of binary mixtures of granular disks subjected to tapping. We consider the size segregation process in terms of the arches formed by small and big particles. Although arching has been proposed as one of the chief mechanisms that determines size segregation in non-convecting systems, there is no direct data on arching to support the existing proposals. The pseudo-dynamic approach chosen for this work allows for a straightforward identification of arches in the bulk of the column. We find that, indeed, arch formation and breakage are crucial to the segregation process. Our results show that the presence of large particles induce the formation of more arches than found in mono-sized samples. However, tapping leads to the progressive breakage of big arches where large particles are involved as the segregation process takes place. Interestingly, isolated intruders may or may not rise under tapping depending not only on the size ratio (as it is well known) but also on the degree of ordering of the environment.
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    Effect of particle shape and fragmentation on the response of particle dampers
    (SAGE Publications, 2014) Sánchez, Martín; Carlevaro, Manuel; Pugnaloni, Luis
    A particle damper (PD) is a device that can attenuate mechanical vibrations thanks to the dissipative collisions between grains contained in a cavity attached to the vibrating structure. It has been recently suggested that, under working conditions in which the damping is optimal, the PD has a universal response in the sense that the specific dissipative properties of the grains cease to be important for the design of the device. We present evidence from simulations of PDs containing grains of different sizes, shapes and restitution coefficients, that the universal response is also valid when fragmentation of the grains occurs (generally due to intensive operation of the PD). In contrast, the welding of grains (caused by operation under high temperatures) can take the PD out of the universal response and deteriorate the attenuation. Interestingly, we observed that even at working conditions off the optimal damping, the shape of the grains remains unimportant for the response of the PD.
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    On and off dynamics of a creeping frictional system
    (Springer, 2014) Blanc, Baptiste; Geminard, Jean Christophe; Pugnaloni, Luis
    We report on the dynamics of a model frictional system submitted to minute external perturbations. The system consists of a chain of sliders connected through elastic springs that rest on an incline. By introducing cyclic expansions and contractions of the rest length of the springs, we induce the reptation of the chain. Decreasing the amplitude of the perturbation below a critical value, we observe an intermittent creep regime characterized by alternated periods of reptation (owing state) and rest (quiescent state). A further decrease of the perturbation leads to the disappearance of the reptation. The width of the transition region between the continuous creep and the full stop (i.e., the range of excitation amplitudes where the intermittent creep is observed) is shown to depend on the di_erence between the static (µs) and the dynamic (µd) friction coefficients. For µs = µd the intermittent creep is not observed. Studying the statistical features of the intermittent creep regime for any given perturbation amplitude, we find that the time the system resides in each state (owing or quiescent) suggests that: (i) reptation events are uncorrelated, and (ii) rest events are history dependent. We show that this latter history dependency is consistent with the aging of the stress state inside the chain of sliders during the quiescent periods.
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    Clogging transition of many particle systems flowing through bottlenecks
    (Scientific Reports, 2014) Zuriguel, Iker; Parisi, Daniel; Cruz Hidalgo, Raul; Lozano, Celia; Janda, Alvaro; Gago, Paula; Peralta, Juan; Ferrer, Luis; Pugnaloni, Luis; Clement, Eric; Maza, Diego; Pagonabarraga, Ignacio; Garcimartín, Angel
    When a large set of discrete bodies passes through a bottleneck, the flow may become intermittent due to the development of clogs that obstruct the constriction. Clogging is observed, for instance, in colloidal suspensions, granular materials and crowd swarming, where consequences may be dramatic. Despite its ubiquity, a general framework embracing research in such a wide variety of scenarios is still lacking. We show that in systems of very different nature and scale -including sheep herds, pedestrian crowds, assemblies of grains, and colloids- the probability distribution of time lapses between the passages of consecutive bodies exhibits a power-law tail with an exponent that depends on the system condition. Consequently, we identify the transition to clogging in terms of the divergence of the average time lapse. Such a unified description allows us to put forward a qualitative clogging state diagram whose most conspicuous feature is the presence of a length scale qualitatively related to the presence of a finite size orifice. This approach helps to understand paradoxical phenomena, such as the faster-is-slower effect predicted for pedestrians evacuating a room and might become a starting point for researchers working in a wide variety of situations where clogging represents a hindrance.
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    Integrando temas de química, física y matemáticas a través de TIC
    (Jornadas de Enseñanza de las Ciencias de la Naturaleza, 2014-08-21) Urruspuru, Juan; Chong, Carlos; Juanto, Susana; Baade, Nieves
    Nuestro grupo IEC (FRLP, UTN) adquirió, a través del Promei, sistemas de adquisición de datos y el software relacionado(programa LoggerPro, marca Vernier), y realizó la implementación exitosa de algunas experiencias : en Química, titulación ácido-base y experiencias de gases (S.Pastorino, 2008), y en Física: tratamiento de sistemas de partículas, (Devece, 2012). Dado que los docentes del grupo pertenecemos a diversas materias de Ciencias Básicas (Física, Química, Matemáticas) hemos realizado algunos trabajos interdisciplinarios (S.Pastorino,2012;S.Juanto, 2013) , encontrando muy enriquecedor (para docentes y alumnos) el aporte de distintos enfoques sobre temas cuyos contenidos se relacionan, y también logramos responder al pedido de la CONEAU sobre integración de contenidos.
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    Mostración áulica usando TICs, empuje hidrostático
    (JEIN, 2014-09-04) Montero, Maria Fernanda; Devece, Eugenio; Del Zotto, Rubén; Attilio, Gabriel; Zerbino, Lia
    En las clases tradicionales de Física existen temas que son de difícil incorporación por parte del alumno si solo se desarrolla el contenido de manera teórica. Este trabajo apunta a reforzar ese tipo de problemáticas, en este caso aplicado al Empuje Hidrostático y las distintas interacciones puestas en juego en el mismo a través de una mostración áulica.
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    Estrategias didácticas en un laboratorio integrador de física y química
    (JEIN, 2014-09-04) Juanto, Susana; Iasi, Rodolfo; Urruspuru, Juan; Baade, Nieves; Zerbino, Lia
    Dado que tanto en Física como en Química se realizan laboratorios de calorimetría, se decidió realizar una integración entre ambas Cátedras. Debido a que los alumnos pueden estar cursando ambas materias al mismo tiempo o no, se propuso nivelar las diferencias en conocimientos previos de los alumnos, a través de ejercicios interactivos en la página web. Como primer paso a una integración horizontal, a partir de un intercambio entre los docentes de ambas cátedras, se puso en práctica una guía de preguntas conteniendo y confrontando conceptos involucrados. La guía se retoma y completa luego de cada clase experimental sobre el tema. Esta estrategia permitió no sólo una fluida realimentación entre algunos docentes de ambas cátedras, sino una notable evolución de los comentarios y asociaciones que los alumnos se animan a proponer o analizar durante el desarrollo de las clases.
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    Dynamic transition in conveyor belt driven granular flow
    (Elsevier, 2015) Cordero, José; Pugnaloni, Luis
    We consider the flow of disks of diameter d driven by a conveyor belt of dynamic friction coefficient μ through an aperture on a flat barrier. The flow rate presents two distinct regimes. At low belt velocities v the flow rate is proportional to v and to the aperture width A. However, beyond a critical velocity, the flow rate becomes independent of v and proportional to (A − kd)3/2 in correspondence with a two-dimensional Beverloo scaling. In this high-velocity regime we also show that the flow rate is proportional to μ1/2. We discuss that these contrasting behaviors arise from the competition between two characteristic time scales: the typical time a disk takes to stop on the belt after detaching from the granular pack and the time it takes to reach the aperture.
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    Flow rate of polygonal grains through a bottleneck Interplay between shape and size
    (Papers in Physics, 2015) Goldberg, Ezequiel; Carlevaro, Manuel; Pugnaloni, Luis
    We report two-dimensional simulations of circular and polygonal grains passing through an aperture at the bottom of a silo. The mass flow rate for regular polygons is lower than for disks\red{,} as observed by other authors. We show that both the exit velocity of the grains and the packing fraction are lower for polygons, which leads to the reduced flow rate. We point out the importance of the criteria used to define when two objects of different shape are considered to be of the same size. Depending on this criteria, the mass flow rate may vary significantly for some polygons. Moreover, the particle flow rate is non-trivially related to a combination of mass flow rate, particle shape and particle size. For some polygons, the particle flow rate may be lower or higher than that of the corresponding disks depending on the size comparison criteria.
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    Experimental proof of faster is slower in systems of frictional particles flowing through constrictions
    (American Physical Society, 2015) Pastor, Jose; Garcimartín, Angel; Gago, Paula; Peralta, Juan; Martín Gomez, Cesar; Ferrer, Luis; Maza, Diego; Parisi, Daniel; Pugnaloni, Luis; Zuriguel, Iker
    The “faster-is-slower” (FIS) effect was first predicted by computer simulations of the egress of pedestrians through a narrow exit [D. Helbing, I. J. Farkas, and T. Vicsek, Nature (London) 407, 487 (2000)]. FIS refers to the finding that, under certain conditions, an excess of the individuals' vigor in the attempt to exit causes a decrease in the flow rate. In general, this effect is identified by the appearance of a minimum when plotting the total evacuation time of a crowd as a function of the pedestrian desired velocity. Here, we experimentally show that the FIS effect indeed occurs in three different systems of discrete particles flowing through a constriction: (a) humans evacuating a room, (b) a herd of sheep entering a barn, and (c) grains flowing out a 2D hopper over a vibrated incline. This finding suggests that FIS is a universal phenomenon for active matter passing through a narrowing.
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    Wang Landau algorithm for entropic sampling of arch based microstates in the volume ensemble of static granular packings
    (Papers in Physics, 2015) Slobinsky, Demian; Pugnaloni, Luis
    We implement the Wang-Landau algorithm to sample with equal probabilities the static configurations of a model granular system. The "non-interacting rigid arch model" used is based on the description of static configurations by means of splitting the assembly of grains into sets of stable arches. This technique allows us to build the entropy as a function of the volume of the packing for large systems. We make a special note of the details that have to be considered when defining the microstates and proposing the moves for the correct sampling in these unusual models. We compare our results with previous exact calculations of the model made at moderate system sizes. The technique opens a new opportunity to calculate the entropy of more complex granular models.
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    Relevance of system size to the steady state properties of tapped granular systems
    (American Physical Society, 2015) Gago, Paula; Maza, Diego; Pugnaloni, Luis
    We investigate the steady-state packing fraction ϕ and force moment tensor Σ of quasi-two-dimensional granular columns subjected to tapping. Systems of different height h and width L are considered. We find that ϕ and Σ, which describe the macroscopic state of the system, are insensitive to L for L>50d (with d the grain diameter). However, results for granular columns of different heights cannot be conciliated. This suggests that comparison between results of different laboratories on this type of experiments can be done only for systems of same height. We show that a parameter ɛ=1+(Aω)2/(2gh), with A and ω the amplitude and frequency of the tap and g the acceleration of gravity, can be defined to characterize the tap intensity. This parameter is based on the effective flight of the granular bed, which takes into account the h dependency. When ϕ is plotted as a function of ɛ, the data collapses for systems of different h. However, this parameter alone is unable to determine the steady state to be reached since different Σ can be observed for a given ɛ if different column heights are considered.
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    Arch based configurations in the volume ensemble of static granular systems
    (Journal of Statistical Mechanics: Theory and Experiment, 2015) Slobinsky, D.; Pugnaloni, Luis
    We propose an alternative approach to count the microscopic static configurations of granular packs under gravity by considering arches. This strategy obviates the problem of filtering out configurations that are not mechanically stable, opening the way for a range of granular models to be studied via ensemble theory. Following this arch-based approach, we have obtained the exact density of states for a 2D, non-interacting rigid arch model of granular assemblies. The calculated arch size distribution and volume fluctuations show qualitative agreement with realistic simulations of tapped granular beds. We have also validated our calculations by comparing them with the analytic solution for the limiting case of a quasi-1D column of frictionless disks.
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    Química, ensayando evaluación formativa en entornos virtuales de aprendizaje
    (Reunión de educadores en la química, 2015-08-12) Djirikian, Damián; Lopez, Carlos; Chong, Carlos; Juanto, Susana
    Proponemos el uso de entornos informáticos, al ser conscientes que estos entornos proporcionan medios para crear un EVA (Entorno Virtual de Aprendizaje), facilitan el acceso a la información, la comunicación y la libertad del estudiante para orientar su acción, ampliando su concepción del qué, dónde y con quiénes aprender, particularmente en la evaluación formativa, tendiendo a dar respuesta a los requerimientos de la CONEAU sobre la adquisición de competencias. Sostenemos que el factor de más peso en la autoevaluación es el diseño y desarrollo didáctico realizado por el docente, propiciamos la autogestión del aprendizaje a través de software interactivo donde realizamos el desarrollo didáctico de la autoevaluación, de forma que el contenido esté adecuadamente organizado, sea pertinente y relevante a tema en cuestión, y se pueda brindar respuestas al alumno que completen su formación, empleando un software gratuito (Hot Potatoes)
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    Los modelos atómicos, analogías y análogos concretos
    (Jornadas nacionales y jornadas internacionales de enseñanza de la química universitaria, superior, secundaria y técnica, 2015-10-06) Pastorino, Silvia Mara; Djirikian, Damián; Juanto, Susana
    Comprender los modelos atómicos y sus implicancias es un tema fundamental en Química, muchas veces opacado por el hecho que los alumnos no poseen suficientes conocimientos previos de electricidad y magnetismo, no sólo en nivel secundario sino incluso en nivel universitario. Este trabajo relata como un enfoque basado en analogías y análogos concretos puede mejorar la comprensión del tema.
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    Física de bajo costo
    (Jornadas de Enseñanza e Investigación Educativa en el campo de las Ciencias Exactas y Naturales UNLP, 2015-10-28) Juanto, Susana; Prodanoff, Fabiana; Zapata, Matías; Ronconi, Jorge; Bié, Nicolás Daniel
    La Física forma parte de las llamadas ciencias fácticas. Las ciencias fácticas tratan de encontrar una coherencia entre los hechos y las ideas que se plantean sobre esos hechos. Pero, esta coherencia por sí sola no alcanza, se hace necesaria la observación y la experimentación. Es la razón por la cual son tan necesarias las experiencias de laboratorio. En las escuelas secundarias (ES), ya sea por falta de presupuesto o de material, la mayoría de los conceptos relacionados con Física se plantean desde una perspectiva teórica. Se hace necesario revertir esta situación de casi nula experimentación por parte de los estudiantes. Se desarrollan aquí algunas de las experiencias que se realizan con el equipo de electrostática Van de Graaff y se presenta una máquina de Wimshurst de construcción casera que permite la realización de las mismas experiencias, así como otras propuestas sencillas y de bajo costo.