471 research outputs found

    Coarse-grained simulations of flow-induced nucleation in semi-crystalline polymers

    Full text link
    We perform kinetic Monte Carlo simulations of flow-induced nucleation in polymer melts with an algorithm that is tractable even at low undercooling. The configuration of the non-crystallized chains under flow is computed with a recent non-linear tube model. Our simulations predict both enhanced nucleation and the growth of shish-like elongated nuclei for sufficiently fast flows. The simulations predict several experimental phenomena and theoretically justify a previously empirical result for the flow-enhanced nucleation rate. The simulations are highly pertinent to both the fundamental understanding and process modeling of flow-induced crystallization in polymer melts.Comment: 17 pages, 6 eps figure

    National efficiency and social planning in Britain, 1914-1921

    Get PDF
    Traditionally, improvements in the quality of life in Britain resulted from the temporary fusion of sometimes opposite interests which spurred Parliamentary action. Therefore, reform was rarely a party issue. Each reform question was treated separately and never as a part of a body of similar measures. Individuals were free to support or oppose particular reforms according to their own interests and motivations. The result of this lack of strong consistent reformist sentiment was a pattern of piece-meal legislative action with a notable absence of comprehensive social planning. The First World War, however, brought new challenges to British society. As the traditional, haphazard method of dealing with problems of social organization failed to meet the needs of a nation engaged in a total war, British society came to accept a high degree of central control and guidance under the banner of national efficiency. This acceptance of social planning opened up new opportunities to those reformers who had long sought to undertake the cure or Britain\u27s social ills on a massive scale

    Diseño de un hormigón permeable mediante el método ACI-211.1 utilizando cantos rodados del río Manantial de Guangala que se encuentra ubicado en la comuna de Manantial de Guangala.

    Get PDF
    El presente trabajo consiste en el desarrollo del diseño de un hormigón permeable utilizando como agregado grueso cantos rodados provenientes del río Manantial de Guangala. El diseño de mezcla de hormigón se realizó mediante el método ACI-211.1 distribuyendo el peso del agregado fino en los otros materiales componentes del hormigón, se desarrollaron 7 dosificaciones con variaciones en la resistencia de diseño y la cantidad de vacíos, se evaluaron las características físico-mecánicas en las probetas de hormigón resultantes de cada una de las dosificaciones, determinándose, la permeabilidad y la resistencia a la compresión, como los principales enfoques del estudio. Se realizó también el estudio de los agregados grueso y fino bajo las normas de ensayos exigidas por el INEN, procurando, de esta manera, conocer su calidad como agregados empleados para la fabricación del hormigón permeable

    Intrusion and extrusion of liquids in highly confining media: bridging fundamental research to applications

    Get PDF
    Wetting and drying of pores or cavities, made by walls that attract or repel the liquid, is a ubiquitous process in nature and has many technological applications including, for example, liquid separation, chromatography, energy damping, conversion, and storage. Understanding under which conditions intrusion/extrusion takes place and how to control/tune them by chemical or physical means are currently among the main questions in the field. Historically, the theory to model intrusion/extrusion was based on the mechanics of fluids. However, the discovery of the existence of metastable states, where systems are kinetically trapped in the intruded or extruded configuration, fostered the research based on modern statistical mechanics concepts and more accurate models of the liquid, vapor, and gas phases beyond the simplest sharp interface representation. In parallel, inspired by the growing number of technological applications of intrusion/extrusion, experimental research blossomed considering systems with complex chemistry and pore topology, possessing flexible frameworks, and presenting unusual properties, such as negative volumetric compressibility. In this article, we review recent theoretical and experimental progresses, presenting it in the context of unifying framework. We illustrate also emerging technological applications of intrusion/extrusion and discuss challenges ahead

    Doping evolution of superconducting gaps and electronic densities of states in Ba(Fe1-xCox)2As2 iron pnictides

    Full text link
    An extensive calorimetric study of the normal- and superconducting-state properties of Ba(Fe1-xCox)2As2 is presented for 0 < x < 0.2. The normal-state Sommerfeld coefficient increases (decreases) with Co doping for x 0.06), which illustrates the strong competition between magnetism and superconductivity to monopolize the Fermi surface in the underdoped region and the filling of the hole bands for overdoped Ba(Fe1-xCox)2As2. All superconducting samples exhibit a residual electronic density of states of unknown origin in the zero-temperature limit, which is minimal at optimal doping but increases to the normal-state value in the strongly under- and over-doped regions. The remaining specific heat in the superconducting state is well described using a two-band model with isotropic s-wave superconducting gaps.Comment: Submitted to Europhysics Letter

    Single indium atoms and few-atom indium clusters anchored onto graphene via silicon heteroatoms

    Full text link
    Single atoms and few-atom nanoclusters are of high interest in catalysis and plasmonics, but pathways for their fabrication and stable placement remain scarce. We report here the self-assembly of room-temperature-stable single indium (In) atoms and few-atom In clusters (2-6 atoms) that are anchored to substitutional silicon (Si) impurity atoms in suspended monolayer graphene membranes. Using atomically resolved scanning transmission electron microscopy (STEM), we find that the exact atomic arrangements of the In atoms depend strongly on the original coordination of the Si anchors in the graphene lattice: Single In atoms and In clusters with 3-fold symmetry readily form on 3-fold coordinated Si atoms, whereas 4-fold symmetric clusters are found attached to 4-fold coordinated Si atoms. All structures are produced by our fabrication route without the requirement for electron-beam induced materials modification. In turn, when activated by electron beam irradiation in the STEM, we observe in situ the formation, restructuring and translation dynamics of the Si-anchored In structures: Hexagon-centered 4-fold symmetric In clusters can (reversibly) transform into In chains or In dimers, whereas C-centered 3-fold symmetric In clusters can move along the zig-zag direction of the graphene lattice due to the migration of Si atoms during electron-beam irradiation, or transform to Si-anchored single In atoms. Our results provide a novel framework for the controlled self-assembly and heteroatomic anchoring of single atoms and few-atom clusters on graphene

    Repressive gene regulation synchronizes development with cellular metabolism

    Get PDF
    Metabolic conditions affect the developmental tempo of animals. Developmental gene regulatory networks (GRNs) must therefore synchronize their dynamics with a variable timescale. We find that layered repression of genes couples GRN output with variable metabolism. When repressors of transcription or mRNA and protein stability are lost, fewer errors in Drosophila development occur when metabolism is lowered. We demonstrate the universality of this phenomenon by eliminating the entire microRNA family of repressors and find that development to maturity can be largely rescued when metabolism is reduced. Using a mathematical model that replicates GRN dynamics, we find that lowering metabolism suppresses the emergence of developmental errors by curtailing the influence of auxiliary repressors on GRN output. We experimentally show that gene expression dynamics are less affected by loss of repressors when metabolism is reduced. Thus, layered repression provides robustness through error suppression and may provide an evolutionary route to a shorter reproductive cycle

    The GRAPPA-OMERACT Working Group:4 Prioritized Domains for Completing the Core Outcome Measurement Set for Psoriatic Arthritis 2019 Updates

    Get PDF
    The Group for Research and Assessment of Psoriasis and Psoriatic Arthritis (GRAPPA)-Outcome Measures in Rheumatology (OMERACT) Psoriatic Arthritis (PsA) working group provided updates at the 2019 GRAPPA annual meeting on its work toward developing a core outcome set for PsA. The working group prioritized 4 domains, including musculoskeletal disease activity (enthesitis and dactylitis), fatigue, physical function, and structural damage. In this report, the working group summarizes its progress in standardizing the core outcome set for these 4 domains.</p

    Plan de marketing para la comercialización de Chevrolet Camaro 2.0T

    Get PDF
    El presente trabajo de investigación surge como deseo de los autores por contribuir con la marca Chevrolet en el lanzamiento y comercialización de su nuevo modelo de auto deportivo Camaro 2.0 Turbo ante la siguiente problemática: La necesidad detectada en personas interesadas en adquirir un vehículo deportivo pero que no tienen suficiente dinero para comprarlo, ya que esta gama de vehículo está dentro del segmento de precio alto e inalcanzable para el promedio de personas del país. Es así como nos trazamos el siguiente objetivo general: Determinar la viabilidad de negocio del lanzamiento al mercado de un vehículo deportivo que compita en el segmento económico

    CHARMM-GUI Membrane Builder Toward Realistic Biological Membrane Simulations

    Get PDF
    This is the peer reviewed version of the following article: Wu, E. L., Cheng, X., Jo, S., Rui, H., Song, K. C., Dávila-Contreras, E. M., … Im, W. (2014). CHARMM-GUI Membrane Builder Toward Realistic Biological Membrane Simulations. Journal of Computational Chemistry, 35(27), 1997–2004. http://doi.org/10.1002/jcc.23702, which has been published in final form at http://doi.org/10.1002/jcc.23702. This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions for Self-Archiving.CHARMM-GUI Membrane Builder, http://www.charmm-gui.org/input/membrane, is a web-based user interface designed to interactively build all-atom protein/membrane or membrane-only systems for molecular dynamics simulation through an automated optimized process. In this work, we describe the new features and major improvements in Membrane Builderthat allow users to robustly build realistic biological membrane systems, including (1) addition of new lipid types such as phosphoinositides, cardiolipin, sphingolipids, bacterial lipids, and ergosterol, yielding more than 180 lipid types, (2) enhanced building procedure for lipid packing around protein, (3) reliable algorithm to detect lipid tail penetration to ring structures and protein surface, (4) distance-based algorithm for faster initial ion displacement, (5) CHARMM inputs for P21 image transformation, and (6) NAMD equilibration and production inputs. The robustness of these new features is illustrated by building and simulating a membrane model of the polar and septal regions of E. coli membrane, which contains five lipid types: cardiolipin lipids with two types of acyl chains and phosphatidylethanolamine lipids with three types of acyl chains. It is our hope that CHARMM-GUI Membrane Builder becomes a useful tool for simulation studies to better understand the structure and dynamics of proteins and lipids in realistic biological membrane environments
    corecore