Infinite-contrast periodic composites with strongly nonlinear behavior: Effective-medium theory versus full-field simulations

This paper presents a combined numerical-theoretical study of the macroscopic behavior and local field distributions in a special class of two-dimensional periodic composites with viscoplastic phases. The emphasis is on strongly nonlinear materials containing pores or rigid inclusions. Full-field numerical simulations are carried out using a Fast-Fourier Transform algorithm [H. Moulinec, P. Suquet, C. R. Acad. Sci. Paris II 318, 1417 (1994)] Moulinec, P. Suquet, C. R. Acad. Sci. Paris II 318, 1417 (1994), while the theoretical results are obtained by means of the `second-order' nonlinear homogenization method [P. Ponte Castaneda, J. Mech. Phys. Solids 50, 737 (2002)]. The effect of nonlinearity and inclusion concentration is investigated in the context of power-law (with strain-rate sensitivity m) behavior for the matrix phase under in-plane shear loadings. Overall, the `second-order' estimates are found to be in good agreement with the numerical simulations, with the best agreement for the rigidly reinforced materials. For the porous systems, as the nonlinearity increases (m decreases), the strain field is found to localize along shear bands passing through the voids (the strain fluctuations becoming unbounded) and the effective stress exhibits a singular behavior in the dilute limit. More specifically, for small porosities and fixed nonlinearity m>0, the effective stress decreases linearly with increasing porosity. However, for ideally plastic behavior (m = 0), the dependence on porosity becomes non-analytic. On the other hand, for rigidly-reinforced composites, the strain field adopts a tile pattern with bounded strain fluctuations, and no singular behavior is observed (to leading order) in the dilute limit.Comment: 28 pages, 28 B&W figures, 2 tables of color maps, to be published in International Journal of Solids and Structures (in press

APPLICATIONS OF VORONOI AND DELAUNAY DIAGRAMS IN THE SOLUTION OF THE GEODETIC BOUNDARY VALUE PROBLEM

Voronoi and Delaunay structures are presented as discretization tools to be used innumerical surface integration aiming the computation of geodetic problemssolutions, when under the integral there is a non-analytical function (e. g., gravityanomaly and height). In the Voronoi approach, the target area is partitioned intopolygons which contain the observed point and no interpolation is necessary, onlythe original data is used. In the Delaunay approach, the observed points are verticesof triangular cells and the value for a cell is interpolated for its barycenter. If theamount and distribution of the observed points are adequate, gridding operation isnot required and the numerical surface integration is carried out by point-wise. Evenwhen the amount and distribution of the observed points are not enough, thestructures of Voronoi and Delaunay can combine grid with observed points in orderto preserve the integrity of the original information. Both schemes are applied to thecomputation of the Stokes’ integral, the terrain correction, the indirect effect and thegradient of the gravity anomaly, in the State of Rio de Janeiro, Brazil area

Taxidermia en el Museo de La Plata.

En esta edición se intenta documentar en orden cronológico de incorporación laboral, la actividad de aquellos preparadores que desarrollaron tareas en el Taller de Taxidermia, el que, a partir de la década de los 30 del pasado siglo, pasó a depender de la División Zoología Vertebrados; se incluyen la imágenes de algunas de las piezas por ellos realizadas y la documentación disponible. Probablemente habrá omisiones y desde luego existen huecos que no pudimos completar, debido a que nos basamos en documentación incompleta y relatos de integrantes de la División Zoología Vertebrados, algunos que ya cesaron en sus funciones, sin la posibilidad de recurrir a más fuentes. Es nuestra intención plasmar una parte importante de la historia de nuestra institución, de la que se desconoce la dedicación y paciencia necesarias por parte de los involucrados para efectuar una tarea casi artística, para que al fin los ejemplares puedan exhibirse o pasar a formar parte de las colecciones científicas, además de la posterior conservación y tratamiento especial que requieren

Paraconductivity of granular Al films at high reduced temperatures and magnetic fields

International audienceThe electrical conductivity induced near the superconducting transition by thermal fluctuations was measured in different granular aluminum films. The seemingly anomalous behavior at high reduced temperatures and magnetic fields is explained by taking into account a total-energy cutoff in the superconducting fluctuation spectrum in both the direct (Aslamazov-Larkin) and the indirect (anomalous Maki-Thompson) contributions to the fluctuation effects. The analysis allowed a reliable determination of the coherence length amplitudes, which resulted to be much larger (20-48 nm) than the grains size (5-10 nm). This suggests that the grains are strongly Josephson-coupled, while the T c value is still as high as twice the bulk value. These results could contribute to identifying the mechanisms enhancing T c in these materials

Ionospheric error analysis in gps measurements

The results of an experiment aimed at evaluating the effects of the ionosphere on GPS positioning applications are presented in this paper. Specifically, the study, based upon a differential approach, was conducted utilizing GPS measurements acquired by various receivers located at increasing inter-distances. The experimental research was developed upon the basis of two groups of baselines: the first group is comprised of "short" baselines (less than 10 km); the second group is characterized by greater distances (up to 90 km). The obtained results were compared either upon the basis of the geometric characteristics, for six different baseline lengths, using 24 hours of data, or upon temporal variations, by examining two periods of varying intensity in ionospheric activity respectively coinciding with the maximum of the 23 solar cycle and in conditions of low ionospheric activity. The analysis revealed variations in terms of inter-distance as well as different performances primarily owing to temporal modifications in the state of the ionosphere

Preschool wheezing and gastro-esophageal reflux: –causal or casual coincidence? update from literature

Gastroesophageal reflux (GER) and wheeze are two common conditions in children. GER has been advocated as a causative factor for explaining recurrent to persistent respiratory symptoms at any age. This association very often means that many children with cough, wheezing, or recurrent respiratory infections receive empirical anti-reflux medications. The causal relationship is still largely discussed. Compared to the large number of studies in infants and adolescents, literature on the relationship between GER and wheeze in preschool children is scarce and inconclusive. The aim of the present narrative review was to summarize what is known so far, and what the literature has proposed in the last 20 years, on the relationship between preschool wheezing and GER. In preschool children with respiratory symptoms there is a high rate of positivity of reflux testing, for this reason pH-MII testing and endoscopy are recommended. Flexible bronchoscopy may be useful to exclude anatomical abnormalities as the cause of wheezing in infancy and preschool years. Several biomarkers, as well as empirical anti-reflux therapy, have been proposed for the diagnosis of GER-related airway diseases, but the conclusions of these studies are controversial or even conflicting. There is a great need for future clinical trials to confirm or rule out the association

Modeling Heterogeneous Materials via Two-Point Correlation Functions: I. Basic Principles

Heterogeneous materials abound in nature and man-made situations. Examples include porous media, biological materials, and composite materials. Diverse and interesting properties exhibited by these materials result from their complex microstructures, which also make it difficult to model the materials. In this first part of a series of two papers, we collect the known necessary conditions on the standard two-point correlation function S2(r) and formulate a new conjecture. In particular, we argue that given a complete two-point correlation function space, S2(r) of any statistically homogeneous material can be expressed through a map on a selected set of bases of the function space. We provide new examples of realizable two-point correlation functions and suggest a set of analytical basis functions. Moreover, we devise an efficient and isotropy- preserving construction algorithm, namely, the Lattice-Point algorithm to generate realizations of materials from their two- point correlation functions based on the Yeong-Torquato technique. Subsequent analysis can be performed on the generated images to obtain desired macroscopic properties. These developments are integrated here into a general scheme that enables one to model and categorize heterogeneous materials via two-point correlation functions.Comment: 37 pages, 26 figure

Investigating Social-Ecological Linkages in Baltimore, MD: Environmental Stewardship, Green Stormwater Infrastructure, and Tree Canopy Change at the Neighborhood Level

Environmental stewardship organizations in Baltimore play important roles in taking care of the local environment through conservation, management, restoration, monitoring, education, and other efforts. These diverse activities were captured in Baltimore’s Stewardship Mapping and Assessment Project (STEW-MAP) surveys in 2011 and 2019. Despite previous research, knowledge gaps remain about the spatial and temporal dynamics of environmental stewardship groups and their relationships with elements of the built environment, such as green stormwater infrastructure (GSI) and tree canopy cover. Using spatial Bayesian regression, we examine how 1) voluntary GSI, 2) regulatory GSI, 3) tree canopy cover, and 4) tree canopy cover change vary by the number of local stewardship organizations related to stormwater management or trees, with and without controlling for impervious surface cover, median household income, race, ethnicity, and vacant housing. Voluntary GSI represents bottom-up community initiatives and was expected to be more strongly predicted by stewardship than regulatory GSI, which is implemented in a top-down manner by City agencies. Tree canopy cover and canopy change are the product of both bottom up and top-down tree planting, protection, and maintenance activities. Overall, the number of stewardship groups from either point in time was not a significant predictor of tree canopy or GSI of either type. However, 2011 tree stewardship groups were positively associated with tree canopy gain from 2013 to 2018, and 2019 tree stewardship groups were slightly negatively associated with tree canopy change. Adjusted models showed impervious surface was positively related to voluntary GSI, median household income was positively associated with tree canopy cover, and percent Black/African American was negatively associated with regulatory GSI. The findings raise questions about how stewardship activities are quantified and mapped, and the other plausible mechanisms that explain the spatial distribution of GSI and tree canopy cover. More long-term quantitative data, augmented with qualitative, engaged and process-based inquiry might be needed to more holistically understand local stewardship motivations and actions and the potential outcomes of the myriad groups who care for their neighborhoods