713 research outputs found

    On the Elastic Modeling of Highly Extensible Polyurea

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    Polyurea is a soft and highly flexible material commonly used as protective coating on concrete or steel structures. Often subjected to abrasion and impact loading, numerical simulations of such structures require material models accounting for both stiffness and high extensibility of the coating. Hence, comparing several classical approaches with emphasis on efficiency and material stability, for impact simulations a Mooney-Rivlin model with μ1 = 6 MPa and μ2 = 1.5 MPa is suggested. Therefor material parameters from different sources are collected and, additionally, data from our uniaxial tension experiments are provided. The modeling is verified by comparison with a Taylor anvil impact experiment

    Modeling Tube-Forming of an Austenitic Stainless Steel with Exploitation of Martensite Evolution

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    Within the last years the industrial manufacturing of tubes has developed to an increasingly complex process. In particular, during the forming procedure of sheets made of austenitic stainless steel, the increase and the content of strain-induced martensite needs to be controlled in order to achieve the optimal structural properties of the manufactured tube with respect to very-high-cycle fatigue (VHCF). On the basis of experimental investigations this contribution deals with the numerical simulation of the forming process with special consideration of the martensite ratio as a function of temperature and deformation field. A convenient approach of modeling the martensite evolution as well as the extension of this model to polyaxial states of stress and a comparison with experimental results is presented

    Phytoplasmas associated with grapevine yellows in Virginia belong to group 16SrI, subgroup A (tomato big bud phytoplasma subgroup), and group 16SrIII, new subgroup I

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    Grapevine yellows disease in Virginia closely resembles flavescence doree and other grapevine yellows diseases, but the phytoplasmas infecting grapevines in Virginia are distinct from other grapevine yellows pathogens. RFLP analysis of PCR-amplified 16S rDNA indicated that a Virginia grapevine yellows phytoplasma, designated VGYIII was distinct from all other phytoplasmas studied, but was most closely related to spirea stunt (SP1), walnut witches' broom (WWB), and poinsettia branch-inducing (PoiB 1) phytoplasmas in subgroups E, G, and H, respectively, of 16S I RNA group 16SrIII. RFLP analysis also indicated the existence of sequence heterogeneity between the two rRNA operons in the genomes of SP 1 and WWB. Based on the results from RFLP and sequence comparisons with other group 16SrIII phytoplasmas, the VGYIII phytoplasma was classified in a new subgroup, designated 16SrIII-I. A second phytoplasma (VGYI) was detected in cultivated grapevines(Vitis vinifera L.) and in wild grapevines(V. riparia Michx.) and identified as a member of subgroup 16SrI-A. There was no evidence of flavescence doree, bois noir, or Australian grapevine yellows phytoplasmas in Virginia

    Nonequilibrium brittle fracture propagation: Steady state, oscillations and intermittency

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    A minimal model is constructed for two-dimensional fracture propagation. The heterogeneous process zone is presumed to suppress stress relaxation rate, leading to non-quasistatic behavior. Using the Yoffe solution, I construct and solve a dynamical equation for the tip stress. I discuss a generic tip velocity response to local stress and find that noise-free propagation is either at steady state or oscillatory, depending only on one material parameter. Noise gives rise to intermittency and quasi-periodicity. The theory explains the velocity oscillations and the complicated behavior seen in polymeric and amorphous brittle materials. I suggest experimental verifications and new connections between velocity measurements and material properties.Comment: To appear in Phys. Rev. Lett., 6 pages, self-contained TeX file, 3 postscript figures upon request from author at [email protected] or [email protected], http://cnls-www.lanl.gov/homepages/rafi/rafindex.htm

    Starting a Laparoscopic Surgery Programme in the Second Largest Teaching Hospital in Ghana

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    Background: Komfo Anokye Teaching Hospital (KATH) is the second  largest hospital in Ghana. Two years have elapsed after performance of the first laparoscopic cholecystectomy.Objectives: To examine our experience and lessons learned.Design: Retrospective review.Setting: Komfo Anokye Teaching Hospital (KATH). Subjects: We reviewed leadership support, the role of a surgeon champion, training of physician and OR staff, influence of surgeons from outside Ghana and equipment status. The results of laparoscopic cholecystectomies performed from 2010-2012 were compared with information available from open cholecystectomies over the same period.Results: Evidence of leadership support included equipment purchase and invitation of outside experts yearly from 2008. A KATH surgeon champion was identified in 2010. A dedicated OR team received training and exhibited excellent ownership of equipment preparation. Since 2010, 25 laparoscopic cholecystectomies have been performed, 17 independently by a single surgeon. Average operative time was 1.41 hours and length of stay (LOS) 1.5 days. Conversion rate was 4.0%(1/25). Complication rate was 20.0%(5/25), none involving haemorrhage or injuries to bile ducts or bowel. Median patient satisfaction score was 5 on a scale of 1-5 where 5 is most satisfied. Complication rates and hospital stay were lower than for open cholecystectomy (20.0%vs34.5%, p>0.05 and 1.5days vs 6.6days, p<0.001 respectively). Operative times were on average 27min onger for laparoscopic cholecystectomy (p<0.01).Conclusion: Laparoscopic cholecystectomy at KATH has become a reality with less complications rates, shorter LOS, and trends towards improved patient satisfaction. Expanding laparoscopic surgery in Ghana requires its inclusion into residency training programmes and public education about its benefits for both patients and physicians

    Effects of Symmetry Breaking on the Strong and Electroweak Interactions of the Vector Nonet

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    Starting from a chiral invariant and quark line rule conserving Lagrangian of pseudoscalar and vector nonets we introduce first and second order symmetry breaking as well as quark line rule violating terms and fit the parameters, at tree level, to many strong and electroweak processes. A number of predictions are made. The electroweak interactions are included in a manifestly gauge invariant manner. The resulting symmetry breaking pattern is discussed in detail. Specifically, for the ``strong'' interactions, we study all the vector meson masses and V -> \phi \phi decays, including isotopic spin violations. In the electroweak sector we study the { rho^0 , omega , phi } -> e^+e^- decays, { pi^+ , K^+ , K^0 } ``charge radii'', K_{l3} ``slope factor'' and the overall e^+e^- -> pi^+ pi^- process. It is hoped that the resulting model may be useful as a reasonable description of low energy physics in the range up to about 1 GeV.Comment: 43 pages (LaTeX), 5 PostScript figures are included as uuencoded-compressed-tar file at the en

    Quark-meson coupling model with the cloudy bag

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    Using the volume coupling version of the cloudy bag model, the quark-meson coupling model is extended to study the role of pion field and the properties of nuclear matter. The extended model includes the effect of gluon exchange as well as the pion-cloud effect, and provides a good description of the nuclear matter properties. The relationship between the extended model and the EFT approach to nuclear matter is also discussed.Comment: 13 pages, 3 figure

    Energy storage mechanisms in vacancy-ordered Wadsley-Roth layered niobates

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    Wadsley–Roth (WR) crystallographic shear structures demonstrate high energy and power densities as Li-ion battery anode materials. We report the (de)lithiation behavior of two WR-derived layered niobates: NaNb_{3}O_{8} and KNb_{3}O_{8}. Both demonstrate multi-electron (Nb5+/Nb3+) redox on the first discharge, reacting with ≈5 mol Li per mol ANb_{3}O_{8}. Li intercalation in NaNb_{3}O_{8} is dominated by Li-diffusion kinetics and evolution of the interlayer structure, with Li initially filling octahedral sites near the interlayer space to draw the layers together to form a (2 × 2)_{∞} WR structure. This average structure change pushes Na ions into the square channels, blocking fast Li diffusion down the square channels that provide the fast Li-ion conduction in most WR materials. Upon charge, Li ions incorporated into the octahedral WR sites (ordered vacancies in the layered structure) are extracted, revealing a new, reversible Li site for additional capacity in WR-like materials. The behavior of KNb_{3}O_{8} is similar, but has additional hysteresis associated with its larger counter-cation. While neither layered niobate matches the demonstrated performance of WR materials, by studying them, we identify a route for increased capacity in WR-like frameworks. Additionally, we identify the important role of Li diffusion kinetics and counter-cations in the cycling behavior of WR-derived structures

    Electromagnetic Meson Form Factors in the Salpeter Model

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    We present a covariant scheme to calculate mesonic transitions in the framework of the Salpeter equation for qqˉq\bar{q}-states. The full Bethe Salpeter amplitudes are reconstructed from equal time amplitudes which were obtained in a previous paper\cite{Mue} by solving the Salpeter equation for a confining plus an instanton induced interaction. This method is applied to calculate electromagnetic form factors and decay widths of low lying pseudoscalar and vector mesons including predictions for CEBAF experiments. We also describe the momentum transfer dependence for the processes π0,η,η′→γγ∗\pi^0,\eta,\eta'\rightarrow\gamma\gamma^*.Comment: 22 pages including 10 figure
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