Search results for " Simulation"

showing 10 items of 4034 documents

High-temperature X-ray absorption spectroscopy study of thermochromic copper molybdate

2019

Financial support provided by Scientific Research Project for Students and Young Researchers Nr. SJZ/2017/5 and SJZ/2018/1 realized at the Institute of Solid State Physics, University of Latvia is greatly acknowledged. The work was also supported by philanthropist MikroTik and administrated by the University of Latvia Foundation . The experiment at the Elettra synchrotron was performed within the project No. 20150303 .

Materials sciencePolymers and PlasticsAbsorption spectroscopyAnalytical chemistrychemistry.chemical_element02 engineering and technologyMolybdate01 natural sciences7. Clean energychemistry.chemical_compound0103 physical sciences:NATURAL SCIENCES:Physics [Research Subject Categories]010302 applied physicsReverse Monte Carlo simulationsX-ray absorption spectroscopyThermochromismExtended X-ray absorption fine structureCuMoO4Metals and AlloysAtmospheric temperature range021001 nanoscience & nanotechnologyCopperXANESXANESElectronic Optical and Magnetic MaterialsEXAFSchemistryMolybdenumCeramics and Composites0210 nano-technologyActa Materialia
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A continuum damage model to simulate failure in composite plates under uniaxial compression

2007

Experimental investigations and numerical simulations are performed in order to numerically predict the buckling behaviour of thin composite laminated specimens. Experiments are aimed at two objectives: the first is to completely characterize the carbon/epoxy material under simple loading configurations, the second is to test this material in buckling and post-buckling situations. The data collected with the first campaign of experiments are used to obtain the strength parameters required to define a damage model based on the failure theory by Tsai-Wu. This model is implemented in a Finite Element (FE) code and numerical simulations of buckling are executed for unidirectional and cross-ply …

Materials sciencePolymers and PlasticsContinuum (measurement)General Chemical EngineeringOrganic ChemistryComposite numberUniaxial compressionmodelling and simulationpolymer compositeMaterials ChemistryPolymer compositesmechanical propertiePhysical and Theoretical ChemistryComposite materialSettore ING-IND/15 - Disegno E Metodi Dell'Ingegneria IndustrialeExpress Polymer Letters
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Monitoring molecular dynamics of bacterial cellulose composites reinforced with graphene oxide by carboxymethyl cellulose addition

2017

[EN] Broadband Dielectric Relaxation Spectroscopy was performed to study the molecular dynamics of dried Bacterial Cellulose/Carboxymethyl Cellulose-Graphene Oxide (BC/CMC-GO) composites as a function of the concentration of CMC in the culture media. At low temperature the dielectric spectra are dominated by a dipolar process labelled as a beta -relaxation, whereas electrode polarization and the contribution of dc-conductivity dominate the spectra at high temperatures and low frequency. The CMC concentration affects the morphological structure of cellulose and subsequently alters its physical properties. X-ray diffractometry measurements show that increasing the concentration of CMC promote…

Materials sciencePolymers and PlasticsOxidemacromolecular substances02 engineering and technologyMolecular Dynamics SimulationDielectric relaxation spectroscopy010402 general chemistry01 natural scienceslaw.inventionMolecular dynamicschemistry.chemical_compoundBacterial cellulose compositeslawMaterials ChemistrymedicineThermal stabilityCelluloseComposite materialCelluloseGrapheneOrganic Chemistrytechnology industry and agricultureOxidesThermal stability021001 nanoscience & nanotechnology0104 chemical sciencesCarboxymethyl cellulosechemistryBacterial celluloseIntramolecular forceCarboxymethylcellulose SodiumMAQUINAS Y MOTORES TERMICOSGraphite0210 nano-technologyTERMODINAMICA APLICADA (UPV)medicine.drug
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Structural Characterization of Organics Using Manual and Automated Electron Diffraction

2010

In the last decade the importance of transmission electron microscopic studies has become increasingly important with respect to the characterization of organic materials, ranging from small organic molecules to polymers and biological macromolecules. This review will focus on the use of transmission electron microscope to perform electron crystallography experiments, detailing the approaches in acquiring electron crystallographic data. The traditional selected area approach and the recently developed method of automated diffraction tomography (ADT) will be discussed with special attention paid to the handling of electron beam sensitive organic materials.

Materials sciencePolymers and PlasticsRenewable Energy Sustainability and the EnvironmentElectron crystallographyBiomedical EngineeringCrystallographic dataNanotechnologyGeneral ChemistryElectronautomated data acquisition; electron diffraction; simulation methods; structure determinationsimulation methodsautomated data acquisitionstructure determinationElectronic Optical and Magnetic MaterialsCharacterization (materials science)Diffraction tomographyElectron diffractionTransmission electron microscopyMaterials ChemistryEnergy filtered transmission electron microscopyelectron diffractionElectrical and Electronic Engineering
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The rate of polymerization in two loci reaction systems: VDF-HFP precipitation copolymerization in supercritical carbon dioxide

2011

When the copolymerization of vinylidene fluoride (VDF) and hexafluoropropylene (HFP) is carried out in supercritical carbon dioxide (scCO 2) under heterogeneous conditions, the reaction occurs both in the continuous CO 2-rich phase and in the dispersed polymer-rich phase. The two phases being characterized by different values of reactant concentrations and kinetic parameters, one would expect that the reaction kinetics is affected by the polymer phase holdup in the reactor. However, the reaction rate is almost insensitive to the amount of produced polymer, at least at specific reaction conditions. This apparent contradiction is discussed and clarified in this paper by a series of comparativ…

Materials sciencePolymers and PlasticsRich phaseChemical kineticsReaction ratechemistry.chemical_compoundSupercritical carbon dioxideCopolymerCopolymerizationPhase (matter)Single phasePolymer chemistryMaterials ChemistryCopolymerHeterogeneous conditionPolymerRate of polymerizationReaction systemchemistry.chemical_classificationSupercritical carbon dioxideHexafluoropropyleneExperimental investigationComparative simulationGeneral ChemistryPolymerComputer simulationReaction rates Supercritical fluid extractionReactant concentrationchemistryPolymerizationChemical engineeringReaction conditionVinylidene fluoride Carbon dioxideHeterogeneous polymerizationHexafluoropropylenePolymer phasePolymer Engineering & Science
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Thermal disorder and correlation effects in anti-perovskite-type copper nitride

2017

This work has been supported by the Latvian National Research Program IMIS2. The EXAFS experiment has been financed from the European Community's Seventh Framework Programme under grant agreement No. 226716 (Project I-20100098 EC). J.T. also gratefully acknowledges support from the National Science Foundation under the DMREF program Grant No. CHE-1534184.

Materials sciencePolymers and Plasticschemistry.chemical_element02 engineering and technologyReverse Monte CarloCrystal structureNitride01 natural scienceschemistry.chemical_compoundCondensed Matter::Materials ScienceRhenium trioxideddc:670Condensed Matter::Superconductivity0103 physical sciences:NATURAL SCIENCES:Physics [Research Subject Categories]010306 general physicsAnisotropyPerovskite (structure)Reverse Monte Carlo simulationsExtended X-ray absorption fine structureQuantitative Biology::Neurons and CognitionCu3NLattice dynamicsMetals and Alloys021001 nanoscience & nanotechnologyCopper3. Good healthElectronic Optical and Magnetic MaterialsCrystallographyEXAFSchemistryCeramics and Composites0210 nano-technology
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Numerical Simulations of Nanogel Synthesis Using Pulsed Electron Beam

2019

In this work, a new method for numerical simulation of the radiation chemistry of aqueous polymer solutions exposed to a sequence of electron pulses is presented. The numerical simulations are based on a deterministic approach encompassing the conventional homogeneous radiation chemistry of water as well as the chemistry of polymer radicals. The multitude of possible reactions in the macromolecular system is handled by allowing for a large number of macromolecular species. The speciation of macromolecular species is done to account for variations in molecular weight, number of alkyl radicals per chain, number of peroxyl radicals per chain, number of oxyl radicals per chain, and number of in…

Materials sciencePolymers and Plasticskineticmacroradical02 engineering and technologyElectronRadiation chemistryRadiation010402 general chemistry01 natural sciencesMolecular physicsInorganic ChemistryMaterials Chemistrychemistry.chemical_classificationAqueous solutionComputer simulationOrganic ChemistryPolymer021001 nanoscience & nanotechnologyCondensed Matter Physics0104 chemical sciencesradiationCondensed Matter::Soft Condensed MatterchemistrynanogelCathode raysimulations0210 nano-technologyNanogelMacromolecular Theory and Simulations
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Spherical polymer brushes under good solvent conditions: molecular dynamics results compared to density functional theory.

2010

A coarse grained model for flexible polymers end-grafted to repulsive spherical nanoparticles is studied for various chain lengths and grafting densities under good solvent conditions, by Molecular Dynamics methods and density functional theory. With increasing chain length the monomer density profile exhibits a crossover to the star polymer limit. The distribution of polymer ends and the linear dimensions of individual polymer chains are obtained, while the inhomogeneous stretching of the chains is characterized by the local persistence lengths. The results on the structure factor of both single chain and full spherical brush as well as the range of applicability of the different theoretic…

Materials sciencePolymersGeneral Physics and AstronomyNanoparticleFOS: Physical sciencesCondensed Matter - Soft Condensed Matterchemistry.chemical_compoundMolecular dynamicsChain (algebraic topology)Computer SimulationPhysical and Theoretical Chemistrychemistry.chemical_classificationCondensed Matter - Materials ScienceQuantitative Biology::BiomoleculesMolecular StructureMaterials Science (cond-mat.mtrl-sci)PolymerCondensed Matter::Soft Condensed MatterMonomerchemistryChemical physicsSolventsSoft Condensed Matter (cond-mat.soft)NanoparticlesDensity functional theoryPolymer blendStructure factorThe Journal of chemical physics
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Monte Carlo analysis of polymer translocation with deterministic and noisy electric fields

2012

AbstractPolymer translocation through the nanochannel is studied by means of a Monte Carlo approach, in the presence of a static or oscillating external electric voltage. The polymer is described as a chain molecule according to the two-dimensional “bond fluctuation model”. It moves through a piecewise linear channel, which mimics a nanopore in a biological membrane. The monomers of the chain interact with the walls of the channel, modelled as a reflecting barrier. We analyze the polymer dynamics, concentrating on the translocation time through the channel, when an external electric field is applied. By introducing a source of coloured noise, we analyze the effect of correlated random fluct…

Materials scienceQC1-999transport dynamics of biomoleculeMonte Carlo methodpolymer moleculespolymer moleculeGeneral Physics and AstronomyQuantitative Biology::Subcellular ProcessesPiecewise linear functionmonte carlo simulationsnoise in biological systemChain (algebraic topology)Electric fieldStatistical physicschemistry.chemical_classificationPhysics::Biological PhysicsQuantitative Biology::Biomoleculestransport dynamics of biomoleculesPhysicsPolymernoise in biological systemsNanoporechemistryChemical physicsCommunication channelVoltageOpen Physics
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Atomistic modeling of crystal structure of Ca1.67SiHx

2015

The atomic structure of calcium-silicate-hydrate (C-1.67-S-H-x) has been investigated by theoretical methods in order to establish a better insight into its structure. Three models for C-S-H all derived from tobermorite are proposed and a large number of structures were created within each model by making a random distribution of silica oligomers of different size within each structure. These structures were subjected to structural relaxation by geometry optimization and molecular dynamics steps. That resulted in a set of energies within each model. Despite an energy distribution between individual structures within each model, significant energy differences are observed between the three m…

Materials scienceRelaxation (NMR)Structure (category theory)Applied ChemistryTobermoriteBuilding and ConstructionCrystal structureCalcium-Silicate-Hydrate (C-S-H) (B); Crystal Structure (B); Atomistic simulationEnergy minimizationInorganic ChemistryCrystallographyMolecular dynamicsChemical physicsTheoretical chemistryMoleculeGeneral Materials ScienceTheoretical Chemistry
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