Search results for " COMPOSITES"

showing 10 items of 1620 documents

CDRX modelling in friction stir welding of AA7075-T6 aluminum alloy: analytical approaches

2007

Abstract Friction stir welding (FSW) is an energy efficient and environmentally “friendly” (no fumes, noise, or sparks) welding process, during which the workpiece are welded together in a solid-state joining process at a temperature below the melting point of the workpiece material under a combination of extruding and forging. Significant microstructural evolution takes place during FSW: in particular continuous dynamic recrystallization (CDRX) phenomena result in a highly refined grain structure in the weld nugget and strongly affect the final joint resistance. In the paper two different analytical models aimed to the determination of the average grain size due to continuous dynamic recry…

FEMMaterials scienceMetallurgyAlloyMetals and AlloysRecrystallization (metallurgy)continuous dynamic recrystallizationWeldingengineering.materialIndustrial and Manufacturing EngineeringGrain sizeFinite element methodForgingaluminum alloy friction stir weldingComputer Science Applicationslaw.inventionlawModeling and SimulationCeramics and CompositesengineeringFriction stir weldingFriction weldingSettore ING-IND/16 - Tecnologie E Sistemi Di Lavorazione
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Weighting non-covalent forces in the molecular recognition of C60. Relevance of concave–convex complementarity

2008

The relative contributions of several weak intermolecular forces to the overall stability of the complexes formed between structurally related receptors and [60]fullerene are compared, revealing a discernible contribution from concave–convex complementarity. Viruela Martin, Pedro Manuel, Pedro.M.Viruela@uv.es ; Viruela Martin, Rafael, Rafael.Viruela@uv.es ; Orti Guillen, Enrique, Enrique.Orti@uv.es

FULLERENESUNESCO::QUÍMICANon covalentBUILDING-BLOCK12-TETRACYANO-9:QUÍMICA [UNESCO]CatalysisMolecular recognitionCHEMISTRYSYSTEMSMaterials ChemistryUNESCO::QUÍMICA::Química orgánicaCARBON NANORINGSChemistryCARBON NANORINGS; BUILDING-BLOCK; FULLERENES; 11111212-TETRACYANO-910-ANTHRAQUINODIMETHANE; COMPLEXATION; DERIVATIVES; RECEPTORS; CHEMISTRY; SYSTEMSCOMPLEXATIONDERIVATIVESIntermolecular force:QUÍMICA::Química orgánica [UNESCO]Metals and AlloysRegular polygonMolecular recognition ; Concave-convex ; Stability ; C60 ; Intermolecular forcesGeneral ChemistrySettore CHIM/06 - Chimica Organica11Intermolecular forcesSurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialsWeighting12Concave-convexbody regionsRECEPTORSC60CrystallographyChemical physicsComplementarity (molecular biology)10-ANTHRAQUINODIMETHANECeramics and CompositesMolecular recognitionStability
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A water-soluble hexa-peri-hexabenzocoronene: synthesis, self-assembly and role as template for porous silica with aligned nanochannels

2005

A water-soluble hexa-peri-hexabenzocoronene was prepared and shown to undergo ordered columnar self-assembly either in water solution or bulk and therefore served as template for the fabrication of porous silica with aligned nanochannels.

FabricationMaterials scienceMetals and AlloysHexa-peri-hexabenzocoroneneNanotechnologyGeneral ChemistryCatalysisSurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialsWater solubleMaterials ChemistryCeramics and CompositesSelf-assemblyPorosityChem. Commun.
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Surfactant-assisted synthesis of titanium nanoMOFs for thin film fabrication

2021

We use dodecanoic acid as a modulator to yield titanium MOF nanoparticles with good control of size and colloid stability and minimum impact to the properties of the framework to enable direct fabrication of crystalline, porous thin films. ispartof: CHEMICAL COMMUNICATIONS vol:57 issue:72 pages:9040-9043 ispartof: location:England status: published

FabricationYield (engineering)Materials scienceChemistry MultidisciplinaryNanoparticlechemistry.chemical_elementGood control02 engineering and technology010402 general chemistry01 natural sciencesCatalysisMETAL-ORGANIC FRAMEWORKSColloidPulmonary surfactantMaterials ChemistryThin filmScience & Technologytechnology industry and agricultureMetals and AlloysGeneral Chemistryequipment and supplies021001 nanoscience & nanotechnologyeye diseases0104 chemical sciencesSurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialsChemistrySIZEchemistryChemical engineeringPhysical SciencesACIDCeramics and CompositesNH2-MIL-125(TI)sense organs0210 nano-technologyTitaniumChemical Communications
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Multiphoton process investigation in silica by UV femtosecond laser

2022

We investigated the interaction processes between high intensity femtosecond ultraviolet laser pulses and amorphous silica, leading to permanent refractive-index changes that are at the basis of advanced manufacturing for photonics devices. The experiment, carried out as a function of the laser power, improves our understanding on the strong-field ionization process by the monitoring of the 1.9 eV and 2.65 eV emissions, related to nonbridging oxygen hole centers and self-trapped exciton, respectively, induced in the exposed glass region. Our results clearly proved that the UV laser light band-to-band absorption is allowed in the multiphoton ionization limit, whose consecutive relaxation lea…

Femtosecond laserSettore FIS/01 - Fisica SperimentaleMaterials ChemistryCeramics and CompositesSilicaPoint defectsStrong-field ionizationCondensed Matter PhysicsPhotoluminescenceElectronic Optical and Magnetic Materials
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Local structural investigation of hafnia-zirconia polymorphs in powders and thin films by X-ray absorption spectroscopy

2019

Björn Matthey (Fraunhofer IKTS, Dresden) is acknowledged for providing HfO2 and ZrO2 powders on short notice after DESY’s renowned customs office punished us. Parts of this research were carried out at Petra III at DESY, a member of the Helmholtz Association (HGF). The experiments on single Si:HfO2 thin film samples were performed at the CLAESS beamline at ALBA Synchrotron with the collaboration of ALBA staff. We would like to thank Edmund Welter for assistance (in using beamline P65) and DESY for enabling this research for proposal no. 20160591 and for travel support. T.S. acknowledges the German Research Foundation (DFG) for funding this work in the frame of the project “Inferox” (project…

Ferroelectrics670Materials sciencePolymers and PlasticsAbsorption spectroscopyexafsExtended X-ray absorption fine structure X-ray absorption near edge structure Ferroelectrics Hafnium oxide Zirconium oxide02 engineering and technologydopants01 natural sciencesferroelectric propertieshafnium oxideTetragonal crystal systemformer soviet-unionzirconium oxideddc:6700103 physical sciences:NATURAL SCIENCES:Physics [Research Subject Categories]Zirconium oxideX-ray absorption near edge structureThin filmx-ray absorption near edge structureExtended X-ray absorption fine structureHafnium oxideErweiterte Röntgenabsorptionsfeinstruktur Röntgenabsorptionsstruktur in Randnähe Ferroelektrika Hafniumoxid Zirkoniumoxid010302 applied physicsX-ray absorption spectroscopybiologyExtended X-ray absorption fine structureferroelectricsMetals and Alloyshfo2021001 nanoscience & nanotechnologyHafniabiology.organism_classificationXANESstabilizationdielectricsElectronic Optical and Magnetic Materialsoxygen-ion conductorselectrochemistryextended x-ray absorption fine structureChemical physicsCeramics and Compositesinterface0210 nano-technologyMonoclinic crystal systemActa Materialia
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Micro damage and cracking in fibre reinforced composites by a novel hybrid numerical technique

2020

Article number 0033974 AIP Incluida en Conference Proceedings 2309 The prediction of failure mechanisms in fibre-reinforced composite materials is of great importance for the design of composite engineering applications. With the aim of providing a tool able to predict and explain the initiation and propagation of damage in unidirectional fiber reinforced composites, in this contribution we develop a micromechanical numerical model based on a novel hybrid approach coupling the virtual element method (VEM) and the boundary element method (BEM). The BEM is a popular numerical technique, efficient and accurate, which has been successfully applied to interfacial fracture mechanics problems of f…

Fiber Reinforced Composites Micro-mechanics Fracture-Mechanics Virtual Element MethodMixed ModeComputer scienceComposite numberFiber-reinforced compositeFinite element methodMatrix (mathematics)Fracture (geology)Coupling (piping)Polygon meshPolycrystalline MaterialsComposite materialSettore ING-IND/04 - Costruzioni E Strutture AerospazialiBoundary element methodCohesive Zone Model
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Dependence of fracture toughness of composite laminates on interface ply orientations and delamination growth direction

2004

A critical review has been performed of the published experimental research concerning delamination onset and growth in composite laminate interfaces of different lay-ups under single-mode loadings. It was found that, depending on the loading mode and interface lay-up, the traditional fracture toughness characterization by unidirectionally reinforced composite tests can lead to marked under- or overestimation of material resistance to crack growth. Empirical models of fracture toughness as a function of delamination front orientation with respect to reinforcement directions of the adjacent laminae have been validated and their applicability range established.

Fiber pull-outFracture toughnessMaterials scienceDelaminationComposite numberGeneral EngineeringCeramics and CompositesComposite materialComposite laminatesReinforcementExperimental researchComposites Science and Technology
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Delamination study of through-thickness reinforced composite laminates via two-phase interface model

2007

A technique to enhance the strength of the composite laminates in the thickness direction consists in inserting through-thickness reinforcement, by which the potential delamination crack faces are bridged in order to increase the interlaminar fracture strength. In this paper, the composite delamination is analyzed in the context of non-linear fracture mechanics making use of the interface concept. The presence of the reinforcement fibres provides an anisotropic elastic and post-elastic mechanical response, which herein is described by an original two-phase interface model. The two phases, namely the adhesive joint (or matrix of the composite) and the reinforcement, are characterized by thei…

Fiber pull-outMaterials scienceB. Interfacebusiness.industryB. DelaminationDelaminationComposite numberFracture mechanicsContext (language use)Structural engineeringA. FibreComposite laminatesFlexural strengthMechanics of MaterialsE. StitchingCeramics and CompositesComposite materialbusinessJoint (geology)
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Mechanical testing and numerical modelling of pull-wound carbon-epoxy spinnaker poles

2002

The paper deals with experimental testing and numerical simulation of the mechanical behaviour of multi-layer cylindrical coupons, of two different diameters, made in carbon-epoxy composite. The aim of the study is to provide a simple and effective numerical model that can be used as a design tool for structural elements having analogous geometrical and manufacturing characteristics. The numerical analysis, performed in the elastic regime with a standard finite element (FE) code, was strongly correlated with the laboratory determination of fibre-volume fractions and of some elastic parameters of the material system. Other parameters, like the shear modulus values G, were in fact appropriate…

Filament windingMaterials scienceComputer simulationB. Mechanical propertieNumerical analysisGeneral EngineeringStiffnessEpoxyCarbon-epoxy compositeFinite element methodShear modulusEngineering (all)PultrusionC. FEAvisual_artCeramics and Compositesmedicinevisual_art.visual_art_mediummedicine.symptomComposite materialB. ModellingE. PultrusionComposites Science and Technology
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