Search results for "boundary strength"

showing 5 items of 5 documents

Length-scale effects in the nucleation of extended dislocations in nanocrystalline Al by molecular-dynamics simulation

2001

The nucleation of extended dislocations from the grain boundaries in nanocrystalline aluminum is studied by molecular-dynamics simulation. The length of the stacking fault connecting the two Shockley partials that form the extended dislocation, i.e., the dislocation splitting distance, rsplit, depends not only on the stacking-fault energy but also on the resolved nucleation stress. Our simulations for columnar grain microstructures with a grain diameter, d, of up to 70 nm reveal that the magnitude of rsplit relative to d represents a critical length scale controlling the low-temperature mechanical behavior of nanocrystalline materials. For rsplit>d, the first partials nucleated from the bou…

Length scaleMaterials sciencePolymers and PlasticsCondensed matter physicsMetals and AlloysNucleationNanocrystalline materialGrain sizeElectronic Optical and Magnetic MaterialsCrystallographyCeramics and CompositesGrain boundaryDislocationStacking faultGrain boundary strengtheningActa Materialia
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Relation between grain size and hydrogen diffusion coefficient in an industrial Pd–23% Ag alloy

1999

Abstract The diffusion mechanism of hydrogen in an industrial cold worked Pd–23% Ag alloy is investigated according to its grain size. The microstructural parameters are determined by X-ray diffraction analysis and the diffusion parameters are determined using the galvanostatic electrochemical permeation technique. Two diffusion mechanisms are displayed. For apparent grain size below 40 nm the hydrogen atoms diffuse in the grain boundaries. For grain size above 100 nm, an intergranular diffusion mechanism occurs. For intermediate grain size both mechanisms coexist. Furthermore, the diffusion in the grain boundaries is not faster than the diffusion in the bulk, as generally observed for pure…

Materials scienceHydrogenMetallurgyAnalytical chemistrychemistry.chemical_elementGeneral ChemistryIntergranular corrosionCondensed Matter PhysicsGrain sizechemistryGrain boundary diffusion coefficientEffective diffusion coefficientGeneral Materials ScienceGrain boundaryDiffusion (business)Grain boundary strengtheningSolid State Ionics
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Formation of surface roughness on nanocrystalline aluminum samples under straining by molecular dynamics studies

2006

International audience; The surface roughening of nanocrystalline aluminum samples was investigated by molecular dynamics simulations. Attention was focused on the fact that roughness increases with the grain size and the strain. The elastic-plastic transition was found at around 3.5% strain and a reverse Hall-Petch effect was observed under straining conditions. Then, different strain distributions in grains and grain boundaries at the samples surface was highlighted, yielding to the formation of local roughness. Finally, a linear relationship between the magnitude of roughness and the out-of-plane strain component was found.

Materials scienceeducationchemistry.chemical_elementSurface finishCondensed Matter PhysicsGrain sizeNanocrystalline materialCrystallographychemistryAluminiumPhysical SciencesSurface roughnessGrain boundaryComposite materialGrain boundary strengtheningPlane stress
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Interaction features for prediction of perceptual segmentation:Effects of musicianship and experimental task

2016

As music unfolds in time, structure is recognised and understood by listeners, regardless of their level of musical expertise. A number of studies have found spectral and tonal changes to quite successfully model boundaries between structural sections. However, the effects of musical expertise and experimental task on computational modelling of structure are not yet well understood. These issues need to be addressed to better understand how listeners perceive the structure of music and to improve automatic segmentation algorithms. In this study, computational prediction of segmentation by listeners was investigated for six musical stimuli via a real-time task and an annotation (non real-tim…

Visual Arts and Performing ArtsComputer scienceSpeech recognitionComputationmedia_common.quotation_subjectsegmentation taskBoundary (topology)Novelty detection050105 experimental psychologyTask (project management)03 medical and health sciences0302 clinical medicinePerception0501 psychology and cognitive sciencesSegmentationmedia_commonStructure (mathematical logic)05 social sciencesNoveltyboundary strengthta6131segmentation density030217 neurology & neurosurgeryMusicnovelty detectionmusical training
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Shakedown analysis for a class of strengthening materials within the framework of gradient plasticity

2010

Abstract The classical shakedown theory is extended to a class of perfectly plastic materials with strengthening effects (Hall–Petch effects). To this aim, a strain gradient plasticity model previously advanced by Polizzotto (2010) is used, whereby a featuring strengthening law provides the strengthening stress, i.e. the increase of the yield strength produced by plastic deformation, as a degree-zero homogeneous second-order differential form in the accumulated plastic strain with associated higher order boundary conditions. The extended static (Melan) and kinematic (Koiter) shakedown theorems are proved together with the related lower bound and upper bound theorems. The shakedown limit loa…

business.industryMechanical EngineeringMathematical analysisContext (language use)Structural engineeringPlasticityStrain hardening exponentShakedownUniqueness theorem for Poisson's equationMechanics of MaterialsLimit loadGeneral Materials ScienceBoundary value problembusinessMathematicsGrain boundary strengtheningInternational Journal of Plasticity
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