Search results for "Material properties"

showing 10 items of 105 documents

Forming Processes Design Oriented to Prevent Ductile Fractures

1996

During cold forming processes ductile fractures are sometimes encountered, depending on the operating parameters and on the material properties and determining the production of defective components to be discarded; for this reason the development of a general approach for the prediction of this type of defects is particularly suitable and this aim has been pursued by a large number of researchers in the last two decades. In the paper the most important and diffused models are described and analysed in order to outline the advantages offered by each of them. Some applications to typical metal forming processes are presented, carrying out a comparison between the numerical predictions and th…

Metal formingbusiness.industryComputer scienceDamage mechanicsMechanical engineeringForming processesStructural engineeringMaterial propertiesbusinessCold forming

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Intraosseous monitoring of drilling in lumbar vertebrae by ultrasound: An experimental feasibility study.

2016

The rationale for this project is to evaluate the efficiency of a novel sonographic method for measurements of interosseous distances. The method utilizes a propagating ultrasonic beam through aqueous milieu which is directed as a jet into a drilled tract. We used a plastic model of human L5 vertebra and ex vivo specimen of L5 porcine vertebra and generated 2 mm in diameter tracts in vertebral pedicles. The tracts were created in the "desired" central direction and in the "wrong" medial and lateral directions. The drilled tracts and the residual, up to opposite cortex, distances were measured sonographically and mechanically and compared statistically. We show that "true" mechanical measure…

Models AnatomicVertebraeSwinelcsh:MedicineReflectionDistance Measurement01 natural sciences0302 clinical medicineMathematical and Statistical TechniquesBone DensityMedicine and Health SciencesOrthopedic Procedureslcsh:Science010301 acousticsMusculoskeletal SystemMeasurementMultidisciplinaryUltrasonic beamLumbar VertebraePhysicsUltrasoundClassical MechanicsAnatomymedicine.anatomical_structureConnective TissuePhysical SciencesEngineering and TechnologyRegression AnalysisTomographyAnatomyPlasticsGeologyStatistics (Mathematics)Research Articlemusculoskeletal diseasesMaterials ScienceMaterial PropertiesSurgical and Invasive Medical ProceduresLumbar vertebraeLinear Regression AnalysisResearch and Analysis Methods03 medical and health sciencesLumbar0103 physical sciencesmedicineAnimalsHumansL5 VertebraStatistical MethodsBoneUltrasonography Interventionalbusiness.industrylcsh:RDrillingBiology and Life SciencesSpineVertebraBiological TissueSignal ProcessingLinear ModelsFeasibility Studieslcsh:QbusinessTomography X-Ray Computed030217 neurology & neurosurgeryMathematicsPloS one

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The generalized plane piezoelectric problem: Theoretical formulation and application to heterostructure nanowires

2016

We present a systematic methodology for the reformulation of a broad class of three-dimensional (3D) piezoelectric problems into a two-dimensional (2D) mathematical form. The sole underlying hypothesis is that the system geometry and material properties as well as the applied loads (forces and charges) and boundary conditions are translationally invariant along some direction. This class of problems is commonly denoted here as the generalized plane piezoelectric (GPP) problem. The first advantage of the generalized plane problems is that they are more manageable from both analytical and computational points of view. Moreover, they are flexible enough to accommodate any geometric cross secti…

NanowireFOS: Physical sciences02 engineering and technologyPhysics - Classical Physics01 natural sciencesCondensed Matter::Materials ScienceElectric fieldMesoscale and Nanoscale Physics (cond-mat.mes-hall)0103 physical sciencesGeneral Materials ScienceBoundary value problemSimulationPlane stress010302 applied physicsPhysicsCondensed Matter - Materials ScienceComputer simulationCondensed Matter - Mesoscale and Nanoscale PhysicsApplied MathematicsMechanical EngineeringMathematical analysisMaterials Science (cond-mat.mtrl-sci)Classical Physics (physics.class-ph)Invariant (physics)021001 nanoscience & nanotechnologyCondensed Matter PhysicsPiezoelectricityMechanics of MaterialsModeling and Simulation0210 nano-technologyMaterial properties

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Experimental visualization of inoculation using a charged colloidal model system

2012

Inoculation is widely used to tune the microstructure of a polycrystalline solid from the melt and thus its material properties. We present here a systematic time resolved experimental study of inoculation in a charged colloidal model system investigating the changes of the crystallization scenario upon adding spherical seeds and show that the nucleation kinetics solely determines the resulting microstructure.

Nucleation kineticsMaterials scienceModel systemGeneral ChemistryCondensed Matter PhysicsMicrostructurelaw.inventionVisualizationColloidCrystallographyChemical engineeringlawCrystalliteCrystallizationMaterial propertiesSoft Matter

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Reference-Plane Invariant Method for Measuring Electromagnetic Parameters of Materials

2010

This paper presents a simple and effective wideband method for the determination of material properties, such as the complex index of refraction and the complex permittivity and permeability. The method is explicit (non-iterative) and reference-plane invariant: it uses a certain combination of scattering parameters in conjunction with group-velocity data. This technique can be used to characterize both dielectric and magnetic materials. The proposed method is verified experimentally within a frequency range between 2 to 18 GHz on polytetrafluoroethylene and polyvinylchloride samples. A comprehensive error and stability analysis reveals that, similar to other methods based on transmission/re…

PermittivityCondensed Matter - Materials SciencePhysics - Instrumentation and DetectorsRadiationMaterials scienceStability criterionAcoustics020208 electrical & electronic engineeringPhysics::OpticsMaterials Science (cond-mat.mtrl-sci)FOS: Physical sciences020206 networking & telecommunications02 engineering and technologyDielectricInstrumentation and Detectors (physics.ins-det)Condensed Matter Physics0202 electrical engineering electronic engineering information engineeringScattering parametersMeasurement uncertaintyElectrical and Electronic EngineeringWidebandMaterial propertiesRefractive index

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Can be GPR technique useful for strength characterization of concrete?

2010

The possibility of material characterization through the GPR measurements, taking into account the integration with the ultrasonic technique, has been studied and possible relationships between the permittivity of materials and their bulk density are discussed. We present here two different approaches. The first one describes an attempt to correlate the mechanical strength of concrete (as well the ultrasonic velocity) with the permittivity of the material. A series of samples of concrete, characterized by different material properties, were used for georadar and ultrasonic measures, seeking correlations among experimental data. The second approach illustrates the comparison between GPR and …

PermittivityMaterials scienceAcousticsUltrasonic tomographyExperimental dataGPR tomographyBulk densityCharacterization (materials science)Settore GEO/11 - Geofisica ApplicataGround-penetrating radarMechanical strengthUltrasonic sensorGeotechnical engineeringTomographyMaterial propertiesConcrete

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Quantitative prediction of effective material properties of heterogeneous media

1999

Effective electrical conductivity and electrical permittivity of water-saturated natural sandstones are evaluated on the basis of local porosity theory (LPT). In contrast to earlier methods, which characterize the underlying microstructure only through the volume fraction, LPT incorporates geometric information about the stochastic microstructure in terms of local porosity distribution and local percolation probabilities. We compare the prediction of LPT and of traditional effective medium theory with the exact results. The exact results for the conductivity and permittivity are obtained by solving the microscopic mixed boundary value problem for the Maxwell equations in the quasistatic app…

PermittivityPhysicsGeneral Computer ScienceGeneral Physics and AstronomyThermodynamicsGeneral ChemistryComputational Mathematicssymbols.namesakeQuasistatic approximationMaxwell's equationsMechanics of MaterialsPercolationsymbolsGeneral Materials ScienceStatistical physicsBoundary value problemMaterial propertiesPorous mediumPorosityComputational Materials Science

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Thermodynamic considerations of the grain size dependency of material properties

1994

Phase transitions which depend on grain size induce very interesting properties in materials such as zirconia or barium titanate. A new and rigorous thermodynamic treatment of this type of phase transition is proposed with consideration of the surface phenomena. An interpretation is given of the observed differences when the material—particularly BaTiO3—under consideration is a fine grain powder or is a fine grain ceramic.

Phase transitionMaterials scienceMineralogyThermodynamicsGrain sizechemistry.chemical_compoundchemistryvisual_artBarium titanatevisual_art.visual_art_mediumGrain boundaryCubic zirconiaParticle sizeCeramicMaterial propertiesJournal of Thermal Analysis

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Structure Determination by Electron Crystallography Using a Simulation Approach Combined with Maximum Entropy with the Aim of Improving Material Prop…

1997

Solving a crystal structure is only one of the many problems involved in the process of improving material properties. Because it is difficult to obtain large single crystals from most polymeric and many monomeric organic materials, it is essential to develop electron crystallography to make reliable crystal structure analysis possible.

PhysicsElectron diffraction patternChemical physicsElectron crystallographyScientific methodPrinciple of maximum entropyStructure (category theory)Physical chemistryCrystal structureMaterial properties

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Frequency Deviation Due to a Sample Insertion Hole in a Cylindrical Cavity by Circuital Analysis

2007

One of the most widely used techniques for dielectric material characterization is the partially filled circular cavity. The exact analysis of this structure is well known in the bibliography. But in practice when the measured material is introduced through a circular pipe below its cut off frequency a problem arises. Traditionally the tube effect is neglected, but then some errors appear, whose magnitude depends on the material properties and the cavity and tube dimensions. In some cases, the errors introduced are noticeable and the tube effect should not be neglected. Some authors have tried to evaluate in a simple way this effect, but their equations are valid only in a restricted range …

PhysicsOpticsbusiness.industrySimple (abstract algebra)DielectricFrequency deviationMechanicsTube (container)businessMaterial propertiesSaturation (magnetic)Cutoff frequencyCharacterization (materials science)2007 IEEE/MTT-S International Microwave Symposium

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