Search results for "Nanoindentation"

showing 10 items of 54 documents

Structural and functional characterization of enamel pigmentation in shrews.

2013

Pigmented tooth enamel occurs in several vertebrate clades, ranging from mammals to fish. Although an iron compound is associated with this orange to red colored pigmentation, its chemical and structural organization within the enamel is unknown. To determine the nature of the iron compound, we investigated heavily pigmented teeth of the northern short-tailed shrew Blarina brevicauda using combined characterization techniques such as scanning and transmission electron microscopy and synchrotron X-ray diffraction. We found that the pigmentation of the enamel with an iron content of around 8wt% results from a close to amorphous magnetite phase deposited around the nm-sized enamel crystals. Fu…

Blarina brevicaudaMineralogychemistry.chemical_compoundstomatognathic systemMicroscopy Electron TransmissionX-Ray DiffractionStructural BiologyHardnessbiology.animalElastic ModulusmedicineAnimalsDental EnamelMagnetiteEnamel paintbiologyChemistryPigmentationPhotoelectron SpectroscopyShrewsShrewNanoindentationTooth enamelbiology.organism_classificationFerrosoferric Oxidestomatognathic diseasesmedicine.anatomical_structureTransmission electron microscopyvisual_artIron contentDentinvisual_art.visual_art_mediumBiophysicsJournal of structural biology
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Combining Atomic Force Microscopy and Depth-Sensing Instruments for the Nanometer-Scale Mechanical Characterization of Soft Matter

2009

Complex materials exhibit a hierarchical structure where a gradient of features on nanometer scale is induced by the synthetic route eventually enhanced by the loading condition. The nanometer scale at which individual components arrange, determining their properties, is a current challenge of mechanical testing. In this work, a survey on nanoindentation is outlined based on the comparison of results obtained by Atomic Force Microscopy and Depth-Sensing Instruments and their combination. An Atomic Force Microscope equipped with a Force Transducer gives indeed the possibility to scan the sample surface in contact mode, thereby allowing one to choose a suitable position for the nanoindentatio…

Classical mechanicsMaterials scienceAcousticsWork (physics)Atomic force acoustic microscopyMechanical properties of carbon nanotubesNanoindentationPenetration depthElastic modulusViscoelasticityCharacterization (materials science)
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Modification of LiF structure by irradiation with swift heavy ions under oblique incidence

2013

The structural modifications of LiF irradiated with swift heavy ions under oblique angles have been investigated using AFM, SEM, chemical etching, nanoindentation and optical absorption spectroscopy. LiF crystals were irradiated under incidence angles of 30 and 70 degrees with 2.2 GeV Au (fluence 57?l011 ions-cm2) and 150 MeV Kr ions (fluence 1012?1014 ions?cm?2). Structural study on sample cross-sections shows that two damage regions ? (1) nanostructured zone and (2) dislocation ? rich zone, which are typical for irradiations at normal incidence, appear also in samples irradiated under oblique angles. However in the latter case a more complex structure is formed that leads to stronger ion-…

CrystallographyMaterials scienceAbsorption spectroscopyHardening (metallurgy)IrradiationNanoindentationOblique incidenceFluenceIsotropic etchingMolecular physicsIonIOP Conference Series: Materials Science and Engineering
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Shear banding mechanism of plastic deformation in LiF irradiated with swift heavy ions

2012

The effect of ion irradiation on the behavior of plastic deformation at micro- and nanoindentation on (001) face of LiF has been investigated. The irradiation was performed using heavy ions (U, Au, Ti and S) with energy in the range from 3 MeV to 2 GeV at fluences up to 5x1013 ions/cm2. In non-irradiated LiF, the indentation produces dislocation gliding on the {110} planes along the and directions. At high fluence irradiation, the resource of the dislocation slip along the preferable directions becomes exhausted due to immobilization of dislocations by radiation defects and their aggregates. The present study demonstrates the change of the mechanism of plastic deformation from homogenous di…

Dislocation creepMaterials sciencePhysics::Instrumentation and DetectorsPhysics::Medical PhysicsSlip (materials science)NanoindentationFluenceCondensed Matter::Materials ScienceIndentationForensic engineeringIrradiationDislocationComposite materialDeformation (engineering)IOP Conference Series: Materials Science and Engineering
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Graphene coating obtained in a cold-wall CVD process on the Co-Cr Alloy (L-605) for medical applications

2021

Graphene coating on the cobalt-chromium alloy was optimized and successfully carried out by a cold-wall chemical vapor deposition (CW-CVD) method. A uniform layer of graphene for a large area of the Co-Cr alloy (discs of 10 mm diameter) was confirmed by Raman mapping coated area and analyzing specific G and 2D bands

ErythrocytesMicroscopeScanning electron microscope02 engineering and technologyChemical vapor deposition01 natural scienceslaw.inventionlcsh:ChemistryMiceCoated Materials BiocompatibleCoatinglawMaterials TestingComposite materiallcsh:QH301-705.5SpectroscopySettore CHIM/02 - Chimica Fisicagraphene coating ; biocompatibility ; cobalt chromium alloy ; cold wall chemical vapor deposition methodGeneral Medicine021001 nanoscience & nanotechnologyMicrostructureBlood Coagulation FactorsComputer Science ApplicationsGraphitePartial Thromboplastin TimeBiocompatibility0210 nano-technologyLayer (electronics)Blood PlateletsMaterials scienceCell SurvivalSurface PropertiesPrimary Cell Cultureengineering.material010402 general chemistryCobalt-chromium alloyGraphene coatingCold-wall chemical vapor deposition methodArticleCatalysisInorganic ChemistryAnimalsHumansPhysical and Theoretical ChemistryMolecular BiologyGrapheneOrganic Chemistrytechnology industry and agricultureNanoindentationPlatelet Activation0104 chemical scienceslcsh:Biology (General)lcsh:QD1-999NIH 3T3 CellsengineeringChromium AlloysVolatilization
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Mechanical Characterization of Polymers on a Nanometer Scale through Nanoindentation. A Study on Pile-up and Viscoelasticity

2007

The analysis of nanoindentation force curves collected on polymers through the common Oliver and Pharr procedure does not lead to a correct evaluation of Young’s modulus. In particular, the estimated elastic modulus is several times larger than the correct one, thus compromising the possibility of a nanomechanical characterization of polymers. Pile-up or viscoelasticity is usually blamed for this failure, and a deep analysis of their influences is attempted in this work. Piling-up can be minimized by indenting on a true nanometer scale, i.e., at penetration depth smaller than 200 nm. On the other side, it is common knowledge that fast indentations minimize the effect of viscoelasticity. How…

INDENTATION EXPERIMENTSHARDNESSMaterials sciencePolymers and PlasticsTO-RUBBER TRANSITIONModulusNanotechnologyViscoelasticityInorganic ChemistryIndentationMaterials ChemistryLOADComposite materialPenetration depthTEMPERATUREElastic modulusELASTIC-MODULUSOrganic ChemistryNanoindentationCharacterization (materials science)Settore ING-IND/22 - Scienza E Tecnologia Dei MaterialiContact mechanicsRELAXATIONSCRYSTALLIZATIONMETHODOLOGYBEHAVIORMacromolecules
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Depth profiles of aggregate centers and nanodefects in LiF crystals irradiated with 34 MeV 84Kr, 56 MeV 40Ar and 12 MeV 12C ions

2018

I. Manika, J. Maniks and R. Zabels acknowledge the national project IMIS2. A. Dauletbekova, A. Akilbekov, M. Zdorovets and A. Seitbayev acknowledge the GF AP05134257of Ministry of Education and Science the Republic of Kazakhstan.

IONSMaterials sciencePhotoluminescenceF2 AND F3^+ CENTERSDislocationsAGGREGATESFLUORINE COMPOUNDS02 engineering and technologyETCHING7. Clean energy01 natural sciencesFluenceENERGY DISSIPATIONIonIRRADIATION EXPERIMENTSLIF CRYSTALION BOMBARDMENT0103 physical sciencesF2 and F3 + centersMaterials Chemistry:NATURAL SCIENCES:Physics [Research Subject Categories]IrradiationLUMINESCENCE INTENSITYPhotoluminescenceLITHIUM COMPOUNDS010302 applied physicsLiF crystalsNANOHARDNESSDISLOCATIONS (CRYSTALS)Surfaces and InterfacesGeneral ChemistryNanoindentation021001 nanoscience & nanotechnologyCondensed Matter PhysicsIsotropic etchingSurfaces Coatings and FilmsLASER SCANNING CONFOCAL MICROSCOPYNANOINDENTATION TECHNIQUESIon irradiationCOLOR CENTERSHardeningELECTRONIC ENERGY LOSSAtomic physicsDislocationLUMINESCENCE SIGNALS0210 nano-technologyLuminescenceDamage depth profiles
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Layer-dependent mechanical properties and enhanced plasticity in the van der Waals chromium trihalide magnets

2020

The mechanical properties of magnetic materials are instrumental for the development of the magnetoelastic theory and the optimization of strain-modulated magnetic devices. In particular, two-dimensional (2D) magnets hold promise to enlarge these concepts into the realm of low-dimensional physics and ultrathin devices. However, no experimental study on the intrinsic mechanical properties of the archetypal 2D magnet family of the chromium trihalides has thus far been performed. Here, we report the room temperature layer-dependent mechanical properties of atomically thin CrI3 and CrCl3, finding that bilayers of CrI3 and CrCl3 have Young's moduli of 62.1 GPa and 43.4 GPa, with the highest sust…

Letter2D magnetic materialsnanoindentationchemistry.chemical_elementFOS: Physical sciencesBioengineeringYoung's modulus02 engineering and technologyApplied Physics (physics.app-ph)mechanical propertiesPlasticityChromiumsymbols.namesakeGeneral Materials ScienceYoung’s modulusstrain tunabilityCondensed Matter - Materials ScienceCondensed matter physicsMechanical EngineeringTrihalideMaterials Science (cond-mat.mtrl-sci)MagnetostrictionPhysics - Applied PhysicsGeneral ChemistryNanoindentation021001 nanoscience & nanotechnologyCondensed Matter Physicscond-mat.mtrl-sci3. Good healthchemistryplasticityMagnetsymbolsvan der Waals forcephysics.app-ph0210 nano-technology
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Deformation and failure of MXene nanosheets

2020

This work is aimed at the development of finite element models and prediction of the mechanical behavior of MXene nanosheets. Using LS-Dyna Explicit software, a finite element model was designed to simulate the nanoindentation process of a two-dimensional MXene Ti3C2Tz monolayer flake and to validate the material model. For the evaluation of the adhesive strength of the free-standing Ti3C2Tz-based film, the model comprised single-layered MXene nanosheets with a specific number of individual flakes, and the reverse engineering method with a curve fitting approach was used. The interlaminar shear strength, in-plane stiffness, and shear energy release rate of MXene film were predicted using th…

Materials science02 engineering and technology010402 general chemistrylcsh:Technology01 natural sciencesArticleMonolayermedicineGeneral Materials ScienceComposite materiallcsh:Microscopylcsh:QC120-168.85Strain energy release ratelcsh:QH201-278.5lcsh:TTension (physics)MXene; mechanical behavior; finite element modelingStiffnessfinite element modelingNanoindentation021001 nanoscience & nanotechnologyFinite element method0104 chemical sciencesShear (sheet metal)lcsh:TA1-2040mechanical behaviorlcsh:Descriptive and experimental mechanicslcsh:Electrical engineering. Electronics. Nuclear engineeringDeformation (engineering)medicine.symptomlcsh:Engineering (General). Civil engineering (General)0210 nano-technologyMXenelcsh:TK1-9971
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Studies on atomic layer deposition of MOF-5 thin films

2013

International audience; Deposition of MOF-5 thin films from vapor phase by atomic layer deposition (ALD) was studied at 225-350 degrees C. Zinc acetate (ZnAc2) and 1,4-benzenedicarboxylic acid (1,4-BDC) were used as the precursors. The resulting films were characterized by UV-Vis spectrophotometry, Fourier transform infrared spectroscopy (FTIR), optical microscopy, X-ray diffraction (XRD), field emission scanning electron microscopy (FESEM), time-of-flight elastic recoil detection analysis (TOF-ERDA), isopropanol adsorption tests, and nanoindentation. It was found out that the as-deposited films were amorphous but crystallized in humid conditions at room temperature. The crystalline films h…

Materials scienceAnalytical chemistry02 engineering and technologyChemical vapor deposition010402 general chemistry01 natural sciencesAtomic layer depositionGeneral Materials ScienceThin filmFourier transform infrared spectroscopyta116ta114General Chemistry[CHIM.MATE]Chemical Sciences/Material chemistryNanoindentationMetal-organic frameworks021001 nanoscience & nanotechnologyCondensed Matter Physics0104 chemical sciencesAmorphous solidElastic recoil detectionCarbon filmMOF-5Mechanics of MaterialsALDHybrid materials0210 nano-technology
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