Search results for "Microstructure"

showing 10 items of 707 documents

Effect of TiO2 on the mullite formation and mechanical properties of alumina porcelain

2010

Abstract The effect of adding TiO 2 to standard alumina porcelain on its microstructure and flexural strength was investigated. A series of alumina porcelain bodies containing increasing amounts of TiO 2 were prepared by extruding mixtures of raw materials and TiO 2 . Porcelain rods were fired under industrial scheduling in a manufacturing kiln. The overall degree of crystalline and amorphous phase content within the porcelain bodies was quantitatively determined using a Rietveld analysis. Results indicated a higher amount of mullite formation in porcelain bodies containing TiO 2 . Examination of the product materials using field emission scanning electron microscopy showed a high density o…

ViscosityMaterials scienceFlexural strengthRietveld refinementMaterials ChemistryCeramics and CompositesNucleationMulliteComposite materialMicrostructureRodSolid solutionJournal of the European Ceramic Society
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Effects of fabrication on the mechanics, microstructure and micromechanical environment of small intestinal submucosa scaffolds for vascular tissue e…

2013

In small intestinal submucosa scaffolds for functional tissue engineering, the impact of scaffold fabrication parameters on success rate may be related to the mechanotransductory properties of the final microstructural organization of collagen fibers. We hypothesized that two fabrication parameters, 1) preservation (P) or removal (R) of a dense collagen layer present in SIS and 2) SIS in a final dehydrated (D) or hydrated (H) state, have an effect on scaffold void area, microstructural anisotropy (fiber alignment) and mechanical anisotropy (global mechanical compliance). We further integrated our experimental measurements in a constitutive model to explore final effects on the micromechanic…

Void (astronomy)ScaffoldMaterials scienceFabricationSwineBiomedical EngineeringBiophysicsScaffoldTissue engineeringIntestine SmallAnimalsOrthopedics and Sports MedicineIntestinal MucosaAnisotropyMicrostructureTissue EngineeringTissue ScaffoldsRehabilitationMicromechanicsSIS (small intestine submucosa)MicrostructureSmall intestinal submucosaExtracellular MatrixConstitutive modelingAnisotropyCollagenStress MechanicalMechanical propertieBiomedical engineeringJournal of biomechanics
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What really causes large price changes?

2003

We study the cause of large fluctuations in prices in the London Stock Exchange. This is done at the microscopic level of individual events, where an event is the placement or cancellation of an order to buy or sell. We show that price fluctuations caused by individual market orders are essentially independent of the volume of orders. Instead, large price fluctuations are driven by liquidity fluctuations, variations in the market's ability to absorb new orders. Even for the most liquid stocks there can be substantial gaps in the order book, corresponding to a block of adjacent price levels containing no quotes. When such a gap exists next to the best price, a new order can remove the best q…

Volume-weighted average priceQuantitative Finance - Trading and Market MicrostructureFinancial economicsMid priceFOS: Physical sciencesTrading and Market Microstructure (q-fin.TR)Market liquidityFOS: Economics and businessCondensed Matter - Other Condensed MatterExecution Commerce optimal liquidationMarket depthOrder (exchange)EconomicsOrder bookEconometricsPrice levelGeneral Economics Econometrics and FinanceFinanceLimit priceOther Condensed Matter (cond-mat.other)Quantitative Finance
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Microstructured Optical Fiber on the Silica Platform for pulse-maintaining 2-octave supercontinuum in short-wavelength infra-red

2016

Numerical design of all normal dispersion fiber for SWIR supercontinuum generation based on standard air-silica microstructure is presented. We increase the spectral width of generated supercontinuum up to 2 octaves while maintaining perfect spectral flatness by tailoring the dispersion profile.

WavelengthZero-dispersion wavelengthMaterials scienceOpticsbusiness.industryDispersion (optics)Spectral widthPhysics::OpticsSpectral flatnessMicrostructured optical fiberSelf-phase modulationbusinessSupercontinuumLatin America Optics and Photonics Conference
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Halloysite nanotubes-based nanocomposites for the hydrophobization of hydraulic mortar

2021

Abstract The treatment of stone surfaces for their protection from ageing caused by natural and anthropogenic effects is an open issue in materials development for Cultural Heritage. We thought interesting to verify the suitability of a modified cellulose biofilm filled with halloysite nanotubes as wax compatibilizers to design a protecting layer. A hydraulic mortar was selected as a stone prototype. To improve the physico-chemical properties of the covering layer, wax microparticles have been incorporated to control transport, consolidation and wettability features. In particular, different application protocols have been studied, namely brushing and spraying, to assess whether the propos…

WaxMaterials scienceNanocompositeSurfaces and InterfacesGeneral Chemistryengineering.materialMicrostructureHalloysiteSurfaces Coatings and FilmsContact angleColloid and Surface ChemistryAdsorptionvisual_artStone Biopolymer Cultural heritage Halloysite nanotubes Nanocompositesengineeringvisual_art.visual_art_mediumWettingComposite materialMortarSettore CHIM/02 - Chimica FisicaJournal of Coatings Technology and Research
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Modelling of thermal stresses in bearing steel structure generated by electrical current impulses

2018

This work is the study of one particular candidate for white etching crack (WEC) initiation mechanism in wind turbine gearbox bearings: discharge current impulses flowing through bearing steel with associated thermal stresses and material fatigue. Using data/results from previously published works, the authors develop a series of models that are utilized to simulate these processes under various conditions/local microstructure configurations, as well as to verify the results of the previous numerical studies. Presented models show that the resulting stresses are several orders of magnitude below the fatigue limit/yield strength for the parameters used herein. Results and analysis of models …

Work (thermodynamics)Bearing (mechanical)Materials scienceSeries (mathematics)business.industryOrders of magnitude (temperature)Structural engineeringMechanicsMicrostructureTurbineFatigue limitlaw.inventionlawThermalbusinessIOP Conference Series: Materials Science and Engineering
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On the improvement of material formability in SPIF operation through tool stirring action

2012

Single-point incremental forming (SPIF) is a quite new sheet-forming process which offers the possibility to deform complex parts without dedicated dies using a single-point tool and a standard three-axis CNC machine. The process mechanics enables higher strains with respect to traditional sheet-forming processes, but particular attention must be given to the maximum forming angle. In this paper, a new approach is proposed to enhance the material formability through a localized sheet heating as a consequence of the friction work caused by elevated tool rotational speeds. AA1050-O, AA1050-H24, and AA6082-T6 were utilized, and the reached temperatures were recorded by thermocouples, fixed to …

Work (thermodynamics)Materials scienceMechanical EngineeringIncremental formingAluminum alloysDRX MicrostructureProcess (computing)Mechanical engineeringRotational speedMicrostructureIndustrial and Manufacturing EngineeringAction (physics)Computer Science ApplicationsControl and Systems EngineeringThermocoupleNumerical controlFormabilitySoftware
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Modelling Polycrystalline Materials: An Overview of Three-Dimensional Grain-Scale Mechanical Models

2014

International audience; A survey of recent contributions on three-dimensional grain-scale mechanical modelling of polycrystalline materials is given in this work. The analysis of material micro-structures requires the generation of reliable micro-morphologies and affordable computational meshes as well as the description of the mechanical behavior of the elementary constituents and their interactions. The polycrystalline microstructure is characterized by the topology, morphology and crystallographic orientations of the individual grains and by the grain interfaces and microstructural defects, within the bulk grains and at the inter-granular interfaces. Their analysis has been until recentl…

Work (thermodynamics)Materials scienceMechanical engineeringNanotechnologyPolycrystalline microstructure02 engineering and technology01 natural sciencesThree-dimensional modellingMesoscale modelling[PHYS.MECA.MEMA]Physics [physics]/Mechanics [physics]/Mechanics of materials [physics.class-ph]Polycrystalline material0103 physical sciencesPolygon meshPolycrystalline MaterialsSettore ING-IND/04 - Costruzioni E Strutture AerospazialiTopology (chemistry)010302 applied physicsMechanical modelsScale (chemistry)[PHYS.MECA.MSMECA]Physics [physics]/Mechanics [physics]/Materials and structures in mechanics [physics.class-ph]021001 nanoscience & nanotechnologyComputer Science ApplicationsModeling and Simulation[PHYS.COND.CM-MS]Physics [physics]/Condensed Matter [cond-mat]/Materials Science [cond-mat.mtrl-sci]Crystallite0210 nano-technology
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In-process tool rotational speed variation with constant heat input in friction stir welding of AZ31 sheets with variable thickness

2017

In the present work, friction stir welding experiments on AZ31 magnesium alloy sheets, characterized by a variable thickness along the welding line, were carried out. The approach adapted during welding consisted in maintaining constant the heat input to the joint. To this purpose, the rotational speed of the pin tool was increased with decreasing thickness and decreased with increasing thickness in order to obtain the same temperatures during welding. The amount by which the rotational speed was changed as a function of the sheet thickness was defined on the basis of the results given by FEM simulations of the FSW process. Finally, the effect of the in-process variation of the tool rotatio…

Work (thermodynamics)Materials scienceMetallurgyRotational speedWeldingMicrostructurelaw.inventionPhysics and AstronomylawFriction stir weldingComposite materialMagnesium alloyConstant (mathematics)Joint (geology)Settore ING-IND/16 - Tecnologie E Sistemi Di Lavorazione
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Structural Characterization of Molecular Interface Layers Using Neutron and X-Ray Reflectivity Techniques

1992

Synthetic microstructures used in biological research today include a variety of different systems that serve very diverse purposes and require very different fabrication and characterization techniques. One class of microstructures that is at the boundary between life and materials sciences, and certainly has been associated closer to the latter in the past, is that of molecularly structured planar interface films. In fact, Langmuir-Blodgett (LB) films,1 i.e. molecularly layered films comprised of amphiphatic organic molecules on solid substrates, have been used for many years as model systems for the investigation of molecular interactions between chromophores or donor/ acceptor couples, …

X-ray reflectivityFabricationPlanarMaterials scienceNanotechnologyNeutron reflectometryChromophoreMicrostructureAcceptorCharacterization (materials science)
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