Search results for "Finite Element Method"

showing 10 items of 746 documents

Influence of Hyrax screw position on dental movement and cortical bone : a study of finite elements

2019

Background Rapid maxillary expansion (RME) has effects on the dental and periodontal structures of the parts involved, which vary according to the design and position of the expansion screw. The purpose of the study was to determine the optimal three-dimensional position of the Hyrax screw to obtain precise control of the dental movement and effect on the bone cortex using the finite element method (FEM). Material and methods RME was performed from the patient whom two Cone-Beam computerized tomography scans (CBCT) were obtained: T1 before expansion, and T2 three months after stabilization of RME. The FEM model was designed with T1 and of Hyrax photographs. FEM was obtained by comparing the…

MolarHyrax0206 medical engineeringOrthodontics02 engineering and technology03 medical and health sciences0302 clinical medicinestomatognathic systemmedicinePeriodontal fiberDisplacement (orthopedic surgery)General DentistryMathematicsOrthodonticsbiologyResearch030206 dentistrybiology.organism_classification:CIENCIAS MÉDICAS [UNESCO]020601 biomedical engineeringFinite element methodSagittal planemedicine.anatomical_structureCoronal planeUNESCO::CIENCIAS MÉDICASCortical bone
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Biomechanical effects of Teuscher activator in hyperdivergent Class II malocclusion treatment : a finite element analysis

2021

Background In orthodontic treatment, the combination of an activator with a headgear is commonly used in treatment of the hyperdivergent Class II malocclusion. However, the distribution of stresses transmitted to the maxilla by these appliances has been little studied. This study aimed to compare the biomechanical effects of stresses transmitted to the maxilla and teeth by a Teuscher activator (TA) for different lines of action of extraoral force, using finite element analysis. Material and Methods A tridimensional finite element model of the maxilla and teeth was created based on the true geometry of a human skull. The (TA) and the face bow were designed in 3D computer-aided design and fix…

MolarOrthodonticsDentitionResearchOrthodonticsmedicine.diseaseFinite element methodLine of actionMaxillaForce linesmedicineDisplacement (orthopedic surgery)MalocclusionGeneral DentistryUNESCO:CIENCIAS MÉDICASMathematics
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Cyclic response of masonry infilled RC frames: Experimental results and simplified modeling

2014

The recent large interest in nonlinear seismic analysis methods, static and dynamic, has required proper strategies of modeling based on reliable, and at the same time easy to use, constitutive laws for the structural elements. Regarding the behavior of framed structures, special attention has to be devoted to infills because of the key role they play in modifying overall stiffness, strength and ductility under seismic excitation. Pointing out the attention on this topic the paper discusses a criteria for modeling the structural behavior of infills based on a macromodeling approach, that is to say on the substitution of infills with diagonal pin jointed struts. Is here shown how multilinear…

Multilinear mapEngineeringInfilled framesMasonry infillsbusiness.industryInfilled frames; Masonry infills; Cyclic behavior; Pivot hysteretic model; Equivalent strut.DiagonalSoil ScienceStiffnessStructural engineeringInfilled frames Masonry infills Cyclic behavior Pivot hysteretic model Equivalent strut.MasonryGeotechnical Engineering and Engineering GeologyFinite element methodSeismic analysisCyclic behaviorSettore ICAR/09 - Tecnica Delle CostruzioniNonlinear systemmedicineEquivalent strutPivot hysteretic modelmedicine.symptombusinessDuctilityCivil and Structural Engineering
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CH of masonry materials via meshless meso-modeling

2014

In the present study a multi-scale computational strategy for the analysis of masonry structures is presented. The structural macroscopic behaviour is obtained making use of the Computational Homogenization (CH) technique based on the solution of the boundary value problem (BVP) of a detailed Unit Cell (UC) chosen at the meso-scale and representative of the heterogeneous material. The smallest UC is composed by a brick and half of its surrounding joints, the former assumed to behave elastically while the latter considered with an elastoplastic softening response. The governing equations at the macroscopic level are formulated in the framework of finite element method while the Meshless Meth…

MultiscaleMesoscopic physicsbusiness.industryMechanical Engineeringlcsh:Mechanical engineering and machineryMathematical analysislcsh:TA630-695Structural engineeringlcsh:Structural engineering (General)MasonryMultiscale; Mesomodeling; Meshless; Masonry.Homogenization (chemistry)Finite element methodMeshleMechanics of MaterialsMesomodelingTangent stiffness matrixlcsh:TJ1-1570Boundary value problembusinessMasonrySettore ICAR/08 - Scienza Delle CostruzioniSofteningMathematicsFrattura ed Integrità Strutturale
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Electrical Conduction in Carbon Nanotubes under Mechanical Deformations

2009

The enormous potential of carbon nanotubes (CNTs) as primary components in electronic devices and NEMS necessitates the understanding and predicting of the effects of mechanical deformation on electron transport in CNTs. In principle, detailed atomic/electronic calculations can provide both the deformed configuration and the resulting electrical transport behavior of the CNT. However, the computational expense of these simulations limits the size of the CNTs that can be studied with this technique and a direct analysis of CNTs of the dimension used in nano-electronic devices, particularly multi-wall CNTs (MWNTs), seems prohibitive at the present. Here a computationally effective mixed finit…

Nanoelectromechanical systemsMaterials scienceCarbon nanotube actuatorsMechanical properties of carbon nanotubesCarbon nanotubeFinite element methodlaw.inventionCarbon nanotubes numerical simulation tight-binding nanotecnologySettore ING-IND/14 - Progettazione Meccanica E Costruzione Di MacchineCondensed Matter::Materials ScienceTight bindinglawElectronicsComposite materialDeformation (engineering)
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Simulation of the electromechanical behavior of multiwall carbon nanotubes.

2009

The enormous potential of carbon nanotubes (CNTs) as primary components in electronic devices and NEMS necessitates the understanding and predicting of the effects of mechanical deformation on electron transport in CNTs. In principle, detailed atomic/electronic calculations can provide both the deformed configuration and the resulting electrical transport behavior of the CNT. However, the computational expense of these simulations limits the size of the CNTs that can be studied with this technique, and a direct analysis of CNTs of the dimension used in nanoelectronic devices seems prohibitive at the present. Here a computationally effective mixed finite element (FE)/tight-binding (TB) appro…

Nanoelectromechanical systemsMaterials sciencemechanical deformationGeneral EngineeringGeneral Physics and AstronomyNanotechnologyCarbon nanotubeFinite element methodlaw.inventionSettore ING-IND/14 - Progettazione Meccanica E Costruzione Di MacchineCondensed Matter::Materials ScienceTight bindingElectrical transportfinite elementlawtight-bindingGeneral Materials Scienceelectron transportElectronicscarbon nanotubeDeformation (engineering)Reduction (mathematics)ACS nano
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Nonlocal dispersion anomalies of Dyakonov-like surface waves at hyperbolic media interfaces

2016

Dyakonov-like surface waves (DSWs) propagating obliquely on an anisotropic nanostructure have been theoretically proved in a few cases including 2D photonic crystals and metal-insulator (MI) layered metamaterials. Up to now, the long-wavelength approximation has been employed in order to obtain effective parameters to be introduced in the Dyakonov equation, which is largely restricted to material inhomogeneities of a few nanometers when including metallic elements. Here, we explore DSWs propagating obliquely at the interface between an insulator and a hyperbolic metamaterial, the latter consisting of a 1D MI bandgap grating using realistic slab sizes. We found unexpected favorable condition…

NanostructureBand gapPhysics::Optics02 engineering and technologyGrating01 natural sciences010309 optics0103 physical sciencesElectrical and Electronic EngineeringAnisotropyPhotonic crystalElectromagnetic opticsÓpticaPhysicsCondensed matter physicsMetamaterial021001 nanoscience & nanotechnologyCondensed Matter PhysicsSurface wavesAtomic and Molecular Physics and OpticsFinite element methodElectronic Optical and Magnetic MaterialsClassical mechanicsHardware and ArchitectureSurface waveHyperbolic metamaterials0210 nano-technology
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Surface waves in plasmonic anisotropie media

2012

We investigate the spatial dispersion of hybrid-polarized surface waves excited at the boundary of a semi-infinite layered metal-dielectric nanostructure. We put emphasis in the case that the thickness of a metal layer becomes of the order of the metal skin depth. We demonstrate that the use of the so-called effective medium approximation (EMA) is not justified, in general. For that purpose, we compare the results using the EMA model and numerical simulations based on the finite-element method. We include an analysis of the influence of metallic losses.

NanostructureMaterials sciencebusiness.industrySuperlatticeBoundary (topology)02 engineering and technology021001 nanoscience & nanotechnology01 natural sciencesFinite element methodComputational physicsOpticsSurface waveExcited state0103 physical sciences010306 general physics0210 nano-technologybusinessLayer (electronics)Plasmon2012 14th International Conference on Transparent Optical Networks (ICTON)
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Distributed multi-objective optimization methods for shape design using evolutionary algorithms and game strategies

2012

Nash algorithmsfinite element methodGPGPUcomputational fluid dynamicstietotekniikkamatemaattinen optimointidomain decompositionteollinen muotoiluNash gameshape optimizationpeliteoriacompetitive gamesevolutionary algorithmsmuotodistributed optimization
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Non-local finite element method for the analysis of elastic continuum with long-range central interactions.

2009

In this paper the Finite Element Method (FEM) for the mechanically-based non-local elastic continuum model is proposed. In such a model non-adjacent elements are considered mutually interacting by means of central body forces that are monotonically decreasing with their interdistance and proportional to the product of the interacting volume elements. The resulting governing equation is an integro-differential one and for such a model both kinematical and mechanical boundary conditions are exactly coincident with the classical boundary conditions of the continuum mechanics. The solution of the integro-differential problem is framed in the paper by the finite element method. Finally, the solu…

Non-local elasticityfinite element methodlong-range interactionSettore ICAR/08 - Scienza Delle Costruzioni
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