Search results for "In plane"

showing 8 items of 8 documents

In-Plane Anisotropy and Phase Change in Langmuir-Blodgett Films of a Triphenylene Derivative

1993

Abstract The “in-plane anisotropy” of a triphenylene derivative in Langmuir-Blodgett (L.B.) films has been investigated. Upon heating, L.B. films exhibit a reversible phase transition appearing as an abrupt increase from a low to a high “in-plane anisotropy” corresponding to the formation of the same hexagonal liquid crystal phase observed in the bulk material at almost the same temperature, with the columnar axis aligned along the dipping direction.

Phase transitionCondensed matter physicsChemistryTriphenyleneCondensed Matter PhysicsPhotochemistryLangmuir–Blodgett filmCondensed Matter::Soft Condensed Matterchemistry.chemical_compoundIn planeLiquid crystalCondensed Matter::SuperconductivityPhase (matter)AnisotropyDerivative (chemistry)Molecular Crystals and Liquid Crystals Science and Technology. Section A. Molecular Crystals and Liquid Crystals

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Macroelement Model for In-Plane and Out-of-Plane Responses of Masonry Infills in Frame Structures

2018

A new macroelement model is presented in this paper for the simulation of the in-plane (IP) and out-of-plane (OOP) response of infilled frames subjected to seismic actions. The model consists of two diagonal, one horizontal, and one vertical struts. Each strut is represented by two fiber-section beam-column elements. The model is able to capture the arching action of the wall under an OOP load as well as the interaction between the IP and OOP actions. The proposed modeling approach is sufficiently simple and efficient that it can be used for the static or dynamic analysis of an entire structural system. An experimental validation has been carried out. A further numerical study performed wit…

Masonry infillConcrete and masonry structure0211 other engineering and technologies020101 civil engineering02 engineering and technologyCivil Engineering0201 civil engineeringConcrete and masonry structuresOut of planeOut-of-planeMechanics of MaterialGeneral Materials ScienceArching actionCivil and Structural Engineering021110 strategic defence & security studiesMasonry infillsbusiness.industryMechanical EngineeringFrame (networking)In-planeBuilding and ConstructionStructural engineeringMaterials EngineeringMasonryFiber-section elementInfilled framesSettore ICAR/09 - Tecnica Delle CostruzioniIn planeMechanics of MaterialsMasonry infills; In-plane; Out-of-plane; Arching action; Macromodel; Fiber-section elements; Concrete and masonry structures.Materials Science (all)businessFiber-section elementsGeologyMacromodel

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Residual out-of-plane capacity of infills damaged by in-plane cyclic loads

2020

Abstract During earthquakes, infills are subjected to In-Plane (IP) and Out-Of-Plane (OOP) actions. In the case of strong earthquakes, infills may progressively change their mechanical behavior resulting in a reduction of IP and OOP stiffness and strength. Recent earthquakes have proved that the OOP collapse of infills is a diffused mechanism also for buildings designed to resist seismic events in agreement to the most modern codes. This is potentially a very dangerous event with risk for human health. The strong interaction between IP and OOP behavior of infills traduces in a progressive reduction of the OOP strength. The IP damaging loads may cause a loss of the OOP capacity not predicted…

URM infillsOut-of-Plane behaviorIn-Plane/Out-of-Plane interactionOut-of-plane strengthOut-of-plane stiffnessOut-of-Plane capacity reductionComputer sciencebusiness.industryStiffnessStructural engineeringResidualOut of planeIn planeInfillmedicineArchUnreinforced masonry buildingmedicine.symptombusinessReduction (mathematics)Civil and Structural Engineering

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Coupling Systems for a New Type of Phase Synchronization

2016

Using the usual phase in plane, we propose a general method to design coupling between systems that will exhibit phase synchronization. Numerical results are shown for Lorenz systems. Phase synchronization and antiphase synchronization are equally probable depending on initial conditions. A new network with Lorenz phase synchronized system is obtained.

CouplingGeneral methodArticle Subjectlcsh:MathematicsGeneral MathematicsSynchronization of chaosGeneral EngineeringPhase (waves)Type (model theory)lcsh:QA1-939Phase synchronization01 natural sciences010305 fluids & plasmasIn planelcsh:TA1-2040Control theory0103 physical sciencesSynchronization (computer science)lcsh:Engineering (General). Civil engineering (General)010306 general physicsMathematicsMathematical Problems in Engineering

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Numerical modelling of out-of-plane response of infilled frames: State of the art and future challenges for the equivalent strut macromodels

2017

Abstract Infill-frame interaction constitutes a still open question both in research and in practicing engineering. Computational models used to predict this interaction are, in most cases, addressing the estimation of the response of the infilled frames when subjected to actions parallel to their plane. However, the observation of the post-earthquake damage has demonstrated that infills, weakened by the in-plane actions, may fail out-of-plane increasing the risks associated to the earthquake scenarios. In spite of this, different studies have shown that infills, if properly designed and supported by the frame, exhibit a significant strength and displacement capacity when called to resist t…

Numerical testingEngineeringInfilled frames0211 other engineering and technologies020101 civil engineering02 engineering and technology0201 civil engineeringOut of planeOut-of-planeSeismic assessmentMasonryArching actionCivil and Structural Engineering021110 strategic defence & security studiesComputational modelbusiness.industryIn-planeStructural engineeringMasonryInfilled framesSettore ICAR/09 - Tecnica Delle CostruzioniNonlinear systemIn planeArching action; In-plane; Infilled frames; Masonry; Out-of-plane; Seismic response;businessInfilled frameSeismic response

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Cloaking In-Plane Elastic Waves with Swiss Rolls

2020

We propose a design of cylindrical cloak for coupled in-plane shear waves consisting of concentric layers of sub-wavelength resonant stress-free inclusions shaped as Swiss rolls. The scaling factor between inclusions&rsquo

Shear waveschiral elastic cloaktransformation elastodynamicsCloakingFOS: Physical sciencesPhysics::Optics02 engineering and technologyApplied Physics (physics.app-ph)lcsh:Technology01 natural sciencesArticle[SPI.MAT]Engineering Sciences [physics]/Materials0103 physical sciences[SPI.MECA.MEMA]Engineering Sciences [physics]/Mechanics [physics.med-ph]/Mechanics of materials [physics.class-ph]elastodynamic cloakGeneral Materials Science[SPI.NANO]Engineering Sciences [physics]/Micro and nanotechnologies/Microelectronicslcsh:Microscopy010306 general physicslcsh:QC120-168.85Mathematical physicsPhysics[SPI.ACOU]Engineering Sciences [physics]/Acoustics [physics.class-ph]lcsh:QH201-278.5swiss rollslcsh:TCloakPhysics - Applied PhysicsComputational Physics (physics.comp-ph)Physics::Classical Physics021001 nanoscience & nanotechnologyWillis couplingIn planelcsh:TA1-2040lcsh:Descriptive and experimental mechanicslcsh:Electrical engineering. Electronics. Nuclear engineeringCosserat mediumlcsh:Engineering (General). Civil engineering (General)0210 nano-technologylcsh:TK1-9971Physics - Computational Physics

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Comment on “Nonlocal In-Plane Resistance due to Vortex-Antivortex Dynamics in High-TcSuperconducting Films”

1999

A Comment on the Letter by Y. Kopelevich et al., Phys. Rev. Lett. 80, 4048 (1998). The authors of the Letter offer a Reply.

SuperconductivityPhysicsTheoretical physicsIn planeCondensed matter physicsDynamics (mechanics)General Physics and AstronomyVortexPhysical Review Letters

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The origin of in-plane stresses in axially moving orthotropic continua

2016

In this paper, we address the problem of the origin of in-plane stresses in continuous, two-dimensional high-speed webs. In the case of thin, slender webs, a typical modeling approach is the application of a stationary in-plane model, without considering the effects of the in-plane velocity field. However, for high-speed webs this approach is insufficient, because it neglects the coupling between the total material velocity and the deformation experienced by the material. By using a mixed Lagrange–Euler approach in model derivation, the solid continuum problem can be transformed into a solid continuum flow problem. Mass conservation in the flow problem, and the behaviour of free edges in th…

Inertial frame of referenceMaterials scienceaxially moving02 engineering and technologyOrthotropic materialViscoelasticityelastic0203 mechanical engineeringviscoelasticfree edgesorthotropicGeneral Materials Scienceta216Contraction (operator theory)Conservation of massta113one-dimensional040101 forestryta214Applied MathematicsMechanical Engineeringta11104 agricultural and veterinary sciencesMechanicsCondensed Matter PhysicsIn plane020303 mechanical engineering & transportsClassical mechanicstwo-dimensionalMechanics of MaterialsModeling and Simulation0401 agriculture forestry and fisheriesVector fieldAxial symmetryInternational Journal of Solids and Structures

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