Search results for "dynamics."

showing 10 items of 9637 documents

Visualizing pectin polymer-polymer entanglement produced by interfacial water movement.

2020

In this report, we investigated the physical conditions for creating pectin polymer-polymer (homopolymer) entanglement. The potential role of water movement in creating pectin entanglement was investigated by placing water droplets-equivalent to the water content of two gel phase films-between two glass phase films and compressing the films at variable probe velocities. Slow probe velocity (0.5 mm/sec) demonstrated no significant debonding. Corresponding videomicroscopy demonstrated an occasional water bridge, but no evidence of stranding or polymer entanglement. In contrast, fast probe velocity (5 mm/sec) resulted in 1) an increase in peak adhesion strength, 2) a progressive debonding curv…

Work (thermodynamics)Materials sciencefood.ingredientPolymers and PlasticsPectinPolymers02 engineering and technologyQuantum entanglement010402 general chemistry01 natural sciencesArticleMacromolecular and Materials ChemistryAdhesion strengthfoodFood SciencesPhase (matter)Materials ChemistryComposite materialPolymerWater contentchemistry.chemical_classificationOrganic ChemistryPolymerAdhesion021001 nanoscience & nanotechnologyPectin0104 chemical scienceschemistryAdhesion0210 nano-technologyVideomicroscopy
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Connections Between Topology and Macroscopic Mechanical Properties of Three-Dimensional Open-Pore Materials

2018

This work addresses a number of fundamental questions regarding the topological description of materials characterized by a highly porous three-dimensional structure with bending as the major deformation mechanism. Highly efficient finite-element beam models were used for generating data on the mechanical behavior of structures with different topologies, ranging from highly coordinated bcc to Gibson–Ashby structures. Random cutting enabled a continuous modification of average coordination numbers ranging from the maximum connectivity to the percolation-cluster transition of the 3D network. The computed macroscopic mechanical properties–Young's modulus, yield strength, and Poisson's ratio–co…

Work (thermodynamics)Materials sciencetopologyMaterials Science (miscellaneous)Coordination numberModulus02 engineering and technologyBendingPoisson distributionTopologystructure–property relationship01 natural scienceslcsh:Technologysymbols.namesakeApproximation error0103 physical sciencesTechnik [600]Topology (chemistry)ddc:620.11010302 applied physicslcsh:T600data mining021001 nanoscience & nanotechnologyelastic-plastic deformation behaviormachine learningopen-pore materialssymbols0210 nano-technologyReduction (mathematics)ddc:600Frontiers in Materials
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The recovery after bending of polycarbonate sheets

1981

The recovery after bending has been extensively studied for metal sheets. The data presented in this work show that in the case of polymeric materials viscoelastic effects play a very important role. In particular the influence of deformation rate, the time the sample is held under load and the recovery time is analysed. A master curve is obtained by proper modification of a recent analysis developed for metal sheets.

Work (thermodynamics)Materials sciencevisual_artvisual_art.visual_art_mediumGeneral Materials ScienceBendingPolycarbonateComposite materialDeformation (engineering)Condensed Matter PhysicsViscoelasticityRheologica Acta
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A high-resolution layer-wise discontinuous Galerkin formulation for multilayered composite plates

2020

Abstract In this work, a novel high-resolution formulation for multilayered composite plates is presented. The formulations is referred to as high-resolution since it combines (i) Layer-Wise plate theories, which are based on a per-layer, high-order expansion of the primary variables throughout the plate’s thickness, providing a detailed layer-level description of the sought solution; (ii) The discontinuous Galerkin method, a numerical approach based on a discontinuous representation of the unknown fields over the mesh elements and on the introduction of boundary integral operators enforcing inter-element continuity, which allow the natural treatment of high-order mesh elements and provide …

Work (thermodynamics)Mathematical analysisBoundary (topology)02 engineering and technologyLayer-wise theories Discontinuous Galerkin method Implicitly-defined mesh Multilayered composite plates021001 nanoscience & nanotechnologyDomain (mathematical analysis)020303 mechanical engineering & transports0203 mechanical engineeringDiscontinuous Galerkin methodConvergence (routing)Plate theoryCeramics and CompositesSettore ING-IND/04 - Costruzioni E Strutture Aerospaziali0210 nano-technologyRepresentation (mathematics)ComputingMethodologies_COMPUTERGRAPHICSCivil and Structural EngineeringMathematicsResolution (algebra)Composite Structures
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A non-linear Ritz method for the analysis of low velocity impact induced dynamics in variable angle tow composite laminates

2021

Abstract Variable angle tow (VAT) laminates feature composite layers reinforced by fibres following continuous curved paths and offer a wide structural design space for the manufacturing of composite components. In this work, a formulation for the analysis of the impact-induced dynamics in VAT laminated plates is proposed, implemented and tested in this work. The method is based on the adoption of first order shear deformation kinematics and includes von Karman non-linear strains. The discrete system is obtained by employing a pb-2 Ritz series expansion into the Hamilton’s variational statement, while the impact loading is modelled through Hertzian contact law. The resulting non-linear gove…

Work (thermodynamics)Mathematical analysisKinematicsComposite laminatesRitz methodDiscrete systemFirst-order shear deformation theory Low velocity impact modelling Non-linear plate dynamics Ritz method Variable angle tow (VAT) laminates Von Karman approximationNonlinear systemContact mechanicsCeramics and CompositesSeries expansionSettore ING-IND/04 - Costruzioni E Strutture AerospazialiCivil and Structural EngineeringMathematics
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Evaluation of building heating loads with dimensional analysis: Application of the Buckingham π theorem

2017

Abstract A detailed assessment of building energy performance requires a large amount of input data concerning building typology, environmental conditions, envelope thermophysical properties, geometry, control strategies, and several other parameters. Notwithstanding, the use of specialized software tools poses many challenges in regards to the retrieval of reliable and detailed information, setting a steep learning curve for engineers and energy managers. To speed up the preliminary assessment phase, it might be more convenient to resort to a simplified model that allows the evaluation of heating energy demand with a good level of accuracy and without excessive computational cost or user e…

Work (thermodynamics)Mathematical optimizationComputer science020209 energy02 engineering and technology010501 environmental sciencesTRNSYS01 natural sciencesdynamic simulationsSoftware0202 electrical engineering electronic engineering information engineeringElectrical and Electronic Engineeringdimensionless parameterEnvelope (mathematics)Simulation0105 earth and related environmental sciencesCivil and Structural EngineeringSettore ING-IND/11 - Fisica Tecnica Ambientalebusiness.industryMechanical Engineeringbuilding thermal balanceBuilding and ConstructionBuckingham π theoremBuckingham π theorembusinessEnergy (signal processing)Thermal energyDimensionless quantityEnergy and Buildings
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SIMULATION OF THE HEAT TRANSPORT PROBLEMS WITH RADIATION IN PLATE

2001

In the literature [1 -5 ] simple and effective algorithms for mathematical modelling processes of distribution of heat in multilayered spaces are created. In the given work the way of improvement o f accuracy of algorithms is considered at approximation of integrals derivatives more the supreme orders are used.

Work (thermodynamics)Mathematical optimizationDistribution (mathematics)Simple (abstract algebra)Applied mathematicsRadiationMathematicsEnvironment. Technology. Resources. Proceedings of the International Scientific and Practical Conference
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Theorems of restricted dynamic shakedown

1993

Abstract Dynamic shakedown for a rate-independent material with internal variables is addressed in the hypothesis that the load values are restricted to those of a specified load history of finite or even infinite duration, thus ruling out the possibility—typical of classical shakedown theory—of indefinite load repetitions. Instead of the usual approach to dynamic shakedown, based on the bounded plastic work criterion, another approach is adopted here, based on the adaptation time criterion. Static, kinematic and mixed-form theorems are presented, which characterize the minimum adaptation time (MAT), a feature of the structure-load system, but which are also able to assess whether plastic w…

Work (thermodynamics)Mechanical EngineeringSpecified loadShakedown TheoremKinematicsCondensed Matter PhysicsShakedownMechanics of MaterialsBounded functionCalculusInternal variableApplied mathematicsGeneral Materials ScienceCivil and Structural EngineeringMathematicsInternational Journal of Mechanical Sciences
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The shakedown load boundary of an elastic-perfectly plastic structure

1995

In the hypothesis of small displacements and combined time-variable/steady loads, the geometrical-mechanical properties of the shakedown load boundary are investigated. It is shown that, in the load space, the shakedown load boundary plays the role of yield surface, and that a certain plastic strain accumulation vector—characterizing some impending inadaptation collapse mechanism—obeys the normality rule, whereas a specific form of the maximum plastic work theorem constitutes an effective tool for the evaluation of the shakedown limit load corresponding to a specified inadaptation collapse mode. The equations governing the state of the structure at the shakedown limit are provided and the r…

Work (thermodynamics)Mechanics of MaterialsYield surfaceMechanical EngineeringSolid mechanicsBoundary (topology)Limit loadLimit (mathematics)MechanicsPlasticityCondensed Matter PhysicsShakedownMathematicsMeccanica
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Microwave-based gas sensor with phthalocyanine film at room temperature

2013

Abstract This work presents the development of a microwave gas sensor at room temperature. The design of the sensor includes a coplanar grounded wave guide where is deposited a molecular gas sensing material. In this study, the sensitive material is a thin layer of cobalt phthalocyanine (CoPc), sensitive to ammonia and toluene. Submitted to an electromagnetic incident wave in the microwave range, the sensor response is a reflected wave. In the presence of pollutant, the reflected wave shape is specific to the species concentrations. The results interpretation is led at each frequency by the evaluation of the reflected coefficient, which traduces the ratio between the reflected wave over the…

Work (thermodynamics)Metals and AlloysAnalytical chemistryCobalt phthalocyanineCondensed Matter PhysicsTolueneSurfaces Coatings and FilmsElectronic Optical and Magnetic Materialschemistry.chemical_compoundAmmoniachemistryIncident waveMaterials ChemistryPhthalocyanineMicrowave rangePhysics::Chemical PhysicsElectrical and Electronic EngineeringInstrumentationMicrowaveSensors and Actuators B: Chemical
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