Search results for "Strength of materials"

showing 10 items of 63 documents

A Thermodynamically Consistent CZM for Low-Cycle Fatigue Analysis

2018

A cohesive zone model for low-cycle fatigue analysis is developed in a consistent thermodynamic framework of elastic-plastic-damage mechanics with internal variable. A specific fatigue activation condition allows to model the material degradation related to the elastic-plastic cyclic loading conditions, with tractions levels lower than the damage activation condition. A moving endurance surface, in the classic framework of kinematic hardening, enables a pure elastic behavior without any fatigue degradation for low levels loading conditions.

010101 applied mathematics020303 mechanical engineering & transportsMaterials science0203 mechanical engineeringMechanics of MaterialsMechanical EngineeringThermodynamicsGeneral Materials ScienceLow-cycle fatigue02 engineering and technology0101 mathematics01 natural sciencesStrength of materialsKey Engineering Materials
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Vibration Control of a High-Speed Precision Servo Numerically Controlled Punching Press: Multidomain Simulation and Experiments

2017

A three-degree-of-freedom mathematical vibration model of a high-speed punching press was developed in order to explore the vibration modes of the punching press. A multidomain model of the punching press was established to predict the kinematic state during different conditions, as well as the effects of load fluctuation on the motor speed. Experimental measurements of the acceleration of the punching press were carried out. The results comparison reveals that the multidomain model is consistent with the vibration model and the experimental measurements. Modal analysis and structure modification of the punching press were conducted. The foundation at the base of the punching press was impr…

0209 industrial biotechnologyEngineeringArticle SubjectModal analysisVibration controlMechanical engineeringCondensed Matter Physic02 engineering and technologyKinematicsAcceleration020901 industrial engineering & automation0203 mechanical engineeringMechanics of MaterialPunchingCivil and Structural Engineeringbusiness.industryMechanical EngineeringComputingMilieux_PERSONALCOMPUTINGStructural engineeringGeotechnical Engineering and Engineering GeologyCondensed Matter PhysicsStrength of materialslcsh:QC1-999Vibration020303 mechanical engineering & transportsMechanics of Materialsbusinesslcsh:PhysicsServoShock and Vibration
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Residual stress measurement in innovative friction stir welding processes

2017

In recent years, important innovations have been introduced in Friction Stir Welding (FSW) technology such as, for example, the Laser assisted Friction Stir Welding (LFSW) and in-process Cooled Friction Stir Welding (CFSW). Residual stresses have a fundamental role in welded structures because they affect the way to design the structures, fatigue life, corrosion resistance and many other material properties. Consequently, it is important to investigate the residual stress distribution in FSW where, though the heat input is lower compared to traditional welding techniques, the constraints applied to the parts to weld are more severe. The aim of the present work is to verify the capabilities …

0209 industrial biotechnologyMaterials scienceFriction Stir Welding; In-process Cooled Friction Stir Welding; Laser assisted Friction Stir Welding; Residual stress; X-ray diffraction; Materials Science (all); Mechanics of Materials; Mechanical EngineeringLaser assisted Friction Stir WeldingFriction Stir WeldingResidual stress02 engineering and technologyWeldinglaw.invention020901 industrial engineering & automationlawResidual stressFriction stir weldingGeneral Materials ScienceFriction weldingComposite materialMechanical EngineeringMetallurgyIn-process Cooled Friction Stir Welding021001 nanoscience & nanotechnologyStrength of materialsX-ray diffractionMechanics of MaterialsMaterials Science (all)0210 nano-technologyresidual stress friction stir welding laser assisted friction stir welding in-process cooled friction stir welding x-ray diffraction
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Influence of Process Parameters on the Product Integrity in Friction Stir Extrusion of Magnesium Alloys

2016

Friction Stir Extrusion is an innovative direct-recycling technology for metal machining chips. During the process a specifically designed rotating tool is plunged into a cylindrical matrix containing the scraps to be recycled. The stirring action of the tool prompts solid bonding related phenomena allowing the back extrusion of a full dense rod. This process results to be particularly relevant because allows the reuse of the scrap without any previous treatment. Experiments have been carried out in order to investigate the influence of the process parameters on the extrudes quality and a numerical model has been developed in order to simulate the evolution of the material flow.

0209 industrial biotechnologyMaterials scienceMechanical EngineeringMetallurgyProcess (computing)Scrap02 engineering and technologyReuse021001 nanoscience & nanotechnologyStrength of materialsFinite element methodMaterial flow020901 industrial engineering & automationMechanics of MaterialsGeneral Materials ScienceExtrusionMagnesium alloy0210 nano-technologyKey Engineering Materials
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Shear coefficient determination in linear friction welding of aluminum alloys

2015

In the present study, a combined experimental and numerical investigation on Linear Friction Welding (LFW) of AA2011-T3 aluminum alloy was carried out in order to find the temperature dependent shear coefficient to be used in a 3D numerical model of the process. Torque, oscillation frequency and pressure were acquired in order to calculate the shear stress at the interface. A numerical thermal model was used to calculate the temperature at the interface between the specimens starting from experimental temperatures acquired through a thermocouple embedded in the LFW specimens. Finally, the calculated shear coefficient was used to model the contact between the two specimens in a dedicated 3D,…

Aluminum alloyMaterials scienceOscillationMechanical EngineeringAlloyMetallurgyFEM modelchemistry.chemical_elementMechanicsengineering.materialStrength of materialsShear (sheet metal)chemistryShear coefficientMechanics of MaterialsThermocoupleAluminiumengineeringShear stresslcsh:TA401-492General Materials Sciencelcsh:Materials of engineering and construction. Mechanics of materialsFriction weldingLinear friction weldingSettore ING-IND/16 - Tecnologie E Sistemi Di LavorazioneMaterials & Design
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Stiffness and strength of composite truss beam to R.C. column connection in MRFs

2015

Abstract The results of experimental and numerical investigations on the cyclic behavior of composite truss beam to reinforced concrete column connection of moment resisting frames are reported. The beams are constituted by a steel truss and end zone added rebar embedded within a concrete block cast in place, so that, after curing, the steel truss and the added rebar work together with the concrete matrix as reinforcement of the composite beam. Particularly, three specimens of two-span continuous beams were tested under monotonic and cyclic actions as three point bending test. With the goal to investigate about the behavior of the end zone of the beam integrated into a moment resisting fram…

Beam-to-column connection; Cyclic behavior of beam end zone; Experimental three-point bending tests; Fiber model; Hybrid steel trussed-concrete beams; Building and Construction; Civil and Structural Engineering; Mechanics of MaterialsExperimental three-point bending testMaterials scienceThree point flexural testRebarTrusslaw.inventionBeam-to-column connectionFiber modellawmedicineMechanics of MaterialHybrid steel trussed-concrete beamComposite materialCivil and Structural Engineeringbusiness.industryMetals and AlloysStiffnessStructural engineeringBuilding and ConstructionExperimental three-point bending testsReinforced concrete columnCyclic behavior of beam end zoneStrength of materialsSettore ICAR/09 - Tecnica Delle CostruzioniHybrid steel trussed-concrete beamsMechanics of MaterialsPlastic hingemedicine.symptom2506businessBeam (structure)
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Effect of the indentation process on fatigue life of drilled specimens

2015

Design and manufacture of mechanical elements are strongly influenced by the evaluation of the residual stresses due to their effects on the material strength. This paper presents numerical and experimental results performed on AW 6082-T6 aluminum alloy drilled specimens when the hole is created after a bilateral indentation process. The plastic deformation induced by the indenters creates a compressive residual stress field around the hole, which persists after the drilling operation. Several numerical analysis have been carried out in ANSYS APDL explicit solver for different indentation depths and hole diameters in order to evaluate the compressive circumferential stresses, optimal proces…

Cold workingMaterials sciencebusiness.industryMechanical EngineeringNumerical analysisAlloyDrillingchemistry.chemical_elementResidual streStructural engineeringengineering.materialStrength of materialsDeep hole drillingchemistryMechanics of MaterialsResidual stressAluminiumIndentationIndentation proceengineeringbusinessFE analysiFatigue
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Analytical approach for the mix design optimisation of bituminous mixtures with crumb rubber

2018

The present paper provides a basis for defining a mix design method specifically tailored to rubberised asphalt that takes into account the behaviour of crumb rubber. An analytical approach to quantifying the recovered deformation of crumb rubber in the post-compaction phase has been developed in order to adjust the number of gyrations proposed by the Superpave method for compacting specimens of hot mix asphalt using a Superpave gyratory compactor. The maximum allowable amount of rubber has been calculated. Finally, a step-by-step protocol has been proposed in order to fabricate and compact crumb rubber modified mixtures with the gyratory compactor.

Crumb rubber; Mix design; Rubberised asphalt; Superpave gyratory compactor; Civil and Structural Engineering; Building and Construction; Materials Science (all); Mechanics of MaterialsMaterials science0211 other engineering and technologies020101 civil engineeringMix design02 engineering and technologyMix designRubberised asphalt0201 civil engineeringNatural rubberAsphalt pavement021105 building & constructionSettore ICAR/04 - Strade Ferrovie Ed AeroportiGeneral Materials ScienceCrumb rubberComposite materialCivil and Structural EngineeringCrumb rubberBuilding and ConstructionStrength of materialsSuperpave gyratory compactorCrumb rubber Superpave gyratory compactor Mix design Rubberised asphaltAsphaltMechanics of Materialsvisual_artSolid mechanicsvisual_art.visual_art_mediumMaterials Science (all)Deformation (engineering)
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Electric control of the spin Hall effect by intervalley transitions

2013

Controlling spin-related material properties by electronic means is a key step towards future spintronic technologies. The spin Hall effect (SHE) has become increasingly important for generating, detecting and using spin currents, but its strength-quantified in terms of the SHE angle-is ultimately fixed by the magnitude of the spin-orbit coupling (SOC) present for any given material system. However, if the electrons generating the SHE can be controlled by populating different areas (valleys) of the electronic structure with different SOC characteristic the SHE angle can be tuned directly within a single sample. Here we report the manipulation of the SHE in bulk GaAs at room temperature by m…

Electronic structureSpin currentsSpin Hall effectElectronElectronic structureCrystal symmetrySpin-polarized electronsElectron populationGallium arsenideQuantum mechanicsGeneral Materials ScienceSemiconducting galliumStrength of materials0912 Materials EngineeringRoom temperatureSpin-½Intervalley transitionPhysicsCouplingElectromotive forceCondensed matter physicsSpintronicsMechanical EngineeringMaterial systemsGeneral ChemistryCondensed Matter::Mesoscopic Systems and Quantum Hall EffectCondensed Matter PhysicsElectric controlHeavy metalsMechanics of MaterialsSpin Hall effectSpin-orbit couplingsMaterial propertiesNature Materials
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Cyclic behavior of composite truss beam-to-RC column joints in MRFS

2016

In the present paper, the cyclic behavior of beam-to-column joints made up of Hybrid Steel Trussed Concrete Beams (HSTCBs) connected to Reinforced Concrete (RC) piers is investigated. HSTCBs are a typology of composite beam generally constituted by a steel truss with end zone added rebars embedded within a block of concrete cast in place. HSTCBs represent a structural solution for light industrialization in the civil constructions; the main advantages in their use are the higher construction speed with the minimum site labor, the possibility of covering wide spans with low depths and a final economical convenience. For these reasons, they are also increasingly adopted within seismic framed …

EngineeringCyclic testComposite number0211 other engineering and technologiesTruss020101 civil engineering02 engineering and technologyComposite beams0201 civil engineeringColumn (typography)021105 building & constructionBeam-to-column joint; Composite truss beam; Cyclic tests; Seismic performance; Materials Science (all); Mechanics of Materials; Mechanical EngineeringGeneral Materials ScienceMechanics of MaterialDuctilityJoint (geology)Beam-to-column jointCyclic testsbusiness.industryComposite truss beamMechanical EngineeringStructural engineeringStrength of materialsSettore ICAR/09 - Tecnica Delle CostruzioniMechanics of MaterialsSeismic performanceMaterials Science (all)businessBeam (structure)
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