Search results for "stress intensity factor"

showing 10 items of 35 documents

Generalized Fatigue Criterion of maximum shear and normal strains on the fracture plane for materials under multiaxial random loadings

1991

A generalized fatigue criterion for materials under multiaxial random loadings is presented. The criterion is based on the assumption that shear and normal strain on the expected fracture plane – shear strain in one direction on this plane is considered – determine the fracture plane. It has been shown that the well known fatigue criteria of maximum normal strain, maximum shear strain and the criterion of maximum shear and normal strains on the critical shear plane result from the newly formulated criterion.

Mechanical propertyMaterials sciencebusiness.industryMechanical EngineeringGENERALIZED FATIGUEStructural engineeringFracture planeCondensed Matter PhysicsPhysics::Fluid DynamicsCondensed Matter::Soft Condensed MatterShear modulusSimple shearCondensed Matter::Materials ScienceShear (geology)Mechanics of MaterialsShear stressGeneral Materials ScienceComposite materialbusinessStress intensity factorMaterialwissenschaft und Werkstofftechnik
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Mixed Probabilistic-Guaranteed Optimal Design

2009

This chapter deals with the mixed probabilistic-guaranteed approach to optimal design of quasi-brittle membrane shells. Special attention is devoted to different problem formulations and analytical methods for their solution. Optimal thickness distributions are presented for various axisymmetric membrane shells. The presentation follows research results of [BRS03b].

Optimal designComputer scienceProblem FormulationsProbabilistic logicRotational symmetryApplied mathematicsStress intensity factor
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Boundary-layer effects in wedges of piezoelectric laminates

2005

An approach to investigate boundary-layer effects in wedges of piezoelectric laminated structures is presented with the aim of ascertaining the electromechanical response characteristics. The wedge layer behavior is described in terms of generalized stress functions, which lead to a model consisting of a set of three coupled partial differential equations. The strength of the solution singularity is determined by solving the eigenvalue problem associated with the resolving system. The solution of the model is obtained by an eigenfunction expansion method coupled with a boundary collocation technique. Correspondingly, the singularity amplitude is assessed by introducing and calculating the g…

Partial differential equationMathematical analysisStress functionsEigenfunctionCondensed Matter PhysicsWedge (geometry)PiezoelectricityAtomic and Molecular Physics and OpticsBoundary layerSingularityMechanics of MaterialsSignal ProcessingPiezoelectric materials Cracks electric displacementGeneral Materials ScienceElectrical and Electronic EngineeringSettore ING-IND/04 - Costruzioni E Strutture AerospazialiStress intensity factorCivil and Structural EngineeringMathematicsSmart Materials and Structures
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Numerical simulations and experimental measurements of the stress intensity factor in perforated plates

2008

A numerical procedure, which combines two hybrid finite element formulations, was developed to analyse the stress intensity factors in cracked perforated plates with a periodic distribution of holes and square representative volume elements. The accuracy of the method in predicting the stress intensity factor was verified by a comparison with experimental measurements, carried out by a photoelasticity method, and by commercial finite element software. Several simulations were executed by varying both the crack length and the hole diameters, and the effects of the holes on the stress intensity factor are illustrated. The method shows high accuracy and efficiency, as small differences were ob…

Photoelasticitybusiness.industryMechanical EngineeringDegrees of freedom (statistics)MechanicsFinite element methodSquare (algebra)OpticsVolume (thermodynamics)Mechanics of MaterialsRepresentative elementary volumeGeneral Materials SciencebusinessReduction (mathematics)Stress intensity factorMathematics
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TOWARD A DESIGN METHOD FOR METAL-COMPOSITE CO-CURED JOINT BASED ON THE G-SIFs

2013

Abstract In this work, a systematic study of the singular stress field in the zone where the interface intersects the free edge surfaces of bonded metal-composite co-cured joints, has been performed. The obtained theoretical, numerical and experimental results have permitted to detect the relationships between the joint configuration and the singular stress field, as well as to implement a new design method based on the so called generalised stress intensity factors. Such a proposed method allows the user to predict the static strength of a generic metal-composite co-cured joint, vs. the main influence parameters as the elastic modulus of the coupled materials, the overlap length, the taper…

Polymer-matrix composites (PMCs)Work (thermodynamics)Materials sciencebusiness.industryMechanical EngineeringComposite numberStructural engineeringIndustrial and Manufacturing EngineeringJoints/joiningStress fieldAnalytical modelingSettore ING-IND/14 - Progettazione Meccanica E Costruzione Di MacchineLap jointMechanics of MaterialsCeramics and CompositesStrengthComposite materialbusinessElastic modulusJoint (geology)Stress intensity factorReliability (statistics)
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Quantitative thermoelastic stress analysis by means of low-cost setups

2020

Abstract A low-cost Thermoelastic Stress Analysis (TSA) experimental setup is proposed which uses an ordinary micro-bolometer and in-house developed signal processing scripts. The setup is evaluated by analysing the thermoelastic signal from a tensile and a SENT specimen made of stainless steel AISI 304L, and the bolometer performances are compared with those of a state of the art photon detector. Signal processing is based on off-line cross-correlation, using a self-reference signal which is retrieved from the acquired thermal data. Procedures are in particular developed to recognise, quantify and correct errors due to spectral leakage and loss of streamed frames. The thermoelastic signal …

Signal processingMaterials scienceMicro-bolometersAcoustics/dk/atira/pure/subjectarea/asjc/2500/2504/dk/atira/pure/subjectarea/asjc/2200/2208Crack-growth monitoringThermoelastic stress analysis02 engineering and technologyFatigue testing01 natural sciencesSignallaw.invention010309 opticsSettore ING-IND/14 - Progettazione Meccanica E Costruzione Di MacchineThermoelastic dampingData acquisitionlaw0103 physical sciencesCalibrationElectrical and Electronic EngineeringSpectral leakageStress intensity factorSignal processing/dk/atira/pure/subjectarea/asjc/3100/3107Mechanical EngineeringBolometer021001 nanoscience & nanotechnologyAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic MaterialsIR-thermography/dk/atira/pure/subjectarea/asjc/2200/22100210 nano-technology
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Fatigue crack growth in welds based on a V-notch model for the short crack propagation at the toe

2018

Abstract This work presents a new fatigue crack growth prediction model for non-load-carrying fillet welded steel joints. For this joint configuration the fatigue cracks will emanate from the weld toe region. Due to the presence of a V-notch in this region the crack initiation point becomes a point of singularity for the stress field. This may in many cases make it difficult to determine the Stress Intensity Factor Range (SIFR) for small cracks by conventional methods based on Linear Elastic Fracture Mechanics (LEFM). The present approach solves this problem by using the Energy Release Rate (ERR) to determine the SIFR in the small crack growth regime. The model is fitted to crack growth cur…

Strain energy release rate0209 industrial biotechnologyMaterials sciencebusiness.industryFracture mechanics02 engineering and technologyGeneral MedicineWeldingStructural engineeringParis' lawlaw.inventionStress field020303 mechanical engineering & transports020901 industrial engineering & automationSingularity0203 mechanical engineeringlawbusinessFillet (mechanics)Stress intensity factorProcedia Engineering
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Thermodynamics and continuum fracture mechanics for nonlocal-elastic plastic materials

2002

Nonlocal elasticity is used as an improved elasticity model which engenders no crack-tip stress singularities and thus makes applicable the classical stress-based failure criteria. Considering nonlocal-elastic plastic materials exposed to softening by particle decohesion in a process surface and to subsequent surface separation by fracture, fracture mechanics is addressed within the framework of irreversible internal-variable thermodynamics in the hypothesis of small strains and arbitrary (but sufficiently regular) fracture surface (crack surface plus process surface). The state equations and the energy dissipation densities are derived for the bulk material and for the process surface, for…

Strain energy release rateMaterials scienceMechanical EngineeringGeneral Physics and AstronomyThermodynamicsFracture mechanicsCrack growth resistance curvePhysics::GeophysicsCrack closureCohesive zone modelFracture toughnessMechanics of MaterialsGeneral Materials ScienceStress intensity factorStress concentrationEuropean Journal of Mechanics - A/Solids
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Comparison of Variance and Damage Indicator Methods for Prediction of the Fracture Plane Orientation in Multiaxial Fatigue

1999

ABSTRACT Two methods that enable prediction of the fracture plane orientation are presented and compared in this paper. The first one is a statistical approach, which is based on the variance of an equivalent stress. It is assumed that the fracture plane is the one where the variance of a linear combination of the shear and normal stresses acting on this plane is maximum. The second one uses the so-called damage indicator of a multiaxial fatigue criterion, which is based on the research of the critical plane. The formulation of the criterion involves shear and normal stress amplitudes and mean normal stress. The fracture plane is the critical plane; That is to say the one where the damage i…

Stress (mechanics)Equivalent stressVariance methodAmplitudeMaterials scienceShear (geology)business.industryStructural engineeringFracture planeLinear combinationbusinessStress intensity factor
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Finite fracture mechanics analysis of crack onset at a stress concentration in a UD glass/epoxy composite in off-axis tension

2010

The presence of stress concentrations at holes and notches is known to reduce the strength of composite materials. Due to complexity of the damage processes at a stress raiser in a composite, different modeling approaches have been developed, ranging from empirical point and average stress criteria to involved damage mechanics or cohesive zone-based models of failure. Finite fracture mechanics approach with a coupled stress and energy failure criterion, recently developed and applied mainly to cracking in homogeneous isotropic materials, allows predicting the appearance and propagation of a crack using material strength and toughness characteristics obtained from independent tests. The pres…

Stress (mechanics)Materials scienceFracture toughnessDamage mechanicsUltimate tensile strengthGeneral EngineeringCeramics and CompositesFracture mechanicsComposite materialStrength of materialsStress intensity factorStress concentrationComposites Science and Technology
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