Search results for "Crack growth resistance curve"

showing 8 items of 8 documents

Fatigue crack growth through particulate clusters in polycarbonate material

2011

The interaction of a crack with a perfectly bonded inclusion or a cluster of inclusions in polycarbonate matrix was investigated through both numerical simulations and fatigue tests. Stress intensity factors (K(I)) were evaluated by boundary element method for several particle sizes, position and finally for inclusion cluster as a precursor study for the experiments. The numerical simulation has shown the crack tendency to circumvent the inclusions with consequential reduction of the growth rate. Fatigue crack growth tests were carried out on several particle-filled specimens at constant value of the applied stress intensity factor range (Delta K(Iapp)) highlighting the crack delay due to t…

Crack growthMaterials sciencebusiness.industryCrack-inclusion interactionMechanical EngineeringEffective stressParticulate compositeSettore ING-IND/34 - Bioingegneria IndustrialeStructural engineeringParis' lawCrack growth resistance curveCrack closureMechanics of Materialsmental disordersBoundary element methodShielding effectGeneral Materials ScienceGrowth rateComposite materialFatigue crack growth propagationbusinessStress intensity factorStress concentrationEngineering Fracture Mechanics
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Fatigue Design of Cruciform Joints including V-notch Effect at the Weld Toe

2014

Abstract The present paper proposes a new and more accurate fatigue life prediction model for fillet welded joints in steel subjected to constant amplitude loading. With the traditional fracture mechanics approach, the greatest difficulty when computing the fatigue life of a welded detail is to determine the initial crack size a0. The classical way to determine the stress intensity factor K (SIF) is by using the following formula Where σ is the applied stress, a is the crack size and g(a/T) the geometrical correction factor which has been determined by Gurney function or similar solutions. This approach is not accurate for short crack because of the singular V-notch behaviour close to the c…

J-integralStrain energy release rateMaterials sciencecrack initiationbusiness.industryCrack tip opening displacementFracture mechanicsGeneral MedicineStructural engineeringCrack growth resistance curveToeSteel welded jointsCrack closureenergy release ratebusinessshort crackfatigue designStress intensity factorStress concentrationProcedia Materials Science
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ΔJ-integral range estimation for fatigue crack growth rate description

2004

Abstract The paper presents an equation for fatigue crack growth rate description taking into account the ΔJ-integral range, which was verified experimentally for variable bending. Plane, notched specimens were tested under unilaterally restrained bending for different values of stress ratio R. The results of tests and numerical calculations were presented as characteristics of fatigue crack growth rate. It has been shown that in the case of a change of stress ratio from R=−1.0 to R=0.0, the crack rate increases twice for 10HNAP steel and five times for 18G2A steel. The empirical formula presented in the paper describes well the test results of fatigue crack rate in the steels.

Materials sciencebusiness.industryStress ratioPlane (geometry)Mechanical EngineeringBendingStructural engineeringMechanicsParis' lawCrack growth resistance curveIndustrial and Manufacturing EngineeringCrack closureMechanics of MaterialsModeling and SimulationEmpirical formulaRange (statistics)General Materials SciencebusinessInternational Journal of Fatigue
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Crack dynamics and crack surfaces in elastic beam lattices

1998

The dynamics of propagating cracks is analyzed in elastic two-dimensional lattices of beams. At early times, inertia effects and static stress enhancement combine so that the crack-tip velocity is found to behave as t1/7. At late times a minimal crack-tip model reproduces the numerical simulation results. With no disorder and for fast loading, a “mirror-mist-mirror” crack-surface pattern emerges. Introduction of disorder leads, however, to the formation of the “mirror-mist-hackle”–type interface typical in many experimental situations. Peer reviewed

PhysicsComputer simulationelastic two-dimensional lattices of beamsmedia_common.quotation_subjectPhysicsDynamics (mechanics)Crack tip opening displacementFracture mechanicsMechanicsdynamicsInertiaCrack growth resistance curveCrack closurepropagating cracksFracture toughnessmedia_common
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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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Crack growth analysis at adhesive–adherent interface in bonded joints under mixed mode I/II

2008

The propagation of an interface crack subjected to mixed mode I/II was investigated for two 2024-T351 aluminum thin layers joined by means of DP760 epoxy adhesive produced by 3M©. On the basis of beam theory, an analytical expression for computing the energy release rate is presented for the mixed-mode end loaded split (MMELS) test. The analytical strain energy release rate was compared by finite element (FE) analysis using the virtual crack closure technique (VCCT). Several fatigue crack growth tests were carried out in a plane bending machine to compare the experimental energy release rates to those of the analytical and FE solutions. Experimental results showed the relationship between t…

Strain energy release rateMaterials sciencebusiness.industryMechanical EngineeringDelaminationCrack tip opening displacementFracture mechanicsStructural engineeringParis' lawCrack growth resistance curveCrack closureMechanics of Materialsmental disordersGeneral Materials ScienceAdhesiveComposite materialbusiness
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Evaluation of toughness by finite fracture mechanics from crack onset strain of brittle coatings on polymers

2008

Crack onset strain measurements of a confined layer in tension provide the means for layer toughness estimation. The procedure can be simplified if steady-state conditions prevail starting from the commencement of crack propagation, an assumption frequently employed in energy release rate evaluation. It is demonstrated, by numerical analysis of experimental data, that an estimate of the defect size in the film is needed in order to reliably evaluate its fracture toughness from the crack onset strain. Only if microcracks of sufficient size are present in the brittle layer, the steady-state energy release rate at the crack onset strain can be identified with layer toughness. Otherwise, the to…

ToughnessMaterials science[SPI.GPROC] Engineering Sciences [physics]/Chemical and Process Engineering02 engineering and technologyCrack growth resistance curveCrack onset strainCoatingCrack closureFracture toughnessBrittleness0203 mechanical engineeringmedicineGeneral Materials Science[SPI.GPROC]Engineering Sciences [physics]/Chemical and Process EngineeringComposite materialComputingMilieux_MISCELLANEOUSStrain energy release ratedouble beam cantilever beam (DCB)business.industryFissureApplied MathematicsMechanical EngineeringFracture mechanicsStructural engineeringFracture toughness021001 nanoscience & nanotechnologyCondensed Matter Physics020303 mechanical engineering & transportsmedicine.anatomical_structurePolymer film0210 nano-technologybusiness
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Simulation of Fatigue Delamination Growth in Composites with Different Mode Mixtures

2007

A numerical model, obtained by implementing a cyclic damage model in the framework of an interface element, is here proposed to reproduce the crack growth in laminated composites subjected to cyclically repeated loads. This model, which differs from the few studies in the literature on the topic, applies not only to single fracture modes but also to mixed modes, and to constant or variable crack growth rates. The applied load (in terms of force or displacement) is assumed to oscillate between a minimum and a maximum constant value. The Paris curve can be reproduced with accuracy once some parameters in the numerical model are tuned with experiments. These parameters are preliminarily found…

interface elementMaterials scienceMechanical EngineeringDelaminationMode (statistics)Fracture mechanics02 engineering and technology021001 nanoscience & nanotechnologyCrack growth resistance curvedelaminationFinite element methodDisplacement (vector)020303 mechanical engineering & transports0203 mechanical engineeringMechanics of MaterialsMode couplingMaterials ChemistryCeramics and Compositesfinite element analysis (FEA)fatigueComposite materialSettore ING-IND/15 - Disegno E Metodi Dell'Ingegneria Industriale0210 nano-technologyConstant (mathematics)damageJournal of Composite Materials
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