Litcius/Paper detail

The role of plasticity-induced crack closure in the non-propagation prediction of surface defect-initiated cracks near fatigue limit

Kimmo Kärkkäinen, Joona Vaara, Miikka Väntänen, Immo Niskanen, Tero Frondelius

2022International Journal of Fatigue13 citationsDOIOpen Access PDF

Abstract

The purpose of present work is to deepen the understanding of crack propagation, non-propagation, and fatigue limit. Quantitative prediction of fatigue crack non-propagation in constant amplitude loading is attempted through extensive 3D elastic–plastic finite element analysis of near-threshold propagation of short cracks nucleating from surface defects. Level of plasticity-induced crack closure is used to estimate the effective stress intensity factor range, which is evaluated in terms of non-propagation potential. It is shown that plasticity-induced crack closure alone is adequate in producing a local minimum in the development of effective stress intensity factor range, which gives a prerequisite to crack arrest.

Topics & Concepts

Crack closurePlasticityMaterials scienceFracture mechanicsStructural engineeringStress intensity factorFatigue limitAmplitudeFinite element methodStress concentrationMechanicsLimit (mathematics)Stress (linguistics)Closure (psychology)Crack growth resistance curveComposite materialEngineeringMathematicsMathematical analysisPhysicsOpticsLinguisticsEconomicsMarket economyPhilosophyFatigue and fracture mechanicsUltrasonics and Acoustic Wave PropagationNon-Destructive Testing Techniques