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Application of stress intensity factor superposition in residual stress fields considering crack closure

Sören Keller, Benjamin Klusemann

2020Engineering Fracture Mechanics20 citationsDOIOpen Access PDF

Abstract

The correlation between stress intensity factor (SIF) range and fatigue crack growth is a powerful tool for fail-safe design approaches applied to lightweight structures. The key role is precise calculation of the SIFs of fatigue load cycles. Advanced material processing can shape residual stresses and makes SIF calculation a challenging task. While the consideration of tensile residual stresses is successfully tackled by SIF superposition, the treatment of compressive residual stresses needs still clarification. This work demonstrates the application of the SIF superposition principle in regions containing high compressive residual stresses leading to crack closure effects. Crack closure depends on the combined load of residual and applied stresses and is interpreted as a change of crack geometry in this work. Thus the relation between the source, i.e. the applied or residual stress, and its consequence, i.e. the corresponding SIFs, depends on the interaction of the sources, i.e. the combined load. Due to this interaction, residual stress-induced changes of the fatigue behaviour cannot be linked to the residual or applied SIF only. This work proposes two alternative definitions of applied and residual SIF, allowing a clear correlation between either residual or applied SIF to fatigue behaviour changes.

Topics & Concepts

Residual stressSuperposition principleStress intensity factorResidualCrack closureMaterials scienceWork (physics)Structural engineeringClosure (psychology)Ultimate tensile strengthParis' lawMechanicsFracture mechanicsComposite materialMathematicsEngineeringMathematical analysisMechanical engineeringPhysicsAlgorithmMarket economyEconomicsFatigue and fracture mechanicsMechanical Behavior of CompositesFire effects on concrete materials