Litcius/Paper detail

Fatigue probability model for AWJ-cut steel including surface roughness and residual stress

Gustav Hultgren, Rami Mansour, Zuheir Barsoum, Mårten Olsson

2021Journal of Constructional Steel Research30 citationsDOIOpen Access PDF

Abstract

An analytical model for the fatigue probability of abrasive waterjet cut high strength steel as a function of surface roughness, surface residual stress, tensile strength and number of cycles to failure is presented. Based on the model, which is valid in the finite and infinite-life high cycle fatigue regime, the influence of the aforementioned parameters on the fatigue strength at different probability levels is studied. For validation, fatigue tests are performed on abrasive waterjet-cut dog-bone specimens manufactured from high-strength steel with a yield strength of 700 MPa. Residual stresses are measured parallel to the loading direction at the inlet, middle and outlet of the cut surface. Surface roughnesses are measured with laser line triangulation as well as a traditional contact stylus method, showing good agreement between both measurement techniques. The proposed probabilistic model shows good agreement with the experimental results with less than 4% error in the predicted mean fatigue limit. Furthermore, the applicability of the presented analytical expression in a probabilistic design framework is demonstrated. An engineering example is introduced demonstrating the implementation of the model in a finite-element simulation, accounting for both multiaxial loading and the statistical size effect.

Topics & Concepts

Fatigue limitStructural engineeringFinite element methodMaterials scienceResidual stressSurface roughnessUltimate tensile strengthSurface finishAbrasiveStress (linguistics)Statistical modelComposite materialEngineeringMathematicsPhilosophyStatisticsLinguisticsErosion and Abrasive MachiningFatigue and fracture mechanicsHigh-Velocity Impact and Material Behavior