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Fatigue strength modelling of high-performing welded joints

Heikki Remes, Pasquale Gallo, Jasmin Jelovica, Jani Romanoff, Pauli Lehto

2020International Journal of Fatigue57 citationsDOIOpen Access PDF

Abstract

This paper investigates the fatigue strength modelling of high-performing welded steel joints. The work considers the strain-based, notch stress, averaged strain energy density approaches, and linear elastic fracture mechanics. A comparison of the methods with experimental data shows that the predictions vary significantly for different modelling assumptions. Only the microstructure-sensitive strain-based approach can predict the fatigue life of various weld geometries and plate thicknesses. The explicit modelling of the localised plasticity using the microstructure-dependent representative volume element is required for accurate prediction of the short crack initiation and growth periods, which dominate the fatigue life modelling of high-performing welds.

Topics & Concepts

WeldingMaterials scienceStructural engineeringPlasticityMicrostructureStrain energy density functionFracture mechanicsFatigue limitWork (physics)Fracture (geology)Stress (linguistics)Goodman relationFinite element methodComposite materialStress concentrationEngineeringMechanical engineeringPhilosophyLinguisticsFatigue and fracture mechanicsMicrostructure and Mechanical Properties of SteelsHydrogen embrittlement and corrosion behaviors in metals
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