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Micromechanical fatigue experiments for validation of microstructure-sensitive fatigue simulation models

Ali Riza Durmaz, Erik Natkowski, Nikolai Arnaudov, Petra Sonnweber–Ribic, Stefan Weihe, Sebastian Münstermann, Christoph Eberl, Peter Gumbsch

2022International Journal of Fatigue18 citationsDOIOpen Access PDF

Abstract

Crack initiation governs high cycle fatigue life and is sensitive to microstructural details. While corresponding microstructure-sensitive models are available, their validation is difficult. We propose a validation framework where a fatigue test is mimicked in a sub-modeling simulation by embedding the measured microstructure into the specimen geometry and adopting an approximation of the experimental boundary conditions. Exemplary, a phenomenological crystal plasticity model was applied to predict deformation in ferritic steel (EN1.4003). Hotspots in commonly used fatigue indicator parameter maps are compared with damage segmented from micrographs. Along with the data, the framework is published for benchmarking future micromechanical fatigue models.

Topics & Concepts

MicrostructureMaterials scienceFatigue testingStructural engineeringCrystal plasticityEmbeddingDeformation (meteorology)Model validationPhenomenological modelBenchmarkingPlasticityMechanicsMetallurgyComposite materialComputer scienceEngineeringArtificial intelligenceMathematicsPhysicsStatisticsMarketingData scienceBusinessFatigue and fracture mechanicsMicrostructure and Mechanical Properties of SteelsHigh-Velocity Impact and Material Behavior