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Multiscale modelling strategy for predicting fatigue performance of welded joints

Hongchang Zhou, Masao KINEFUCHI, Y. Takashima, Kazuki Shibanuma

2024International Journal of Mechanical Sciences24 citationsDOIOpen Access PDF

Abstract

• The fatigue performance of welded joints is predicted by multiscale model simulations. • Microstructure distribution, strength distribution in HAZ and 3D weld toe shapes are considered simultaneously in the multiscale model. • The modelling strategy for multiple crack initiation, growth, and coalescence behaviour is proposed. • The proposed strategy for predicting the fatigue performance of welded joints is validated by experimental results. This study predicts the fatigue performance of welded joints through a multiscale modelling strategy accounting for material and structural inhomogeneities. An S-N curve and detailed fracture surfaces with distinct beach marks were first derived by uniaxial fatigue tests utilising the designed cruciform welded joints. Considering the intrinsic features of welded joints, a multiscale modelling strategy was proposed to integrate multiple factors, including microstructural variations, strength distributions within the heat-affected zone (HAZ), and the diversity of three-dimensional weld toe shapes. Significantly, a modelling strategy was presented for the first time to simulate the simultaneous initiation, growth, and coalescence of multiple cracks, and was validated against experimental evidence. The results indicate that the proposed strategy can accurately predict both the fatigue strength and the overall crack growth process. Additionally, comparative assessments of single-crack and multiple-crack modelling strategies revealed notably shorter predicted fatigue lives when considering crack coalescence. Overall, this work establishes a multiscale framework for assessing the fatigue performance of welded joints considering both microscopic and macroscopic factors, offering substantial practical implications for engineering applications.

Topics & Concepts

WeldingStructural engineeringMaterials scienceEngineeringComputer scienceMechanical engineeringComposite materialFatigue and fracture mechanicsMaterial Properties and Failure MechanismsMicrostructure and Mechanical Properties of Steels
Multiscale modelling strategy for predicting fatigue performance of welded joints | Litcius