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Generation and distribution mechanism of welding-induced residual stresses

Jiamin Sun, Thomas Nitschke‐Pagel, Klaus Dilger

2023Journal of Materials Research and Technology39 citationsDOIOpen Access PDF

Abstract

Welding-induced residual stresses (WIRS) can have influence on the performance and service life of the welded structures. The present study experimentally and numerically investigates the reason and mechanism behind the generation and distribution of WIRS concretely. The results show that the thermal shrinkage process and phase transformation process are the main sources generating welding-induced longitudinal residual stress (σLRS). Nevertheless, except for these two processes, the quenching process would be another source producing transverse residual stress (σTRS). In the current work, it is found that the maximum σLRS generally reaches the yield strength (σy) of base metal (BM) at ambient temperature (TRT) for both transforming and non-transforming materials but located at different areas. In the single-pass weldments without external restraint, σTRS profile on the top surface is usually always M-shaped for the non-transforming materials but W-shaped instead for the transforming materials. The distribution mechanism behind the M-shaped or W-shaped σTRS profile is systematically clarified here.

Topics & Concepts

Materials scienceResidual stressWeldingQuenching (fluorescence)ShrinkageTransverse planeWork (physics)Base metalMetallurgyStress (linguistics)Composite materialStructural engineeringMechanical engineeringOpticsEngineeringLinguisticsFluorescencePhysicsPhilosophyWelding Techniques and Residual StressesAdvanced Welding Techniques AnalysisFatigue and fracture mechanics
Generation and distribution mechanism of welding-induced residual stresses | Litcius