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Synchrotron diffraction residual stresses studies of electron beam welded high strength structural steels

Raghawendra Pratap Singh Sisodia, Lara Gigli, Jasper R. Plaisier, Valéria Mertinger, M. S. Węglowski, Piotr Śliwiński

2024Journal of Materials Research and Technology8 citationsDOIOpen Access PDF

Abstract

In recent years, there's been a strong focus on enhancing high-strength structural steels (HSSSs), making them tougher, stronger, lighter, and more weldable. However, these steels face challenges like cold cracking sensitivity (CCS) and reduced toughness with higher heat input. Therefore, exploring HSSSs with advanced welding techniques like electron beam welding (EBW) is crucial. EBW known for its innovation and precision, is gaining popularity in HSSSs applications for vehicles, construction industries etc. offering advantages like narrow welds, reduced heat-affected zone (HAZ) and low distortion. It is essential to understand the influence of residual stresses (RS) in HSSSs which ultimately affect structural integrity and fatigue life. Using EBW on HSSSs, coupled with synchrotron XRD for residual stress studies, has great potential to advance this research significantly. In this work, a 15-mm-thick EB-welded joint of S960QL and S960M steels was used to study the RS. At an energy level of 20 keV, RS data from the synchrotron XRD method and its result on the top of welded joints for both types of steel were compared. S960M steel showed a longitudinal tensile stress of 250 MPa at the weld toe, approximately 1.8 times higher than the 138 MPa observed in S960QL steel under similar conditions. In transverse stress, S960QL exhibits a higher stress of 279 MPa compared to S960M 46 MPa at the weld toe, approximately 83% lower. The synchrotron method measured 76% lower LRS for S960QL compared to conventional XRD, while S960M exhibited 55% lower LRS using the same approach.

Topics & Concepts

Materials scienceElectron beam weldingResidual stressWeldingSynchrotronUltimate tensile strengthToughnessMetallurgyStress (linguistics)Composite materialCathode rayElectronOpticsQuantum mechanicsPhysicsLinguisticsPhilosophyWelding Techniques and Residual StressesFatigue and fracture mechanicsHydrogen embrittlement and corrosion behaviors in metals