Litcius/Paper detail

Solidification sequence and crystal growth during laser welding stainless steel to copper

Tianyu Xu, Libo Wang, Xiuquan Ma, Zhengwu Zhu, Chunming Wang, Gaoyang Mi

2022Materials & Design15 citationsDOIOpen Access PDF

Abstract

In the present study, solidification and growth features were systematically studied during fibre laser welding 304 stainless steel to T2 copper. Via orientation-composition combination detection, Cr-rich ferrite (δ), Ni-rich austenite (γ) and pure Cu phases were precisely clarified. Close to the fusion line on the steel side, strict epitaxial growth from γ substrate grains produced continuous and uniform crystalline orientations for both γ and Cu phases. In the vicinity of α/ε junctures, similar orientation identities of γ and Cu were maintained until the presence of δ. Morphologically, δ presented globular and dendritic forms in the ε structure with dispersive γ spheres and Cu grains. These outcomes indicated that δ particles produced direct or immediate interruptions, thus leading to localized refined γ and Cu grains. By metallurgical analyses, such refinement was primarily attributed to initial δ dispersion and its subsequent chemical or mechanical blocking-up on γ and Cu by forming K-S, N-W and G-T relationship orientations. Additionally, solidified γ also exerted accordant growth of Cu. In summary, the substantial method to obtain identical refinements of δ, γ and Cu grains depended naturally on the dispersed and uniform precipitation of priorly precipitated δ.

Topics & Concepts

Materials scienceCopperWeldingMetallurgyAustenitePrecipitationWeld poolFerrite (magnet)CrystallographyComposite materialMicrostructureArc weldingChemistryMeteorologyGas tungsten arc weldingPhysicsMicrostructure and Mechanical Properties of SteelsWelding Techniques and Residual StressesHydrogen embrittlement and corrosion behaviors in metals