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Surface modification of high-Mn steel via laser-DED: Microstructural characterization and hot crack susceptibility of clad layer

Du-Rim Eo, Seong-Gyu Chung, JeongHo Yang, Won Tae Cho, Sunhong Park, Jung‐Wook Cho

2022Materials & Design13 citationsDOIOpen Access PDF

Abstract

High-Mn steels have been intensively developed in steel industries due to their excellent mechanical properties and low density. However, the weak surface properties of these steels significantly limited the production and application scope. Various surface modification solutions were proposed, but they were not suitable for mass production or degraded the physical properties of base materials. Here, a new solution is proposed for mass-producing an ultra-thin multilayer clad steel sheet using an additive manufacturing process without changing the superior mechanical property of the high-Mn steel. Functionally graded multilayers from high-Mn steel to high-strength low-alloy steel have been deposited onto a high-Mn steel slab by a powder-fed type additive manufacturing process to improve its surface properties. During the deposition at high laser intensities, solidification cracks appeared in the first and second layers. The hot crack susceptibility of the functionally graded multilayers was elucidated by employing thermodynamic solidification calculation and thermo-mechanical analysis.

Topics & Concepts

Materials scienceLayer (electronics)Characterization (materials science)MetallurgyLaserSurface modificationSurface layerMicrostructureComposite materialNanotechnologyOpticsChemical engineeringPhysicsEngineeringAdditive Manufacturing Materials and ProcessesHigh Entropy Alloys StudiesWelding Techniques and Residual Stresses
Surface modification of high-Mn steel via laser-DED: Microstructural characterization and hot crack susceptibility of clad layer | Litcius