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Microstructure of laser metal deposited duplex stainless steel: Influence of shielding gas and heat treatment

María Asunción Valiente Bermejo, Karthikeyan Thalavai Pandian, Björn Axelsson, Ebrahim Harati, Agnieszka Kisielewicz, Leif Karlsson

2020Welding in the World63 citationsDOIOpen Access PDF

Abstract

Abstract This research work is the first step in evaluating the feasibility of producing industrial components by using Laser Metal Deposition with duplex stainless steel Wire (LMDw). The influence of Ar and N 2 shielding gases was investigated in terms of nitrogen loss and in the microstructure and austenite content of different deposited geometries. The evolution of the microstructure in the build-up direction of the Ar and N 2 -shielded blocks was compared in the heat-treated and as-deposited conditions. The susceptibility for oxygen pick-up in the LMDw deposits was also analyzed, and oxygen was found to be in the range of conventional gas-shielded weldments. Nitrogen loss occurred when Ar-shielding was used; however, the use of N 2 -shielding prevented nitrogen loss. Austenite content was nearly doubled by using N 2 -shielding instead of Ar-shielding. The heat treatment resulted in an increase of the austenite content and of the homogeneity in the microstructure regardless of the shielding gas used. The similarity in microstructure and the low spread in the phase balance for the as-deposited geometries is a sign of having achieved a stable and consistent LMDw process in order to proceed with the build-up of more complex geometries closer to industrial full-size components.

Topics & Concepts

MicrostructureMaterials scienceElectromagnetic shieldingShielding gasAusteniteMetallurgyNitrogenShielded cableComposite materialHeat-affected zoneElectrical engineeringPhysicsEngineeringQuantum mechanicsAdditive Manufacturing Materials and ProcessesWelding Techniques and Residual StressesHydrogen embrittlement and corrosion behaviors in metals
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