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Influence of Laser Beam Wobbling Parameters on Microstructure and Properties of 316L Stainless Steel Multi Passed Repaired Parts

A. A. Voropaev, V. G. Protsenko, Dmitriy Andreevich Anufriyev, M. Kuznetsov, Aleksey Alekseevich Mukhin, M.N. Sviridenko, S. V. Kuryntsev

2022Materials15 citationsDOIOpen Access PDF

Abstract

The results of experimental studies of repair of the supporting structure components made of 316L steel multi-pass laser cladding with filler wire are presented. The influence of the wobbling mode parameters, welding speed, and laser power on the formation of the deposited metal during multi-pass laser cladding with filler wire of 316L steel samples into a narrow slot groove, 6 mm deep and 3 mm wide, are shown. Non-destructive testing, metallographic studies, and mechanical tests of the deposited metal before and after heat treatment (2 h at 450 °C) were carried out. Based on the results of experimental studies, the optimal modes of laser beam wobbling were selected (amplitude-1.3 mm, frequency-100 Hz) at which the formation of a bead of optimal dimensions (height-1672 μm, width-3939 μm, depth of penetration into the substrate-776 μm) was ensured. A laser cladding technology with ESAB OK Autrode 316L filler wire has been developed, which has successfully passed the certification for conformity with the ISO 15614-11 standard. Studies of the chemical elements' distribution before and after heat treatment showed that, after heat treatment along the grain boundaries, particles with a significantly higher Mo content (5.50%) were found in the sample, presumably precipitated phases. Microstructure studies and microhardness measurements showed that the upper part metal of the third pass, which has a lower microhardness (75% of base metal), higher ferrite content, and differently oriented dendritic austenite, significantly differs from the rest of the cladded metal.

Topics & Concepts

Materials scienceMicrostructureIndentation hardnessUndercutComposite materialWeldingLaserCladding (metalworking)MetallurgyLaser beam weldingHeat-affected zoneBase metalPenetration depthKeyholeAusteniteOpticsPhysicsAdditive Manufacturing Materials and ProcessesHigh Entropy Alloys StudiesWelding Techniques and Residual Stresses
Influence of Laser Beam Wobbling Parameters on Microstructure and Properties of 316L Stainless Steel Multi Passed Repaired Parts | Litcius