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Effects of wire feeding direction on the deposition characteristics of 316L stainless steel in laser-directed energy deposition

Yudha Aditya, Josip Vinčić, Michael J. Benoit

2024Manufacturing Letters16 citationsDOIOpen Access PDF

Abstract

• The effect of wire feeding direction on the microstructure of laser-directed energy deposited SS316L single tracks was studied. • The parameter optimisation is done to identify a common parameter set for all feed directions to give desired weld bead geometries. • Front & back feed beads exhibit near-perfect bead geometry, and the side wire feed conditions lead to a slightly skewed bead profile. This study investigates the effect of wire feeding direction on the microstructure of 316 stainless steel during the laser-directed energy deposition (L-DED) process. The process parameters were optimised by varying the scan speed, laser power, and wire feed rate to identify a common parameter set for all feed directions to give desired weld bead geometries. The identified process parameter window has shown that the conduction mode is preferred over the balling and keyhole modes. Comprehensive microstructural characterization using optical and electron microscopy has revealed that for the same parameters, the front wire feed had higher penetration, while the back wire feed had a wider bead with optimal penetration. The current findings are of significance for advancing wire-L-DED additive manufacturing for more complex component designs.

Topics & Concepts

Deposition (geology)Materials sciencePulsed laser depositionLaserMetallurgyComposite materialNanotechnologyOpticsThin filmGeologyPhysicsPaleontologySedimentAdditive Manufacturing Materials and ProcessesWelding Techniques and Residual StressesHigh Entropy Alloys Studies
Effects of wire feeding direction on the deposition characteristics of 316L stainless steel in laser-directed energy deposition | Litcius