Study of the Hibridation of Ablation Casting and Laser Wire Metal Deposition for Aluminum Alloy 5356 DOI Creative Commons
Ana Isabel Fernández-Calvo, Mikel Madarieta,

Ane Solana

et al.

Crystals, Journal Year: 2025, Volume and Issue: 15(2), P. 134 - 134

Published: Jan. 25, 2025

The rapidly growing field of metal additive manufacturing (AM) has enabled the fabrication near-net-shape components with complex 3D structures in a more reliable, productive, and sustainable way compared to any other process. productivity AM could be significantly increased combining conventional technologies. However, application at an industrial level requires validation process itself assurance soundness junction between substrate deposited sufficiently rapid deposition rate. In this work, additively manufactured samples Al-5356 alloy was performed. These were partially via ablation casting laser using metallic wire (LMwD). material showed low porosity levels, i.e., below 0.04%, small number lack-of-union defects, which are detrimental mechanical properties. tensile centred ablated materials, it found that when part sample exhibited no region LMwD higher strength than ablation-cast part. results suggest combination is competitive technique for parts geometries.

Language: Английский

Study of the Hibridation of Ablation Casting and Laser Wire Metal Deposition for Aluminum Alloy 5356 DOI Creative Commons
Ana Isabel Fernández-Calvo, Mikel Madarieta,

Ane Solana

et al.

Crystals, Journal Year: 2025, Volume and Issue: 15(2), P. 134 - 134

Published: Jan. 25, 2025

The rapidly growing field of metal additive manufacturing (AM) has enabled the fabrication near-net-shape components with complex 3D structures in a more reliable, productive, and sustainable way compared to any other process. productivity AM could be significantly increased combining conventional technologies. However, application at an industrial level requires validation process itself assurance soundness junction between substrate deposited sufficiently rapid deposition rate. In this work, additively manufactured samples Al-5356 alloy was performed. These were partially via ablation casting laser using metallic wire (LMwD). material showed low porosity levels, i.e., below 0.04%, small number lack-of-union defects, which are detrimental mechanical properties. tensile centred ablated materials, it found that when part sample exhibited no region LMwD higher strength than ablation-cast part. results suggest combination is competitive technique for parts geometries.

Language: Английский

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