Macroscopic and Microstructural Features of Metal Thin-Wall Fabricated by Laser Material Deposition: A Review

Abstract: Owing to the versatility without expanding the machine’s size, thin-wall has been widely used in high-value parts. The investigation of laser additive manufacturing (LAM), which has advantages such as high powder density, easy controllability, and excellent stability, on the fabrication of thin-wall has drawn much attention. In this paper, the research status of macroscopic and microstructural features of metal thin-wall fabricated by LAM has been reviewed. The deposition quality was mainly focused on the effe… Show more

“…Due to all these above-mentioned factors being presented, the thermal reversion treatment takes place at the mentioned point. In this sense, by reducing the laser power by at least a factor of two, the input of the laser energy is around 80 mW, which is not in the threshold range to produce a phase transformation from γ-to α -phase [32][33][34]. As a direct consequence of this effect, the resulting superficial HV does not increase.…”

Exploring the Effects of Laser Surface Modification on AISI 301LN Steel: A Micro-Mechanical Study

“…Due to all these above-mentioned factors being presented, the thermal reversion treatment takes place at the mentioned point. In this sense, by reducing the laser power by at least a factor of two, the input of the laser energy is around 80 mW, which is not in the threshold range to produce a phase transformation from γ-to α -phase [32][33][34]. As a direct consequence of this effect, the resulting superficial HV does not increase.…”

Exploring the Effects of Laser Surface Modification on AISI 301LN Steel: A Micro-Mechanical Study

Process parameter optimization of K477 and GH4169 for defect control in laser-directed energy deposition using Taguchi design of experiments

Laser metal deposition of thin-walled parts of Al0.8CrFe2Ni2 high-entropy alloy: Process window, microstructure, wear resistance and mechanical anisotropy