Areal Analysis Investigation of Selective Laser Melting Parts

Boschetto, Alberto; Bottini, Luana; Ghanadi, Nahal

doi:10.3390/jmmp6040083

Cited by 2 publications

(1 citation statement)

References 31 publications

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“…By modifying the lateral overlap between adjacent beads, Bernauer et al demonstrated that an optimal overlapping distance exists, at which good wettability and surface quality can be achieved [56,125]. Sheikh et al measured the average surface roughness (R a ) [147] of layers deposited using different lateral overlap ratios and achieved an R a lower than 8 µm for the optimum overlap ratio employing SS304 wire with a 100 μm diameter as depicted in Figure 17 [65]. Consistent with these findings, several studies stated that exceeding the optimal lateral overlap leads to reduced material efficiency and accuracy, whereas low lateral overlap compromises surface topography [58,148].…”

Section: Single-track Depositionmentioning

confidence: 99%

A Review on Wire-Laser Directed Energy Deposition: Parameter Control, Process Stability, and Future Research Paths

Ghanadi,

Pasebani

2024

JMMP

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Wire-laser directed energy deposition has emerged as a transformative technology in metal additive manufacturing, offering high material deposition efficiency and promoting a cleaner process environment compared to powder processes. This technique has gained attention across diverse industries due to its ability to expedite production and facilitate the repair or replication of valuable components. This work reviews the state-of-the-art in wire-laser directed energy deposition to gain a clear understanding of key process variables and identify challenges affecting process stability. Furthermore, this paper explores modeling and monitoring methods utilized in the literature to enhance the final quality of fabricated parts, thereby minimizing the need for repeated experiments, and reducing material waste. By reviewing existing literature, this paper contributes to advancing the current understanding of wire-laser directed energy deposition technology. It highlights the gaps in the literature while underscoring research needs in wire-laser directed energy deposition.

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Section: Single-track Depositionmentioning

confidence: 99%

A Review on Wire-Laser Directed Energy Deposition: Parameter Control, Process Stability, and Future Research Paths

Ghanadi,

Pasebani

2024

JMMP

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Numerical simulation and experimental study of aluminum heat exchanger based on Comsol Multiphysics

Liu,

Peng,

Jiang

et al. 2024

Trans. Can. Soc. Mech. Eng.

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Controlling the temperature of the air flow during printing can greatly improve the data measurement of air flow and the printing effect of selective laser melting equipment. In this study, an aluminum-welded heat exchanger was designed and manufactured combined with an engineering application example. The thermal performances of heat exchanger were carried out by experiment and numerical simulation in Comsol Multiphysics. Results show that the model has high accuracy (the relative error is less than 12% in most cases and the absolute error is less than 16 Pa below the flow rate of 350 m3/h), and the overall pipeline resistance loss is small. The temperature difference between outlet and inlet is always lower than 6.5 °C during actual working conditions, which meets the requirements for use. The research can provide good theoretical guidance for the design and application of aluminum heat exchangers.

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Areal Analysis Investigation of Selective Laser Melting Parts

Cited by 2 publications

References 31 publications

A Review on Wire-Laser Directed Energy Deposition: Parameter Control, Process Stability, and Future Research Paths

A Review on Wire-Laser Directed Energy Deposition: Parameter Control, Process Stability, and Future Research Paths

Numerical simulation and experimental study of aluminum heat exchanger based on Comsol Multiphysics

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