- [English]
- Laser Processing of an Al0.1CoCrFeNi High Entropy Alloy + Cu Composite Powders via Laser Powder Bed Fusion
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Kwangtae Son, Ji-Woon Lee, Soon-Jik Hong, Somayeh Pasebani
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Received April 8, 2025 Accepted July 1, 2025 Published online August 1, 2025
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DOI: https://doi.org/10.4150/jpm.2025.00101
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 Abstract
- This study examined process–structure relationships in laser powder bed fusion of Al₀.₁CoCrFeNi + Cu composites, focusing on densification, elemental distribution, and solidification cracking. Mechanically mixed Al₀.₁CoCrFeNi and Cu powders were processed across a range of laser powers (100–250 W) and scan speeds (200–800 mm/s). Increased volumetric energy density (VED) improved densification, with a plateau near 200 J/mm³ yielding ~96% relative density; however, this value was still below application-grade thresholds. At low VED, insufficient thermal input and short melt pool residence times promoted Cu segregation, while higher VED facilitated improved elemental mixing. Elemental mapping showed partial co-segregation of Ni with Cu at low energies. Solidification cracks were observed across all processing conditions. In high VED regimes, cracking exhibited a minimal correlation with segregation behavior and was primarily attributed to steep thermal gradients, solidification shrinkage, and residual stress accumulation. In contrast, at low VED, pronounced Cu segregation appeared to exacerbate cracking through localized thermal and mechanical mismatch.
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