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- Finite Element and Discrete Element Analyses of Anisotropic Powder Compaction for Axial Flux Motor Cores
- Jeong Ah Lee, Do Won Lee, , Hyojeong Ha, Ki Hyuk Kwon, Eon Byeong Park, Taeyoung Kim, Hyoung Seop Kim
- J Powder Mater. 2025;32(6):451-458. Published online December 31, 2025
- DOI: https://doi.org/10.4150/jpm.2025.00409
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Abstract
PDF - This study investigates the compaction behavior of anisotropic, plate-like powders used in axial flux motor cores through a combined FEM–DEM approach. A porous continuum FEM model captures stress and density evolution during die pressing, revealing strong gradients along the compaction direction, with higher stress and densification near the upper punch and reduced compaction in the lower region. Guided by these results, DEM simulations examine particle packing, orientation, and contact pressure in representative zones. The DEM analysis shows that higher local pressure promotes denser packing and in-plane particle alignment near the upper punch, while the lower region exhibits more random orientations and lower contact forces. As a result, the multi-scale FEM–DEM framework clarifies how anisotropic particle behavior governs local densification and offers practical guidance for die design and process optimization to achieve more uniform density and controlled magnetic-property-relevant particle alignment in axial flux motor cores.
- [English]
- Characterization of the Manufacturing Process and Mechanical Properties of CoCrFeMnNi High-Entropy Alloys via Metal Injection Molding and Hot Isostatic Pressing
- Eun Seong Kim, Jae Man Park, Do Won Lee, Hyojeong Ha, Jungho Choe, Jaemin Wang, Seong Jin Park, Byeong-Joo Lee, Hyoung Seop Kim
- J Powder Mater. 2024;31(3):243-254. Published online June 27, 2024
- DOI: https://doi.org/10.4150/jpm.2024.00059
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- 1 Citations
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Abstract
PDF
- High-entropy alloys (HEAs) have been reported to have better properties than conventional materials; however, they are more expensive due to the high cost of their main components. Therefore, research is needed to reduce manufacturing costs. In this study, CoCrFeMnNi HEAs were prepared using metal injection molding (MIM), which is a powder metallurgy process that involves less material waste than machining process. Although the MIM-processed samples were in the face-centered cubic (FCC) phase, porosity remained after sintering at 1200°C, 1250°C, and 1275°C. In this study, the hot isostatic pressing (HIP) process, which considers both temperature (1150°C) and pressure (150 MPa), was adopted to improve the quality of the MIM samples. Although the hardness of the HIP-treated samples decreased slightly and the Mn composition was significantly reduced, the process effectively eliminated many pores that remained after the 1275°C MIM process. The HIP process can improve the quality of the alloy.
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Citations
Citations to this article as recorded by
- Review on the impact of processing routes and external factors on phase formation and tribological properties of CoCrFeMnNi HEAs
Rituraj Chandrakar, Om Prakash, Anil Kumar, Ankur Jaiswal, Manish Kumar
Emergent Materials.2026;[Epub] CrossRef
- Review on the impact of processing routes and external factors on phase formation and tribological properties of CoCrFeMnNi HEAs
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