- Research Trend of Mo based Superalloys
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Jong Min Byun, Seok Hyun Hwang, Seong Lee, Young Do Kim
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J Powder Mater. 2013;20(6):487-493.
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DOI: https://doi.org/10.4150/KPMI.2013.20.6.487
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Citations to this article as recorded by  - Preparation of Spherical Mo5Si3 Powder by Inductively Coupled Thermal Plasma Treatment
Jang-Won Kang, Jong Park, Byung Choe, Seong Lee, Jung Park, Ki Park, Hyo Kim, Tae-Wook Na, Bosung Seo, Hyung-Ki Park
Metals.2018; 8(8): 604. CrossRef
- Sintering of Nd-Fe-B Magnets from Dy Coated Powder
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Jin Woo Kim, Young Do Kim
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J Powder Mater. 2013;20(3):169-173.
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DOI: https://doi.org/10.4150/KPMI.2013.20.3.169
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- High-coercive (Nd,Dy)-Fe-B magnets were fabricated via dysprosium coating on Nd-Fe-B powder. The sputtering coating process of Nd-Fe-B powder yielded samples with densities greater than 98%. (Nd,Dy)_2Fe_14B phases may have effectively penetrated into the boundaries between neighboring Nd_2Fe_14B grains during the sputtering coating process, thereby forming a (Nd,Dy)_2Fe_14B phase at the grain boundary. The maximum thickness of the Dy shell was approximately 70 nm. The maximum coercivity of the Dy sputter coated samples(sintered samples) increased from 1162.42 to 2020.70 kA/m. The microstructures of the (Nd,Dy)_2Fe_14B phases were effectively controlled, resulting in improved magnetic properties. The increase in coercivity of the Nd-Fe-B sintered magnet is discussed from a microstructural point of view.
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Citations to this article as recorded by - Recovery of Valuable Metals from Acoustic Magnet Swarf Slurry
Wei-Sheng Chen, Li-Pang Wang, Chen-Yao Hung, C.-H. Weng, R. Weerasinghe
E3S Web of Conferences.2018; 53: 04015. CrossRef
- Shape Control of Platinum Nanoparticles Using a Metal Salt
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Seoung Yeul Kwak, Jin Ho Lee, Jin Woo Kim, Taek Kyun Jung, Young Do Kim
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J Korean Powder Metall Inst. 2012;19(6):393-397.
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DOI: https://doi.org/10.4150/KPMI.2012.19.6.393
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- AgNO_3 has the characteristic is controlling the inhibition or promotion of particle growth by adsorbing onto specific facets of platinum nanoparticles. Therefore, in this study, AgNO_3 was added to control the shape of platinum nanoparticles during the liquid phase reduction process. Consequently, platinum cubes were synthesized when AgNO_3 of 1.1 mol% (with respect to the Pt concentration) was added into the solution. Platinum octahedrons were synthesized when 32 mol% (with respect to the Pt concentration) was added into the solution. These results demonstrate that the metal salt AgNO_3, effectively controlled the relative growth rates of each facet of Pt nano particles.
- Effect of Grain Size on Nanostructured Fe-20 wt.%Si Alloy Powders Produced by High-energy ball milling
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Se-Hoon Kim, Young Jung Lee, Baek-Hee Lee, Kyu Hwan Lee, Young Do Kim
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J Korean Powder Metall Inst. 2005;12(5):362-368.
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DOI: https://doi.org/10.4150/KPMI.2005.12.5.362
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- The structural and magnetic properties of nanostructued Fe-20 ;wt.%Si alloy powders were investigated. Commercial Fe-20 wt.%Si alloy powders (Hoeganaes Co., USA) with 99.9% purities were used to fabricate the nanostructure Fe-Si alloy powders through a high-energy ball milling process. The alloy powders were fabricated at 400 rpm for 50 h, resulting in an average grain size of 16 nm. The nanostructured powder was characterized by fcc Fe_3Si and hcp Fe_5Si_3 phases and exhibited a minimum coercivity of approximately 50 Oe.
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