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- 나노코발트 분말합성을 위한 액상환원공정의 최적화
- 홍현선, 정항철, 김건홍, 강이승, 석한길
- Optimization of Wet Reduction Processing for Nanosized Cobalt Powder
- Hyun-Seon Hong, Hang-Chul Jung, Geon-Hong Kim, Lee-Seung Kang, Han-Gil Suk
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Journal of Korean Powder Metallurgy Institute 2013;20(3):191-196
DOI: https://doi.org/10.4150/KPMI.2013.20.3.191
2고등기술연구원 신소재공정센터
3고등기술연구원 신소재공정센터
4고등기술연구원 신소재공정센터
5강원대학교
1Advanced Materials & Processing Center, Institute for Advanced Engineering (IAE)
2Advanced Materials & Processing Center, Institute for Advanced Engineering (IAE)
3Advanced Materials & Processing Center, Institute for Advanced Engineering (IAE)
4Advanced Materials & Processing Center, Institute for Advanced Engineering (IAE)
5Department of Materials and Metallurgical Engineering, Kangwon National University
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Abstract
Nano-sized cobalt powder was fabricated by wet chemical reduction method at room temperature. The effects of various experimental variables on the overall properties of fabricated nano-sized cobalt powders have been investigated in detail, and amount of NaOH and reducing agent and dropping speed of reducing agent have been properly selected as experimental variables in the present research. Minitab program which could find optimized conditions was adopted as a statistic analysis. 3D Scatter-Plot and DOE (Design of Experiments) conditions for synthesis of nano-sized cobalt powder were well developed using Box-Behnken DOE method. Based on the results of the DOE process, reproducibility test were performed for nano-sized cobalt powder. Spherical nano-sized cobalt powders with an average size of 70-100 nm were successfully developed and crystalline peaks for the HCP and FCC structure were observed without second phase such as Co(OH)_2.
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