Tungsten heavy alloys (W–Ni–Fe) play an important role in various industries because of their excellent mechanical properties, such as the excellent hardness of tungsten, low thermal expansion, corrosion resistance of nickel, and ductility of iron. In tungsten heavy alloys, tungsten nanoparticles allow the relatively low-temperature molding of high-melting-point tungsten and can improve densification. In this study, to improve the densification of tungsten heavy alloy, nanoparticles are manufactured by ultrasonic milling of metal oxide. The physical properties of the metal oxide and the solvent viscosity are selected as the main parameters. When the density is low and the Mohs hardness is high, the particle size distribution is relatively high. When the density is high and the Mohs hardness is low, the particle size distribution is relatively low. Additionally, the average particle size tends to decrease with increasing viscosity. Metal oxides prepared by ultrasonic milling in high-viscosity solvent show an average particle size of less than 300 nm based on the dynamic light scattering and scanning electron microscopy analysis. The effects of the physical properties of the metal oxide and the solvent viscosity on the pulverization are analyzed experimentally.

Abstract
 1. 서 론
 2. 실험 방법
  2.1 Ultrasonic Milling Method를 통한 분쇄 거동 실험
  2.2 용매 점도 특성에 따른 Ultrasonic Milling 분쇄 거동실험
  2.3 특성평가
 3. 결과 및 고찰
  3.1 Ultrasonic Milling의 WO3, NiO, Fe2O3 분쇄 거동
  3.2 용매점도 특성에 따른 Ultrasonic Milling Method 분쇄 거동 실험
 4. 결 론
 References

• 류근혁(단국대학교 에너지공학과) | KeunHyuk Ryu (Department of Energy Engineering, Dankook University)
• 소형섭(한국생산기술연구원 한국희소금속산업기술센터) | HyeongSub So (Korea Institute for Rare Metal, KITECH)
• 윤지석(엔에이티엠(주)) | JiSeok Yun (NATM Co.)
• 김인호(엔에이티엠(주)) | InHo Kim (NATM Co.)
• 이근재(단국대학교 에너지공학과) | Kun-Jae Lee (Department of Energy Engineering, Dankook University) Corresponding Author