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Œ¤‹†¬‰Ê@Publications

Å‹ß‚Ì”­•\˜_•¶@Recent paper

2018”N

  1. J. Takasaki, K. Kuribayashi, and S. Ozawa,
    "Constitution of Stable and Metastable Phase Diagrams for TmFeO3-ScFeO3 System by Undercooling Solidification Using the Containerless Technique", Materials Trans., 59, (2018) pp. 469-474.

2017”N

  1. S. Ozawa, Y. Kudo, K. Kuribayashi, Y. Watanabe, T. Ishikawa,
    “Precise density measurement of liquid titanium by electrostatic levitator”
    Materials Transactions, (2017), 58, (2017), PP. 1664-1669.
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    “–³—eŠí•‚—V—n—Z‹ÃŒÅ–@‚ð—p‚¢‚½TmFeO3-ScFeO3Œn‚̈À’è|€ˆÀ’蕽tó‘Ô}‚Ì쬔
    “ú–{‹à‘®Šw‰ïŽC81, (2017)
  3. K. Kuribayashi, S. Ozawa, K. Nagayama, and Y. Inatomi,
    “Surface tension of super-cooled Fe-O liquid alloys”
    Journal of Crystal Growth, 468, (2017) PP. 73-78.

2016”N

  1. K. Kuribayashi, S. Ozawa, K. Nagayama, and Y. Inatomi,
    “Crystallization Kinetics in Si-1at%Sn during Rapid Solidification in Undercooled Melt”
    Journal of Crystal Growth, accepted.
  2. S. Ozawa, M. Nishimura, and K. Kuribayashi
    “Surface Tension of Molten Silver in Consideration of Oxygen Adsorption Measured by Electromagnetic Levitation”
    Int. J. Microgravity Sci. Appl. 33, (2016), 330310, PP. 1-6.
  3. H. G. Kim, J. Choe, T. Inoue, S. Ozawa, and J. Lee
    “Surface tension of super-cooled Fe-O liquid alloys”
    Metallurgical and Materials Transaction B., 47, (2016), PP. 2079-2081.

2015”N

  1. S. Ozawa, Y. Kawanobe, T. Nagasawa, and K. Kuribayashi
    “Calibration of Zirconia Oxygen Pump and Sensor by Oxidation-Reduction Reaction of Solid Metals”
    Int. J. Microgravity Sci. Appl.C33, (2016), 330214 , PP.1-4
  2. K. Kuribayashi, R. Takahashi, Y. Inatomi, S. Ozawa, and M. S. Vijaya Kumar,
    Containerless Processing of Metastable Multiferroic Composite in R-Fe-O System (R: Rare-earth element)
    Int. J. Microgravity Sci. Appl.C33, (2016), 330215 , PP.1-7.
  3. S. Shiratori, S. Ozawa, and T. Hibiya
    “Splash and bounce of droplet on liquid layer under low-gravity”
    Int. J. Microgravity Sci. Appl. 33 (2016), 33110, PP. 1-8.

2014”N

  1.  S. Ozawa, S. Takahashi, N. Watanabe, and H. Fukuyama
    “Influence of Oxygen Adsorption on Surface Tension of Molten Nickel Measured under Reducing Gas Atmosphere”
    International Journal of Thermophysics, 35, (2014), PP. 1705-1711.
  2. S. Ozawa, K. Morohoshi, and T. Hibiya
    “Influence of Oxygen Partial Pressure on Surface Tension of Molten Type 304 and 316 Stainless Steels Measured by Oscillating Droplet Method using Electromagnetic Levitation”
    ISIJ International, 54, (2014), PP.2097-2103.
  3.  J. Choe, H. G. Kim, Y. Jeon, H. J. Park, Y. Kang, S. Ozawa, and J. Lee
    “Surface Tension Measurements of the 430 Stainless Steel”
    ISIJ International, 54, (2014), PP. 2104-2108.
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    “ú–{ŠÇ—Ý”õŠw‰ïŽC26C(2014)CPP. 7-14.
  5.  S. Ozawa, N. Takenaga, T. Inoue, Y. Takei, T. Hibiya, A. Mizuno, and M. Watanabe
     “Measurement of Surface Tension of Molten Metal under Reducing Gas Atmosphere in Microgravity Condition during Parabolic Flight \ Attempt to control oxygen partial pressure \”
    International Journal of Microgravity Sci. Appl., 31, (2014), PP. 11-16.

2013”N

  1. T. Hibiya and S. Ozawa
    "Effect of oxygen partial pressure on the marangoni flow of molten metals"
    Crystal Research and Technology , 48,(2013), PP. 208-213.
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    ”M•¨«,27,(2013), PP. 115-122.
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    “ú–{“S|‹¦‰ï ‚Ó‚¥‚ç‚ÞCi2013j, Vol.18, No. 8, PP. 477-479.

2012”N

  1. S. Ozawa, S. Takahashi, N. Watanabe, and H. Fukuyama
    "Influence of Oxygen Adsorption on Surface Tension of Molten Nickel Measured under Reducing Gas Atmosphere"C
    International Journal of Thermophysics, submitted, 2012. 7.

2011”N

  1. S. Ozawa, S. Takahashi, H. Fukuyama and M. Watanabe
    "Temperature Dependence of Surface Tension of Molten Iron under Reducing Gas Atmosphere",
    Proceedings of the 4th Symposium on Physical Sciences in Space, (USB memory), PP. 78-80, 2011.
  2. S. Ozawa, S. Takahashi, H. Fukuyama, and M. Watanabe,
    “Temperature Dependence of Surface Tension of Molten Iron under Reducing Gas Atmosphere”
    J. Phys, 327 (2011), 012020, PP. 1-6.
  3. S. Ozawa, S. Takahashi, S. Suzuki, H. Sugawara, and H. Fukuyama,
    “Relationship of Surface Tension, Oxygen Partial Pressure, and Temperature for Molten Iron”
    Jpn. J. Appl. Phys, 50 (2011), 11RD05, PP. 1-5.
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    “ú–{‹à‘®Šw‰ïŽC75, (2011), PP. 69-74.
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    “ú–{—nÚ‹¦‰ï@‚Ô‚ê‚¢‚¸C(2011)CVol. 45, PP. 37-45.
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    ‹à‘®Ci2011jCVol. 81, PP. 473-480.

2010”N

  1. S. Ozawa, S. Suzuki, T. Hibiya, and H. Fukuyama,
    “Influence of Oxygen Partial Pressure on Surface Tension and Its Temperature Coefficient of Molten Iron”
    J. Appl. Phys.,Vol. 109(2010), 014902 PP. 1-5.
  2. S Ozawa, M. Wawanabe, Y. Kiyamura, K. Morohoshi, T. Aoyagi, M. Tanno, T. Matshumoto, M. Adachi, A. Mizuno, H. Fujii, and T. Hibiya,
    “Surface Tension of Molten Copper in Consideration of the Effect of Oxygen Partial Pressure under Microgravity Conditions during Parabolic Flight”
    J. Jpn. Soc. Microgravity Appl., Vol. 27, (2010), PP. 215-221.
  3. I. Egry, E. Ricci, R. Novakovic, S. Ozawa
    “Surface Tension of Liquid Metals and Alloys - Recent Developments”
    Advances in Colloid and Interface Science, Vol. 159, (2010), PP. 198-212.
  4. S. Ozawa , K. Morohoshi T. Hibiya, and H. Fukuyama
    “Influence of Oxygen Partial Pressure on Surface Tension of Molten Silver”
    J. Appl. Phys., Vol. 107, (2010), PP. 014910-1 - 014910-7.
  5. T. Hibiya, K. Morohoshi, and S. Ozawa
    “Oxygen partial pressure dependence of surface tension and its temperature coefficient for metallic melts: a discussion from the viewpoint of solubility and adsorption of oxygen”
    Journal of Materials Science, Vol. 45, (2010), PP. 1986-1992.
  6. “nç³@‹§l, ¬àVr•½, Hans J. FECHT, Daglus MATTOSON
    “‘Û‹¦—Í‚É‚æ‚邉·—Z‘Ì”M•¨«Œv‘ªƒvƒƒWƒFƒNƒg@|Œ»ó‚ÆThermoLab-ISSŒv‰æ‚ÖŒü‚¯‚Ä|”
    ƒ}ƒCƒNƒƒOƒ‰ƒrƒeƒB‰ž—pŠw‰ïŽC(2010), Vol. 27, PP. 143-147.
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    “ú–{Œ‹»¬’·Šw‰ïŽC(2010), Vol. 37, PP. 15-19.
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    “ú–{‹à‘®Šw‰ï‰ï•ñ ‚Ü‚Ä‚è‚ C(2010), Vol. 50, PP. 63-69.

2009”N

  1. T. Hibiya, M. Watanabe, S. Ozawa, and T. Tsukada,
    “Thermophysical Property Measurement of Molten Semiconductors: Preparatory work for Semitherm Program”,
    High Temperature Materials and Processes, (2009) Vol. 27, PP. 449-460.
  2. S. Ozawa, K. Koda, M. Adachi, M. Watanabe, and T. Hibiya,
    “The Influence of Temporal Phase Difference of m = }2 Oscillation on Surface Frequency Analysis for Levitated Droplet”
    J. Appl. Phys., Vol. 106, (2009), PP. 034907-1 - 03497-7
  3. S. Ozawa, A. Itou, K. Kuribayashi, T. Miyoshi, and S. Hirosawa,
    “Transformation of RE2Fe17Bx (RE=Nd, Dy) Metastable Phase Crystallized from Undercooled Melt”
    Journal of the Japan Society of Microgravity Application, Vol. 26, (2009), PP. 122-125.