Measuring the density, viscosity, and surface tension of molten titanates using electrostatic levitation in microgravity

Stephen K. Wilke; Abdulrahman Al-Rubkhi; Vrishank Menon; Jared Rafferty; Chihiro Koyama; Takehiko Ishikawa; Hirohisa Oda; Robert W. Hyers; Richard C. Bradshaw; Alan L. Kastengren; Shinji Kohara; Michael SanSoucie; Brandon Phillips; Richard Weber

doi:10.48505/nims.4559

論文 Measuring the density, viscosity, and surface tension of molten titanates using electrostatic levitation in microgravity

Stephen K. Wilke ; Abdulrahman Al-Rubkhi ; Vrishank Menon ; Jared Rafferty ; Chihiro Koyama ; Takehiko Ishikawa ; Hirohisa Oda ; Robert W. Hyers ; Richard C. Bradshaw ; Alan L. Kastengren ; Shinji Kohara ; Michael SanSoucie ; Brandon Phillips ; Richard Weber

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Stephen K. Wilke, Abdulrahman Al-Rubkhi, Vrishank Menon, Jared Rafferty, Chihiro Koyama, Takehiko Ishikawa, Hirohisa Oda, Robert W. Hyers, Richard C. Bradshaw, Alan L. Kastengren, Shinji Kohara, Michael SanSoucie, Brandon Phillips, Richard Weber. Measuring the density, viscosity, and surface tension of molten titanates using electrostatic levitation in microgravity. Applied Physics Letters. 2024, 124 (26), . https://doi.org/10.48505/nims.4559

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(abstract)

Rare earth and barium titanates are useful as ferroelectric, dielectric, and optical materials. Measurements of their thermophysical properties in the liquid state can help guide melt processing technologies for their manufacture and advance understanding of fragile liquids’ behavior and glass formation. Here, we report the density, thermal expansion, viscosity, and surface tension of molten BaTi2O5, BaTi4O9, and 83TiO2-17RE2O3 (RE¼La or Nd). Measurements were made using electrostatic levitation and droplet oscillation techniques in microgravity, which provide access to quiescent liquid droplets and deep supercooling of 510–815K below the equilibrium melting points. Densities were measured over 900–2400 K. Viscosities were similar for all four compositions, increasing from 10 mPa s near 2100K to 30 mPa s near 1750 K. Surface tensions were 450–490 dyn cm^-1 for the rare earth titanates and 383–395 dyn cm^-1 for the barium titanates; and surface tensions of all compositions had small or negligible temperature dependence over 1700–2200K. For solids recovered after melt quenching, x-ray microtomog-raphy revealed the fracture mechanics in crystalline products and minimal internal porosity in glass products, likely arising from entrapped gas bubbles. Internal microstructures were generally similar for products processed either in microgravity or in a terrestrial aerodynamic levitator.

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In Copyright
This article may be downloaded for personal use only. Any other use requires prior permission of the author and AIP Publishing. This article appeared in Stephen K. Wilke et al., Appl. Phys. Lett. 124, 264102 (2024) and may be found at https://doi.org/10.1063/5.0198322.

キーワード: liquid, levitation, microgravity

刊行年月日: 2024-06-24

出版者: AIP Publishing

掲載誌:

Applied Physics Letters (ISSN: 00036951) vol. 124 issue. 26

研究助成金:

National Aeronautics and Space Administration 80NSSC19K1288
Japan Society for the Promotion of Science KAKENHI 20H05882
Japan Society for the Promotion of Science KAKENHI 20H05878

原稿種別: 著者最終稿 (Accepted manuscript)

MDR DOI: https://doi.org/10.48505/nims.4559

公開URL: https://doi.org/10.1063/5.0198322

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更新時刻: 2024-06-28 16:30:17 +0900

MDRでの公開時刻: 2024-06-28 16:30:18 +0900

ファイル名	サイズ
ファイル名	Titanates TP v5 changes accepted.docx (サムネイル) application/vnd.openxmlformats-officedocument.wordprocessingml.document	サイズ	1.34MB	詳細