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Fusion Technology Volume 17, 1990 - Issue 3
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Technical Paper

Bubble Preforms for Producing Glass Macroshells for Inertial Confinement Fusion Targets

Simon C. P. WangUniversity of Missouri-Rolla Ceramic Engineering Department and Graduate Center for Materials Research Rolla, Missouri 65401-0249
&
Delbert E. DayUniversity of Missouri-Rolla Ceramic Engineering Department and Graduate Center for Materials Research Rolla, Missouri 65401-0249
Pages 427-438 | Published online: 09 May 2017

REFERENCES

  • R. A. GROSS, Fusion Energy, John Wiley and Sons, New York (1984).
  • J. J. DUDERSTADT and G. A. MOSES, Inertial Confinement Fusion, John Wiley and Sons, New York (1982).
  • A. ROSENCWAIG, J. L. DRESSLER, J. C. KOO, and C. D. HENDRICKS, “Laser Fusion Hollow Glass Microspheres by the Liquid Droplet Method,” UCRL-81421, Lawrence Livermore National Laboratory (1978).
  • D. E. SOLOMON, Ed., “1981 Inertial Fusion Research Annual Technical Report,” DOE/DP/40030-4, KMSF-U1198, KMS Fusion, Ann Arbor, Michigan (1981).
  • M. NOGAMI, J. HAYAKAWA, and T. MORIYA, “Fabrication of Hollow Glass Microspheres in the Na2O-B2O3-SiO2 System from Metal Alkoxides,” J. Mater. Sci., 17, 2845 (1982).
  • J. H. CAMPBELL, J. Z. GRENS, and J. F. POCO, “Preparation and Properties of Hollow Glass Microspheres for Use in Laser Fusion Experiments,” UCRL-53516, Lawrence Livermore National Laboratory (1983).
  • J. H. CAMPBELL, “Development of Direct Drive, High-Grain Capsules for Inertial Fusion: A Materials Challenge,” Mater. Res. Soc. Bull., 9, 26 (1986).
  • M. C. LEE, J. M. KENDALL, D. D. ELLEMAN, W. RHIM, R. S. HELIZON, C. L. YOUNGBERG, I. FENG, and T. G. WANG, “Application of Microgravity and Containerless Environments to the Investigation of Fusion Target Fabrication Technology,” Materials Processing in the Reduced Gravity Environment of Space, p. 95, G. E. RINDONE, Ed., Elsevier Scientific Publishing Company, New York (1982).
  • C. S. RAY and D. E. DAY, “Glass Formation in Microgravity,” Materials Processing in the Reduced Gravity Environment of Space, Vol. 37, p. 239, R. H. DOREMUS and P. C. NORDINE, Eds., Material Research Society (1987).
  • J. F. HARPER, “The Motion of Bubbles and Drops Through Liquids,” Advances in Applied Mechanics, p. 59, C. S. YIH, Ed., Academic Press, New York (1972).
  • R. CLIFT, J. R. GRACE, and M. E. WEBER, Bubbles, Drops, and Particles, Academic Press, New York (1978).
  • G. J. JAMESON, “Physics and Hydrodynamics of Bubbles,” The Scientific Basis of Flotation, p. 53, K. J. IVES, Ed., Kluwer Boston, Inc., Hingham, Massachusetts (1984).
  • T. D. TAYLOR and A. ACRIVOS, “On the Deformation and Drag of a Falling Viscous Drop at Low Reynolds Number,” J. Fluid Mech., 18, 466 (1964).
  • D. W. MOORE, “The Rise of a Gas Bubble in a Viscous Liquid,” J. Fluid Mech., 6, 113 (1959).
  • N. P. BANSAL and R. H. DOREMUS, Handbook of Glass Properties, p. 34, Academic Press, New York (1986).
  • Schott Optical Glass Catalog, Schott Optical Glass Inc., Duryea, Pennsylvania (1980).

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