Hostname: page-component-586b7cd67f-2brh9 Total loading time: 0 Render date: 2024-11-25T15:22:34.620Z Has data issue: false hasContentIssue false
  • English
  • Français

Fabrication Method for Hollow Microspheres Made of High-Strength Glasses

Published online by Cambridge University Press:  15 February 2011

Valery M. Dorogotovtsev
Valery M. Dorogotovtsev*
Affiliation:
P.N. Lebedev Physical Institute, Leninsky prosp., 53, 117924, Moscow, Russia
Get access

Abstract

Lasting storage of hydrogen, its isotopes and other gases under high (1–2 thousand atm) pressure inside hollow microspheres as well as production of low-density syntaxis poroplasts to withstand high external loads - all these need hollow microspheres of high mechanical strength. By modern commercial technology the microspheres are mainly obtained from water- soluble alkali-silicate or alkali-boro-silicate glasses. These microspheres are not strong, their strength being 1000–1500 MPa.. Besides the low resistivity to hydrolysis and chemicals also restrict their applications. To gain strength 1.5–2 times higher the additional modification of microspheres is done either by leaching, or by annealing, or by ion exchange. Microspheres of stronger glasses being usually multi-component require a technology fitted to produce highly uniform glass [1,2].

A new fabrication method is presented to produce hollow microspheres of various glasses. They include simple alkali and alkali-boro-silicate glasses as well as multi-component glasses of commercially available compositions, alkali-free, refractory, and high-strength glasses.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 372: Symposium W1 – Hollow and Solid Spheres and Microspheres--Science and Technology , 1994 , 131
Copyright
Copyright © Materials Research Society 1995

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

1. Akunets, A.A., Basov, N.G., Bushuev, V.S., Gromov, A.I., Dorogotovtsev, V.M., Isakov, A.I., Kovylnikov, V.N., Merkuliev, Yu. A., Nikitenko, A.I., Tolokonnikov, S.M., Superdurable microballoons for hydrogen storage, in Proceedings of the Lebedev Physics Institute Academy of Science of the USSR,Laser Thermonuclear Thargets and superduable Microballons, Volume 220, Nova Science Publishers, 1994 Google Scholar
2. Akunets, A.A., Basov, N.G., Bushuev, V.S., Gromov, A.I., Dorogotovtsev, V.M., Isakov, A.I., Kovylnikov, V.N., Merkuliev, Yu. A., Nikitenko, A.I., Tolokonnikov, S.M., Super-High-Strenght Microballoons for Hydrogen Storage, Int. J. Hydrogen Energy, Vol. 19, No.8, pp. 697700, 1994.Google Scholar
3. Akunets, A.A., Dorogotovtsev, V.M., Jelezov, I.N. et al, High temperature stand for investigation of separate stages of microballoon technology”, Kratkie Soobscheniya po Fyzike, Moscow: FIAN, N= 10, 1987, pp. 38–39. (Russian) or in Soviet Physics- Lebedev Institute Reports, No 10, Allerton Press- Inc., 1987.Google Scholar