Electroblasting technology for producing nanopowders of high-melting nonmetallic materials

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Abstract

The results of studies characterizing the electric explosion (EEC) of conductors as a chemical reactor are described. It is demonstrated that an EEC in chemically active media can produce nanopowders of high-melting nonmetallic materials in a nanodispersed state. The conditions making it possible to control the phase, chemical, and dispersion compositions of powders are analyzed, such as energy supplied to the conductor, the arc stage, chemical composition, and the density of the ambient atmosphere.

Original languageEnglish
Pages (from-to)364-367
Number of pages4
JournalGlass and Ceramics (English translation of Steklo i Keramika)
Volume62
Issue number11
DOIs
Publication statusPublished - Nov 2005

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Nonmetallic materials
Explosions
Melting
Chemical reactors
Chemical analysis
Powders

ASJC Scopus subject areas

  • Ceramics and Composites

Cite this

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title = "Electroblasting technology for producing nanopowders of high-melting nonmetallic materials",
abstract = "The results of studies characterizing the electric explosion (EEC) of conductors as a chemical reactor are described. It is demonstrated that an EEC in chemically active media can produce nanopowders of high-melting nonmetallic materials in a nanodispersed state. The conditions making it possible to control the phase, chemical, and dispersion compositions of powders are analyzed, such as energy supplied to the conductor, the arc stage, chemical composition, and the density of the ambient atmosphere.",
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AB - The results of studies characterizing the electric explosion (EEC) of conductors as a chemical reactor are described. It is demonstrated that an EEC in chemically active media can produce nanopowders of high-melting nonmetallic materials in a nanodispersed state. The conditions making it possible to control the phase, chemical, and dispersion compositions of powders are analyzed, such as energy supplied to the conductor, the arc stage, chemical composition, and the density of the ambient atmosphere.

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JO - Glass and Ceramics (English translation of Steklo i Keramika)

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