Abstract
A large fraction of an exploded wire can be recovered reproducibly from the solid aerosol disperse phase produced by explosions at various voltages (1 to 18 kv) on a 20-µf capacitor bank. Typical smokes consisting of oxide particles are produced by explosions of base metals in air and fine metallic particles are produced by the explosion of Ag, Au, and Pt in air or by A1 and Cu exploded in argon. Primary particle size and size distribution are related to the voltage used for explosion. Aerosol yield curves for copper and uranium are discussed in the light of previously described exploding wire phenomena. The method is well suited for the production of small quantities of solid aerosols.
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References
F.G. Karioris and B.R. Fish, “Uranium Oxide Smoke from Exploding Wires” (Abstract), Health Physics, Vol. 4, p. 197, 1960.
B.R. Fish and F.G. Karioris, “Inhalation of U308 Smoke from Exploding Wires” (Abstract), Health Physics, Vol. 6, p. 235, 1961.
F.G. Karioris and B.R. Fish, “An Exploding Wire Aerosol Generator,” J. Col. Sci., Vol. 17, pp. 155 - 161, 1962.
W.G. Chace and E.H. Cullington, “Instrumentation for Studies of the Exploding Wire Phenomenon,” AFCRC-TR-57-235 Air Force Cambridge Research Center, Geophysics Research Directorate, Bedford, Massachusetts, August, 1957.
J.H. Park, “Shunts and Inductors for Surge Current Measurements,” J. Res. Natl. Bur. Standards, Vol. 39, p. 191, September, 1947.
Clyde Orr, Jr., Georgia Institute of Technology (personal communication August 30, 1961 ).
W.G. Chace, R. L. Morgan, and K.R. Saari, in “Exploding Wires,” Vol. 1, W.G. Chace and H. K. Moore [eds.], Plenum Press, New York, 1959, p. 59.
Tadasu Suzuki, Formation of Noble Metal Oxide in Cathode Sputtering,w Z. Naturforsch., Vol. 12a, pp. 497–499, 1952.
J.D. Cobine, “Field-Intensified Ionization and Breakdown of Gases,” in Gaseous Con-ductors, Dover Publications, New York, Chap. VII, p. 165.
L. Zernow and G. Woffinden, in “Exploding Wires,” Vol. 1, W.G. Chace and H.K. Moore [eds.], Plenum Press, New York, 1959, p. 170.
W.M. Conn, “Combination of Electrically Exploded Wires and Electric Arc,” Conference on Extremely High Temperatures, March 18–19,1958, Boston, Mass. Sponsored by Electronics Research Directorate, Air Force Cambridge Research Center.
E. David, in “Exploding Wires,” Vol. 1, W.G. Chace and H.K. Moore [eds.], Plenum Press, New York, 1959, p. 271.
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Karioris, F.G., Fish, B.R., Royster, G.W. (1962). Aerosols from Exploding Wires. In: Chace, W.G., Moore, H.K. (eds) Exploding Wires. Springer, Boston, MA. https://doi.org/10.1007/978-1-4684-7505-0_23
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DOI: https://doi.org/10.1007/978-1-4684-7505-0_23
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