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Amorphous Alloys from Microsecond Current Pulses

Published online by Cambridge University Press:  26 February 2011

Bruce M. Clemens ,
Jeffrey C. Buchholz ,
Ronald M. Gilgenbach  and
Steven Bidwell
Bruce M. Clemens
Affiliation:
Physics Department, General Motors Research Warren, MI 48090-9055
Jeffrey C. Buchholz
Affiliation:
Physics Department, General Motors Research Warren, MI 48090-9055
Ronald M. Gilgenbach
Affiliation:
Department of Nuclear Engineering, University of Michigan Ann Arbor, MI 48109-2104
Steven Bidwell
Affiliation:
Department of Nuclear Engineering, University of Michigan Ann Arbor, MI 48109-2104
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Abstract

We report the use of microsecond current pulses to produce an amorphous metal alloy. Starting materials consisted of electron beam deposited films of elemental crystalline zirconium and nickel layers with a composition modulation wavelength of 46 nm, a total thickness of about 2.5 μn, and an average composition of Zr38Ni62 deposited onto sapphire substrates. Current pulses had a total ring time of several microseconds and were produced with a low inductance capacitor and a spark gap switch. Integration of current traces showed that 85% of the energy was deposited into the sample within 2 microseconds. The energy in the pulses could be controlled in a range where their effect on the films went from no visible change to total vaporization. Pulses with a peak current in the kiloampere range produced melting in 1 cm wide samples. The cooling rate following this treatment was sufficient to produce amorphous material. We report structural changes resulting from rapid melting and resolidification as well as results of a search for solid state transformations resulting from current pulses below the melting threshold.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 57: Symposium I – Phase Transitions in Condensed Systems--Experiments and Theory , 1985 , 269
Copyright
Copyright © Materials Research Society 1987

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References

Altounian, Z., Guo-hua, T., and Strom-Olsen, J. O. (1983). J. Appl. Phys. 54, 3111 (1983).Google Scholar
Breinan, E. M., Kear, B. H., and Banas, C. M. (1976). Phys. Today 29, No. 11, 45.Google Scholar
Clemens, B. M., Johnson, W. L., and Schwarz, R. B. (1984). J. Non Cryst. Solids 61 & 62, 817.Google Scholar
Clemens, B. M. and Buchholz, J. C., (1984) “Layered Structures, Epitaxy, and Interfaces”, Proc. Materials Research Society Symposium D, (Gibson, J. M. and Dawson, L. R., eds.).Google Scholar
Clemens, B. M. (1985) (submitted to Phys. Rev. B).Google Scholar
Cohn, E., Vladimirescv, A., and Pederson, D.O (1978). “A Users Guide to SPICE Circuit Simulation Program”, University of California, Berekeley.Google Scholar
Cook, H. E., and Hilliard, J. E. (1969). J. Appl. Phys. 40, 2191.CrossRefGoogle Scholar
Hood, G. M., and Schultz, R. J. (1972). Philos. Mag. 26, 329.Google Scholar
Klement, W., Willens, R. H., and Duwez, P. (1960). Nature 187, 869.Google Scholar
Lebedev, S. V. and Savvatimskii, A. I. (1984). Sov. Phys. Usp. 27, No. 10, 749.CrossRefGoogle Scholar
Miedema, A. R. (1976). Philips Technical Rev. 36, 217.Google Scholar
Pietrokowsky, P. (1963). Rev. Sci. Instrum. 34, 445.Google Scholar
Pond, R. B. (1958). “Metallic Filaments and Method of Making Same”, U.S. Patent No. 2825108.Google Scholar
“Rapidly Quenched Metals, Proceedings of the Fifth International Conference on Rapidly Quenched Metals”, Wurzburg, Germany, September 1984 (S. Steeb and H. Warlimont, eds.), North Holland, Amsterdam (1985).Google Scholar
Pond, R. and Maddin, R. (1969). Trans. Met. Soc. AIME 245, 2475. “Thermophysical Properties of Matter” (Touloukian, Y. S. and Ho, C. Y., eds.) V. 2, p. 93 and V. 5, pp. 24, 25, IFI/Plenum, New York (1970).Google Scholar
“CRC Handbook of Chemistry and Physics”, 55th Edition (Weast, R. C., ed.) CRC Press, Cleveland, Ohio (1975).Google Scholar