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Present and Future Capabilities of Acoustic Levitation and Positioning Devices

Published online by Cambridge University Press:  15 February 2011

Charles A. Rey
Affiliation:
Intersonics, Incorporated, 425 Huehl Road, Northbook, IL 60062
Roy R. Whymark
Affiliation:
Intersonics, Incorporated, 425 Huehl Road, Northbook, IL 60062
Thomas J. Danley
Affiliation:
Intersonics, Incorporated, 425 Huehl Road, Northbook, IL 60062
Dennis R. Merkley
Affiliation:
Intersonics, Incorporated, 425 Huehl Road, Northbook, IL 60062
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Abstract

The techniques of acoustic positioning without the use of resonant cavities have been explored and developed over a number of years and the currently available capabilities are reviewed. The performance and characteristics of these nonresonant acoustic systems are described in regard to containerless processing with emphasis on the low-g environment. This includes manipulation and mixing of liquid drops, super-cooling phenomena, heating to temperatures of 1600°C or higher, rapid cooling solidification, and surface shape control. Some possible applications are measurements of physical properties of substances at high temperatures or of highly reactive specimens, and the formation of unique glasses and alloys of new compositions.

Type
Research Article
Copyright
Copyright © Materials Research Society 1982

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References

REFERENCES

(1)Whymark, R., Rey, C., Yearnd, J. and Broz, R., “Acoustic Levitation Materials Processing Systems” AIAA 17th Aerospace Sciences MeetingGoogle Scholar
(2) Patent No. 4,284,403Google Scholar
(3) “Mathematical Model of the Sound Field Distribution in the Interference Levitator,” TASK III NASA Contract NAS8-32820, L. Gardner, Technical Monitor, MSFC, AlabamaGoogle Scholar
(4) Patent No. 4,218,921, William A. Oran et al.Google Scholar