论文信息 - Containerless processing of materials by acoustic levitation

Containerless processing of materials by acoustic levitation

Abstract A single-axis ultrasonic levitator which can be applied to containerless processing of materials was described. Analytical expressions of acoustic pressure, acoustic radiation potential and force were derived from the velocity potential function of the applied acoustic field. The levitation region and the levitation stability were then discussed. A sphere of liquid crystal, 4-pentylphenyl-4′-methylbenzoate, was also selected for containerless melting and solidification using the levitator. The results showed that rapid heating of the sample is necessary so as to avoid its escape from the levitation region. However, the measured bulk undercooling of the melt is smaller than that obtained using a container. It was supposed that ultrasonic cavitation produce a local undercooling large enough to initiate solidification of the melt, thus leading to a limited bulk undercooling.

[1] E. H. Trinh,et al. Compact acoustic levitation device for studies in fluid dynamics and material science in the laboratory and microgravity , 1985 .

[2] C. A. Rey,et al. Acoustic levitation technique for containerless processing at high temperatures in space , 1988, Metallurgical and Materials Transactions A.

[3] H. Hatano,et al. Axisymmetric analysis of a tube-type acoustic levitator by a finite element method , 1994, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control.

[4] M. M. Saffren,et al. Acoustic chamber for weightless positioning , 1974 .

[5] M. Barmatz,et al. Acoustic radiation potential on a sphere in plane, cylindrical, and spherical standing wave fields , 1985 .

[6] A. L. Greer,et al. Containerless processing in the study of metallic melts and their solidification , 1993 .

[7] P. F. Clancy,et al. Acoustic Positioning for Space Processing of Materials Science Samples in Mirror Furnaces , 1983 .

[8] M. Glicksman,et al. Undercooling of acoustically levitated molten drops , 1990 .