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Rapid Growth of Ice Dendrite in Acoustically Levitated and Highly Undercooled Water |
LÜ Yong-Jun;XIE Wen-Jun;WEI Bing-Bo |
Department of Applied Physics, Northwestern Polytechnical University, Xi’an 710072 |
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Cite this article: |
LÜ, Yong-Jun, XIE Wen-Jun et al 2002 Chin. Phys. Lett. 19 1543-1546 |
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Abstract Water drops with diameter ranging from 2.5 to 4 mm are highly
undercooled by up to 24 K with acoustic levitation technique. Compared to the case of water contained in tube, acoustic levitation has efficiently avoided the heterogeneous nucleation from container walls and consequently increased the undercooling level. However, the cavitation effect induced by ultrasound may prematurely catalyze nucleation, which hinders the further achievement of bulk undercooling. The growth velocity of ice dendrite determined experimentally in highly undercooled water is characteristic of rapid dendritic growth, which reaches 0.17m/s at the undercooling of 24 K. The Lipton-Kurz-Trivedi dendritic growth model is used to predict the kinetic characteristics of rapid growth of ice dendrite under high undercooling conditions, which shows good agreement with the experimental results.
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Keywords:
81.10.Aj
64.60.Qb
43.25.Uv
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Published: 01 October 2002
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PACS: |
81.10.Aj
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(Theory and models of crystal growth; physics and chemistry of crystal growth, crystal morphology, and orientation)
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64.60.Qb
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43.25.Uv
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(Acoustic levitation)
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