Open AccessFormation of microbeads during vapor explosions of Field's metal in water
Author(s) -
Nadia Kouraytem,
Er Qiang Li,
S. T. Thoroddsen
Publication year - 2016
Publication title -
physical review. e
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.896
H-Index - 304
eISSN - 2470-0053
pISSN - 2470-0045
DOI - 10.1103/physreve.93.063108
Subject(s) - drop (telecommunication) , leidenfrost effect , metal , tin , materials science , instability , molten metal , mechanics , steam explosion , water vapor , rayleigh–taylor instability , rayleigh scattering , wavelength , thermodynamics , optics , composite material , meteorology , metallurgy , heat transfer , physics , optoelectronics , nuclear physics , telecommunications , heat transfer coefficient , computer science , nucleate boiling
We use high-speed video imaging to investigate vapor explosions during the impact of a molten Field's metal drop onto a pool of water. These explosions occur for temperatures above the Leidenfrost temperature and are observed to occur in up to three stages as the metal temperature is increased, with each explosion being more powerful that the preceding one. The Field's metal drop breaks up into numerous microbeads with an exponential size distribution, in contrast to tin droplets where the vapor explosion deforms the metal to form porous solid structures. We compare the characteristic bead size to the wavelength of the fastest growing mode of the Rayleigh-Taylor instability
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