The kinetics of droplet migration in solids in an accelerational field
- 1 November 1970
- journal article
- research article
- Published by Taylor & Francis in Philosophical Magazine
- Vol. 22 (179) , 0893-0901
- https://doi.org/10.1080/14786437008221060
Abstract
The kinetics of brine droplet motion in a KC1 crystal exposed to an accelerational field 50 000 times gravity were studied as a function of droplet size. The droplet velocity was found to decrease with decreasing droplet size, falling to zero below a critical droplet size. This behaviour indicates that the rate of droplet migration is controlled by the kinetics of deposition and dissolution at the solid-liquid interfaces of the droplet. From this experiment the critical undersaturation necessary to produce any KC1 dissolution was found to be two-tenths of a part per million. Finally, in moving droplets, it was established that the velocity of the dissolving interface increases linearly with the undersaturation at this interface.Keywords
This publication has 9 references indexed in Scilit:
- Sedimentation in the solid stateActa Metallurgica, 1970
- Migration of a liquid zone through a solidJournal of Crystal Growth, 1969
- Observations on the equilibrium distribution of gold diffusing in solid potassium in a centrifugal fieldPhilosophical Magazine, 1969
- The theory of bubble migration applied to irradiated materialsMaterials Science and Engineering, 1969
- Growth of crystals by centrifugationJournal of Crystal Growth, 1968
- The migration of liquid inclusions in single ice crystalsJournal of Geophysical Research, 1965
- Migration of a Liquid Zone through a Solid: Part IJournal of Applied Physics, 1963
- High Rotational SpeedsJournal of Applied Physics, 1937
- Elimination of salt from sea-water iceAmerican Journal of Science, 1926