Article ID Journal Published Year Pages File Type
9830238 Journal of Crystal Growth 2005 6 Pages PDF
Abstract
Experiments on thermocapillary convection of high-temperature Bi12SiO20 melts have been carried out. Thermocapillary convection has been identified to dominate the fluid flow in a layer of 70 μm thickness melt with Pr=26 in the loop-like zone used in our experiments. The transition of the melt from steady spatial to oscillatory behavior under temperature difference of 120, 60 and 10 K were considered. The oscillation of thermocapillary convection is characterized by the oscillatory main trunk and traveling branches. The free surface deformation is observed to transform with the change of the applied temperature difference, which manifests that the thermocapillary convection is sensitive to the temperature difference. Moreover, taking the temperature distribution into account, it is noted the deformation is formed in the colder area of the melt. The deformation of the free surface, which is characterized as a main trunk, would reach a maximum with the rise of the applied temperature difference. The oscillatory frequency of the main trunk, which is also sensitive to the applied temperature difference, increases with the rise of temperature.
Related Topics
Physical Sciences and Engineering Physics and Astronomy Condensed Matter Physics
Authors
, , , ,