Armstrong Liquid Bridge: Formation, Evolution and Breakup

Abstract: In this paper, we experimentally explore the formation, evolution and breakup of Armstrong liquid bridge. The extremely complicated evolution stage is revealed, which involves many coupled processes including the morphology change, current variation, heat transfer, and water evaporation. By focusing on the final fate of this liquid bridge, we observe that the breakup occurs once an effective length ( L) is reached. This effective length increases linearly with the applied voltage, implying a threshold electric… Show more