Evaporation of metals by high-density (10 super(7) A multiplied by cm super(-2)) electrical currents

• Published in: International journal of thermophysics Vol. 17; no. 5; pp. 1011 - 1024
• Main Author: Rakhel, AD
• Format: Journal Article
• Language: English
• Published: 01.01.1996
• Subjects: Boundary conditions; Bubbles (in fluids); Electric currents; Electric heating; Evaporation; Heating; Liquid metals; Pinch effect; Pressure; Temperature; Thermal expansion
• ISSN: 0195-928X

In the present work, the problem of time evolution of pressure and temperature profiles across a wire through which an electrical current with a density of the order of 10 super(7) A multiplied by cm super(-2) flows is solved. The correct boundary conditions for a metal surface are obtained for the case when this metal is rapidly evaporated as a result of high-power Joule heating. The pressure profile appears under these conditions due to pinch-effect and inertia of thermal expansion of the metal; the temperature profile arises because of intensive evaporation from the surface of the wire. The conditions under which a liquid metal is superheated are formulated. On the basis of the analysis of the experimental results on exploding wires, the conclusion is drawn that decay of the metastable state takes place near the binodal. It is shown that the distribution of fine dispersed vapor bubbles is strongly nonuniform across the wire and the process of expansion of the two-phase mixture is very similar to the motion of a wave.