Title :
Thermal analysis of electrode heating and melting due to a spark
Author :
Wang, Bor-Jenq ; Saka, Nannaji
Author_Institution :
MIT, Cambridge, MA, USA
Abstract :
Thermal analysis has been conducted to estimate the temperature distribution in an electrode, and the shape and size of the molten metal pool due to heat from a single spark. Analytical solutions for heat conduction in a semifinite solid subjected to various boundary heat sources (point source, disk source and Gaussian source) are compiled and listed. Analysis shows that the instantaneous point source results in the largest radius and depth of the molten metal pool, and the highest ´efficiency´ of melting (about 61%). The maximum error in the calculated volume of the pool, assuming zero latent heat of melting, is estimated to be less than 15%. A comparison of the calculated radius of the molten metal pool with the crater dimensions of eroded surfaces shows that the point heat source does not satisfactorily account for the crater dimensions.<>
Keywords :
electrical contacts; electrodes; heat conduction; melting; sparks; temperature distribution; thermal analysis; Gaussian source; analytical solution; boundary heat sources; crater dimensions; disk source; electrode heating; heat conduction; latent heat; maximum error; melting efficiency; molten metal pool size; point heat source; semifinite solid; surface erosion; temperature distribution; thermal analysis; Boundary conditions; Circuits; Contacts; Electrodes; Heating; Relays; Shape; Solids; Sparks; Temperature distribution;
Conference_Titel :
Electrical Contacts, 1992., Proceedings of the Thirty-Eighth IEEE Holm Conference on
Conference_Location :
Philadelphia, PA, USA
Print_ISBN :
0-7803-0576-0
DOI :
10.1109/HOLM.1992.246934
