Dissipative melting as a mechanism for core formation

Abstract

Cosmochemical studies strongly favor a near‐homogeneous accretion of the earth. These studies also show that core segregation probably occurred within the first 10⁵ years of earth history. Mechanisms of core formation have received relatively little attention. The principal purpose of this paper is to examine dissipative melting as a possible mechanism for core segregation. For a large iron body migrating through the mantle, the potential energy lost by the body is dissipated by frictional heating. If the body has a radius greater than about 30 km, the frictional heating is sufficient to melt a path through which the body can fall. If the iron body is liquid (as expected) with a low viscosity, it would penetrate the mantle as a diapir. The problem of an immiscible liquid body melting its way through a solid is solved, and a family of diapir shapes is obtained. We find that dissipative heating may be a viable mechanism for core segregation if sufficiently large bodies of liquid iron can form.