Abstract
The mechanism of melting is investigated by considering the role of surfaces with regard to the concentration and migration of vacancies. For many metals, it is found that while the vacancy concentration in the bulk is ∼0.37% at the equilibrium melting point (T 0), the vacancy concentration at the free surface is as high as 10%, i.e. similar to that in the bulk at the superheating limit. Melting is believed to be associated with a lattice instability induced at a critical vacancy concentration of ∼10%, both at the surface and within the crystal lattice. The abrupt increase in vacancy concentration from 0.37 to 10% on melting at T 0 can be explained as a result of melting of the surface. The surface pre-melting behaviour of metals is quantitatively interpreted by considering the vacancy migration there.
Acknowledgements
This work was supported by the National Nature Science Foundation of China (NSFC) under grants No. 50431010 and 50621091, and the Ministry of Science and Technology (MOST) of China under grant No. 2005CB623604. Q.S.M. thanks Dr. L. W. Wang for valuable discussions.