THERMODYNAMIC PROPERTIES OF LIQUID AND AMORPHOUS MONATOMIC METALS FROM AN INTERSTITIALCY MODEL

A model for the liquid and amorphous states of monatomic metals has been developed according to which these materials are crystals containing a few Per cent of interstitials. All thermodynamic properties of the material in each of the crystalline, liquid or amorphous states, as well as their changes on melting, are obtained from an analytic expression for the Gibbs free energy. A decrease in the temperature dependence of the liquid state specific heat is interpreted in terms of the calculated softening of the shear modulus with interstitialcy concentration.