On the determination of spinodal temperature by electron microscopy

Abstract

In a previous publication we reported that equilibrium composition fluctuations in the supercritical region of a multicomponent inorganic glass can be observed by replica electron microscopy and that the mean linear intercept length l(T, X_o) measured from the electron micrographs varies with temperature T according to a law of the type l(T, X_o) ∼ [T − T_o(X_o)]^−ν; ν = 0.50. In the present paper we report measurements of the equilibrium volume fractions of the minor phase as a function of temperature and use them to estimate the spinodal temperature T_Sp(X_o). Our results suggest that T_Sp(X_o) = T_o(X_o); a result in agreement with the classical theories of phase separation.