Abstract:
This article deals with a cluster-associate model of kinematic viscosity of liquid metals. This model was derived
from the concept of chaotized particles. According to the proposed model, the authors calculated average values
clusters association degree contained in liquid metal. 28 metals of the second — sixth periods of D.I. Mendeleyev
element table were studied for calculation. The authors compare the first potential of metal ionization
with the obtained values of clusters association degree. This comparison showed a regular change in clusters
association degree closely connected with the change in the first ionization potential. In combination with the
Fraenkel equation, an approximate equation was obtained to calculate activation energy. The obtained equation
for the cluster-associate pattern of viscosity temperature dependence is used in calculating the activation energy
of viscous melt flow for twenty-eight metals. The obtained results on activation energy were compared to experimental
data. This comparison showed that the activation energy data obtained from the proposed model is
described better by the approximating dependence. Tables and figures are given in the work for visual confirmation
of the obtained results. Thus, in the process of comparing the first potential of metal ionization for all
periods of D.I. Mendeleyev element system with clusters association degree, their regular connection was revealed.
This connection makes it possible to assert the functional aspect of the cluster-associate pattern.
