%0 Journal Article
%T MULTI-3D MODELING OF THE LIQUIDUS AND IMMISCIBILITY  SURFACES IN THE Cu每Pb每Te SYSTEM
%A N.Ya.Akhmedova
%A N.B.Babanly
%A A.N.Mamedov
%A Yu.A.Yusibov
%J Azerbaijan Cjemical Journal
%P 59-64
%@ 2522-1841
%D 2019
%R 10.32737/0005-2531-2019-1-59-64
%X Based on thermodynamic calculations and analysis of experimental literature data the fields of the primary crystallization of the phases, the types and coordinates of non- and monovariant equilibria in the Cu每Pb每Te system are determined. It has been revealed that the ternary compound is not formed in the system, and in the solid state it is divided into subsystems with the participation of lead telluride: Cu每PbTe每Pb, Cu每Cu2-xTe每PbTe, Cu2-xTe每Cu5Te3每PbTe, Cu5Te3每Cu4Te3每PbTe, Cu3-xTe2每CuTe每PbTe, CuTe每Te每PbTe. The projection of the liquidus surface Cu每Pb每Te is determined. On the basis of phase diagrams of the boundary binary systems and the limited number of DTA data of the ternary system by using the OriginLab program, equations are obtained for calculating and 3D modeling of the PbTe, CuTe, Cu2-xTe, Cu3-xTe2, and Cu5Te3 crystallization surfaces and the surface of the liquid immiscibility in the Cu每Pb每Te system. There are regions of immiscibility for the liquid phase from the side Cu每Cu2-xTe and Cu每Pb. With an increase quantity of the third component, the critical temperature immiscibility decreases. Defined in the work 3D model for the system Cu每Pb每Te keeps the corresponding analytical function and table data in the form of matrices
%K Cu每Pb每Te  system
%K phase diagram
%K liquidus surface
%K 3D modeling
%U http://akj.az/uploads/documents/NAxmedovaAsif.pdf