Open Access3D ANALYTICAL MODELING OF CRYSTALLIZATION SURFACES OF THE MnTe–SnTe–Sb2Te3 SYSTEM
Author(s) -
E.N. Orujlu,
A.N. Mammadov,
М. Б. Бабанлы
Publication year - 2021
Publication title -
azərbaycan kimya jurnalı/azerbajčan himiâ žurnaly
Language(s) - English
Resource type - Journals
eISSN - 2522-1841
pISSN - 0005-2531
DOI - 10.32737/0005-2531-2021-2-94-100
Subject(s) - liquidus , crystallization , binary number , binary system , materials science , graph , boundary (topology) , thermodynamics , computer science , mineralogy , chemistry , mathematics , physics , metallurgy , mathematical analysis , theoretical computer science , arithmetic , alloy
An analytical method was used for 3D modeling of crystallization surfaces of the MnTe–SnTe–Sb2Te3 system based on the existing data of boundary systems and a small number of experimental DTA- measurements. All analytical dependencies temperatures on composition for liquidus of the binary and three-system were obtained using the 2D and 3D options of the OriginLab software. The obtained results allowed us to visualize the crystallization surfaces of the phases based on initial components of the MnTe–SnTe–Sb2Te3 system as a separate form and in one graph