### Quasi-ternary System Cu$_{2}$Te-CdTe-In$_{2}$Te$_{3}$Quasi-ternary System Cu$_{2}$Te-CdTe-In$_{2}$Te$_{3}$

Access Restriction
Subscribed

 Author Kadykalo, E. M. ♦ Marushko, L. P. ♦ Ivashchenko, I. A. ♦ Zmiy, O. F. ♦ Olekseyuk, I. D. Source SpringerLink Content type Text Publisher Springer US File Format PDF Copyright Year ©2013 Language English
 Subject Domain (in DDC) Natural sciences & mathematics ♦ Physics Subject Keyword differential thermal analysis (DTA) ♦ liquidus surface ♦ phase diagram ♦ polythermal section ♦ solid solution ♦ x-ray analysis ♦ Crystallography ♦ Thermodynamics ♦ Engineering Thermodynamics, Heat and Mass Transfer ♦ Ceramics, Glass, Composites, Natural Methods ♦ Metallic Materials Abstract Phase equilibria in the quasi-ternary system Cu$_{2}$Te-CdTe-In$_{2}$Te$_{3}$ were investigated by differential thermal and x-ray phase analyses methods. Five vertical sections CuInTe$_{2}$-CdTe, ‘Cu$_{1.5}$In$_{0.5}$Te$_{1.5}$’-CdTe, CuInTe$_{2}$-CdIn$_{2}$Te$_{4,}$ CuIn$_{5}$Te$_{8}$-CdTe, CuIn$_{5}$Te$_{8}$-CdIn$_{2}$Te$_{4}$ were constructed. System triangulation was performed, and the boundaries of six single-phase fields at 670 K were determined, which are the solid solution ranges of the components and the intermediate phases of the system. Liquidus surface projection was investigated, and we have identified a monovariant eutectic process L ⇆ β + δ, and three nonvariant processes L$_{U}$ + η ⇆ δ + ε, β + δ ⇆ α + ζ, δ ⇆ γ + ε + η at 965 K, 847 and 690 K, respectively, that take place in the system. ISSN 15477037 Age Range 18 to 22 years ♦ above 22 year Educational Use Research Education Level UG and PG Learning Resource Type Article Publisher Date 2013-03-07 Publisher Place Boston e-ISSN 18637345 Journal Journal of Phase Equilibria and Diffusion Volume Number 34 Issue Number 3 Page Count 8 Starting Page 221 Ending Page 228