THE PHASE DIAGRAM OF THE Ga–S SYSTEM IN THE CONCENTRATION RANGE FROM 48.0 TO 60.7 MOL.% S

  • Yury М. Bondarev Cand. Sci. (Chem.), Associate Professor, Voronezh State University; ph.: +7(473) 2208973; e-mail: bondarev@chem.vsu.ru
  • Eugeny G. Goncharov Dr. Sci. (Chem.), Professor, Voronezh State University; ph.: (473) 2208973
  • Anastasija I. Kljusova Master of Chemistry Faculty, Voronezh State University; ph.: +7(473) 2208610
  • Alena V. Ulanova Master of Chemistry Faculty, Voronezh State University; ph.: +7(473) 2208610
Keywords: phase diagram, thermal analysis, chromatotermal analysis, DTA, power diffraction

Abstract

The purpose of the work was to clarify the physical and chemical nature of structural transformations near the alleged valley, and also definition of structure of this point. For the achievement of the goal it was necessary to solve the problem of the synthesis of a series of the diluted solid solutions Cd1-хMgх near cadmium and to investigate their properties.

For the research into the of a possibility of the formation of the valley on the phase diagram of the Cd-Mg system, the a concentration interval near clear cadmium was chosen (0÷5 mol. % Mg Samples of the Cd-Mg system were prepared by direct alloying of components, which used Cd markings Kd0A and magnesium Mg98, additionally purified from oxides by double sublimation in vacuum. For homogenization, the melt was isothermally aged for three hours, after which the samples were quenched in cold water to minimize the segregation processes.

Measuring the concentration dependence of the parameters cadmium-magnesium system samples determined range of solid solutions with non-monotonic change in the physicochemical and electrical properties.

The obtained experimental datas allows us to assume the existence on the phase diagram of the Cd-Mg near clear cadmium of the degenerate valley as it is shown in fig. 4.

The results given in the work allow us to assume that the tendency of solid solutions to structural streamlinings near clear components can be shown also in education on the phase diagram of the valley with invariant melting of a solid solution in this point.

Final confirmation of a possibility of formation of a degenerate point at least can be received carrying out a high-precision differential thermal analysis which will give the chance to estimate temperature raising of lines a liquidus and a solidus after structure 2.5 mol. Mg %.

Downloads

Download data is not yet available.

References

1. Hansen M., Anderko K. Structures of Binary Alloys. Moscow, Metallurgy Publ., 1962, vol. 1, pp. 473-475. (in Russian)
2. Jelliot R. P. Structures of Binary Alloys. Moscow, Metallurgy Publ., 1970, vol. 1, p. 273. (in Russian)
3. Vol A. E., Kagan I. K. Structure and Properties of Binary Metal Systems. Moscow, Nauka Publ., 1979, pp. 28-75. (in Russian)
4. Moser Z., Gasior W., Wypartowicz J., Zabdyr L. Bulletin of Alloy Phase Diagrams, 1984, vol. 5, no. 1, pp. 23-30.
5. Goncharov E. G., Semenova G. V., Aleinikova K. B., Vavresuk I. V. In the book Physics and Chemistry of Semiconductor Material Science. Voronezh, VSU Publ., 1979, pp. 67-73. (in Russian)
6. Bondarev Yu. M., Goncharov E. G., Khoviv A. M., Semenova G. V. Russian Journal of Inorganic Chemistry, 2013, vol. 58, no. 10, pp. 1381-1384.
7. Brief Chemical Encyclopaedia. Moscow, Soviet Encyclopaedia Publ., 1963, vol. 2, pp. 343, 1010. (in Russian)
8. Hansen M., Anderko K. Structures of Binary Alloys. Moscow, MetallurgyPubl., 1962, vol. 1, pp. 454. (in Russian)
Published
2017-11-07
How to Cite
BondarevY. М., Goncharov, E. G., Kljusova, A. I., & Ulanova, A. V. (2017). THE PHASE DIAGRAM OF THE Ga–S SYSTEM IN THE CONCENTRATION RANGE FROM 48.0 TO 60.7 MOL.% S. Kondensirovannye Sredy I Mezhfaznye Granitsy = Condensed Matter and Interphases, 19(3), 336-340. https://doi.org/10.17308/kcmf.2017.19/209
Section
Статьи