Glass-formation in the Ag2Se–Zn(Cd,Hg)Se–GeSe2 systems | Zendy

I. D. Olekseyuk | Zendy; Yuri Kogut | Zendy; O.V. Parasyuk | Zendy; Л.В. Піскач | Zendy; G.P. Gorgut | Zendy; O.P. KUS’KO | Zendy; V.I. Pekhnyo | Zendy; С. В. Волков | Zendy

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Glass-formation in the Ag2Se–Zn(Cd,Hg)Se–GeSe2 systems

Author(s) -

I. D. Olekseyuk,

Yuri Kogut,

O.V. Parasyuk,

Л.В. Піскач,

G.P. Gorgut,

O.P. KUS’KO,

V.I. Pekhnyo,

С. В. Волков

Publication year - 2009

Publication title -

chemistry of metals and alloys

Language(s) - English

Resource type - Journals

eISSN - 1998-8087

pISSN - 1998-8079

DOI - 10.30970/cma2.0106

Subject(s) - ternary operation , crystallization , glass transition , materials science , melting point , ternary numeral system , chalcogenide , ternary alloy , analytical chemistry (journal) , alloy , mercury (programming language) , crystallography , mineralogy , nuclear chemistry , chemistry , metallurgy , polymer , organic chemistry , chromatography , computer science , composite material , programming language

The glass-formation regions in the quasi-ternary sy stems Ag2Se–Zn(Cd,Hg)Se–GeSe 2 were determined using XRD data. The maximum content of the modifier ZnSe is 10 mol.%, that of CdSe is 12 mol.%. The largest region of existence of glasses is observed in the m rcury-containing system where it crosses the conce ntration triangle. The thermal properties of the glasses wer characterized by the glass transition temperature , the crystallization temperature and the melting point of the crystallized alloy.

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