Abstract
The paper presents the analysis of binary state diagrams based on elements VIIIA and IB of the periodic table and crystal geometry parameters of solid solutions and intermetallic compositions. The analysis shows an explicit correlation between the type of the evolution of phase diagrams classified by Lebedev depending on the nature of atomic volume deviations observed in solid solutions and intermetallic compounds from Zen law.
Highlights
An increased interest to state diagrams of binary and ternary systems from elements VIIIA and IB of the D.I
The development of ideas on the nature of the stability of crystalline structures of solid solutions and intermetallic compounds is unthinkable without the research on clarification of features of their crystalline structure [3,4,5,6,7,8,9]
It is proposed to consider the evolution of diagrams within a single type, but bonds of individual types of diagrams as well. Based on this classification of state diagrams we have presented, with some simplifications, the real state diagrams of binary systems from elements VIIIA and IB of the D.I
Summary
An increased interest to state diagrams of binary and ternary systems from elements VIIIA and IB of the D.I. The weak stability and instability of the crystalline lattice in advance of SFT manifest themselves in features of temperature dependences of physical and mechanical properties (the so-called subtransient phenomena [1, 2]). Up to the present moment, a purposeful study of the correlation of state diagrams of systems from elements VIIIA and IB of the D.I. Mendeleev’s periodic table with crystal-geometry parameters of solid solutions and intermetallic compounds has not been carried out. The aim of the work is to carry out a search for common patterns and correlations between the structure of state diagrams of binary systems from elements VIIIA and IB of the D.I. Mendeleev’s periodic table and the deviation of atomic volumes in solid solutions and intermetallic compounds from Zen law
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