Congruent and Incongruent Melting

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Presentation transcript:

Congruent and Incongruent Melting In Binary and Ternary Systems

Congruent and Incongruent Melting in Binary and Ternary Systems The thermal behavior of intermediate compounds is of three basic types: congruent melting, incongruent melting, or dissociation. An intermediate compound is a combination of the two end members of a binary or ternary phase diagram that forms a different component between the two solids. Congruency of melting is important in the determination of phase analysis diagrams and in drawing crystallization paths.

Congruent Melting Binary Systems In binary systems, compounds are composed of various ratios of the two end members (A & B), or the basic components of the system. These end members are assumed to melt congruently. The intermediate compound AB2 melts congruently, because at some temperature (the top of the AB2 phase boundary line) it coexists with a liquid of the same composition.

Incongruent Melting Binary Systems The end components in this binary phase diagram also melt congruently. The intermediate compound in this diagram (XY2) however is incongruently melting. Incongruent melting is the temperature at which one solid phase transforms to another solid phase and a liquid phase both of different chemical compositions than the original composition. This can be seen in this diagram as XY2 melts to Y and liquid.

Multiple Incongruent Melting Regions Binary Systems This diagram shows many different intermediate compounds (Q,R,&S) that melt incongruently. Each of these intermediate compounds melts to a liquid and a solid of a different composition.

Congruent Melting Ternary Systems The intermediate compounds BC in the diagrams at right are congruently melting. It is characteristic of the congruently melting binary compound that its composition point always falls within its primary field of stability in the ternary system. In these two cases this primary phase field is described by the lines E1-E2 and P-E.

Incongruent Melting Ternary Systems The intermediate compound BC in this diagram is incongruently melting because it is not in the primary phase field of the compound. Congruent melting is important in determining the Alkamade lines and conversly the crystallization path.