A crystallographically consistent optimization of the Zn–Fe system

A crystallographically consistent optimization of the Zn–Fe system

Crystallographically based sublattice models have been constructed for all intermediate phases in the Zn–Fe system. The parameters of the models describing the Gibbs energies of these phases, as well as LIQUID, BCC, FCC and HCP substitutional solutions, were found by means of the CALPHAD technique....

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Veröffentlicht in:Calphad 2005-12, Vol.29 (4), p.276-288
Hauptverfasser: Nakano, Jinichiro, Malakhov, Dmitri V., Purdy, Gary R.
Format: Artikel
Sprache:eng
Schlagworte:
Chemical thermodynamics
Chemistry
Cross-disciplinary physics: materials science
rheology
Crystallographic information
Exact sciences and technology
Galvanizing
General and physical chemistry
Materials science
Metals and alloys
Phase diagrams and microstructures developed by solidification and solid-solid phase transformations
Phase diagrams of metals and alloys
Physics
Sublattice model
Thermodynamic optimization
Thermodynamic properties
Zn–Fe system
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Zusammenfassung:Crystallographically based sublattice models have been constructed for all intermediate phases in the Zn–Fe system. The parameters of the models describing the Gibbs energies of these phases, as well as LIQUID, BCC, FCC and HCP substitutional solutions, were found by means of the CALPHAD technique. In comparison with the most recent model, the number of coefficients in the expressions for the excess Gibbs energies is significantly reduced. That decrease, however, is accompanied by a greater number of parameters needed in the expressions attributed to the Gibbs energies of end members. An advantage claimed for the present work lies in the models’ improved ability to predict which particular sublattice(s) will be capable of accommodating additional components. This property is of importance for the future extension to the Zn–Fe–Al system, and to other multicomponent systems of relevance to galvanizing and galvannealing practices.
ISSN:0364-5916
1873-2984
DOI:10.1016/j.calphad.2005.08.005