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- Title
Thermodynamic Assessment of the Fe-Cr-B Ternary System and the Fe-Nd-B-Cr Quaternary System in the Fe-Rich Corner.
- Authors
Zhou, G. J.; Cai, A. H.
- Abstract
A thermodynamic description for the Fe-Nd-B-Cr quaternary system has been developed on the basis of six constituent binary systems and four critical ternary systems using the CALPHAD (CALculation of PHAse Diagrams) method, which is based on the fact that a phase diagram is a representation of the thermodynamic properties of a system. The Fe-B binary system is modified, and Fe-Nd-Cr and Fe-Cr-B ternary systems are thermodynamically reassessed in order to obtain more reasonable thermodynamic parameters and more accurate phase relations. The assessment results for the Fe-Nd-Cr and Fe-Cr-B ternary systems are in good agreement with the available experimental phase relations, including the liquidus surface projection and the vertical sections, while for the other two ternary systems, the B-Nd-Cr and the Fe-Nd-B systems, the thermodynamic parameters are mainly adopted from optimization results reported in the literature, with slight modifications for the compatibility of all the constituent binary systems. Based on the metastable experimental information, a reasonable, self-consistent, and comprehensive thermodynamic description of the Fe-Nd-B-Cr quaternary system is developed, which is of interest for electronic and magnet materials. The developed thermodynamic description can be further extended as a thermodynamic database for permanent magnet alloy design.
- Subjects
TERNARY system; THERMODYNAMICS; PHASE diagrams; ELECTRONIC materials; DATABASES; BINARY number system; PERMANENT magnets
- Publication
Journal of Electronic Materials, 2023, Vol 52, Issue 11, p7785
- ISSN
0361-5235
- Publication type
Article
- DOI
10.1007/s11664-023-10699-x