The fcc/hcp relative phase stability in the Fe-Mn-Co system: Martensitic transformation temperatures, assessment of Gibbs energies and thermodynamic calculation of T0lines. Baruj, A., Fernández Guillermet, A., & Sade, M. In Journal De Physique. IV : JP, volume 7, pages C5-405-C5-410, 1997.
The fcc/hcp relative phase stability in the Fe-Mn-Co system: Martensitic transformation temperatures, assessment of Gibbs energies and thermodynamic calculation of T0lines [link]Website  abstract   bibtex   
In this paper the results of a systematic study of the fcc/hcp relative phase stability in the Fe-Mn-Co system are presented, which is based on new, extensive measurements of the martensitic transformation temperatures. The whole range of compositions where the transformation occurs has now been covered. A thermodynamic analysis of the experimental information based in Gibbs energy modelling of the Fe-Mn-Co, Fe-Mn and Fe-Co systems is performed. The T0temperatures for the Fe-Mn-Co system are established. It is shown how ternary information can be utilized to assess the Gibbs energy function of the hcp phase, which is not stable in the Fe-rich region of the binary Fe-Co system.
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 abstract = {In this paper the results of a systematic study of the fcc/hcp relative phase stability in the Fe-Mn-Co system are presented, which is based on new, extensive measurements of the martensitic transformation temperatures. The whole range of compositions where the transformation occurs has now been covered. A thermodynamic analysis of the experimental information based in Gibbs energy modelling of the Fe-Mn-Co, Fe-Mn and Fe-Co systems is performed. The T0temperatures for the Fe-Mn-Co system are established. It is shown how ternary information can be utilized to assess the Gibbs energy function of the hcp phase, which is not stable in the Fe-rich region of the binary Fe-Co system.},
 bibtype = {inProceedings},
 author = {Baruj, A and Fernández Guillermet, A and Sade, M},
 booktitle = {Journal De Physique. IV : JP}
}

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