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Article Dans Une Revue Intermetallics Année : 2009

Point defects and chemical potentials in D88-Sn3Ti5

Résumé

The point defect formation energies in D88-Sn3Ti5 are obtained from first principles calculations. The D88 structure is hexagonal, hP16, P63/mcm, prototype Mn5Si3. Four sublattices are introduced to account for the D88 structure and for the possibility of inserting atoms in the 2b sites of the structure P63/mcm. The 2b sites are not occupied in the stoichiometric compound at T = 0 K. But the possibility exists that a few atoms occupy these sites at high temperature or for off-stoichiometric alloys. A statistical model based on a mean-field approximation is developed in the canonical ensemble. The defect concentrations are calculated as function of temperature and deviation from stoichiometry. For stoichiometric D88-Sn3Ti5 alloys, the dominant thermal defects are composed of Sn atoms in interstitial positions 2b of the D88 structure and Ti atoms in antisite position on the sites preferentially occupied by Sn atoms. In the Sn-rich D88-Sn3Ti5, the constitutional defects are Sn atoms in interstitial positions. In the Ti-rich D88-Sn3Ti5, the constitutional defects are Ti atoms in antisite position. The chemical potentials as well as the Gibbs energy are obtained as function of composition for various temperatures. The extension of the one-phase domain of D88-Sn3Ti5 in the Sn-Ti

Dates et versions

hal-00446394 , version 1 (12-01-2010)

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Catherine Colinet, Jean-Claude Tedenac. Point defects and chemical potentials in D88-Sn3Ti5. Intermetallics, 2009, 18 (4), pp.459-471. ⟨10.1016/j.intermet.2009.09.005⟩. ⟨hal-00446394⟩
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