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Martin, Georges |
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Solute Transfer at Interfaces |
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2003 |
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NU @ karnesky @ |
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103 |
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Sarrau, J. M.; Bostel, A.; Martin, C.; Gallot, J. C. R. |
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Atom probe determination of time of flight in a hyperboloidal sample model (French) |
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Journal Article |
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1976 |
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C. R. Hebd. Seances Acad. Sci. B |
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283 |
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calibration and charge state studies; atom probe field ion microscopy |
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7108 |
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Sarrau, J. M.; Martin, C.; Bostel, A.; Gallot, J. C. R. |
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Atom probes: relationship between results of analysis and structure of a sample |
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Journal Article |
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1980 |
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C. R. Hebd. Seances Acad. Sci. B |
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290 |
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63-66 |
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atom probe field ion microscopy |
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7886 |
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Sarrau, J. M.; Bostel, A.; Martin, C.; Gallot, J. C. R. |
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Atom probe: experimental results on tungsten and iron-aluminium alloy samples (French) |
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Journal Article |
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1978 |
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C. R. Hebd. Seances Acad. Sci. B |
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286 |
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metallurgical applications; atom probe field ion microscopy |
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7333 |
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Sarrau, J. M.; Martin, C.; Bostel, A.; Gallot, J. C. R. |
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A spectral resolution method for an atom probe field ion microscope (French) |
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Journal Article |
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1976 |
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C. R. Hebd. Seances Acad. Sci. B |
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282 |
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associated instrumentation; atom probe field ion microscopy |
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7107 |
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Sarrau, J. M.; Martin, C.; Gallot, J. |
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An atom probe field ion microscope calibrated using tantalum a single isotope metal (French) |
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Journal Article |
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1975 |
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C. R. Hebd. Seances Acad. Sci. B |
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281 |
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calibration and charge state studies; atom probe field ion microscopy |
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6959 |
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Sarrau, J. M.; Bostel, A.; Martin, C.; Gallot, J. C. R. |
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Atom probe: experimental results on tungsten and iron-aluminum alloy samples |
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Journal Article |
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1978 |
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C. R. Hebd. Seances Acad. Sci., Ser. B |
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286, |
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atom probe field ion microscopy |
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7498 |
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Brechet, Yves; Martin, Georges |
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Nucleation problems in metallurgy of the solid state: recent developments and open questions |
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Journal Article |
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2006 |
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Comptes Rendus Physique |
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9-10 |
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959-976 |
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Coherent precipitation; Recrystallisation; Precipitation coherente; Recristallisation |
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Nucleation processes play a key role in the microstructure evolution of metallic alloys during thermomechanical treatments. These processes can involve phase transformations (such as precipitation) and structural instabilities (such as recrystallisation). Although the word `nucleation' is used in both cases, the situation is profoundly different for precipitation and for recrystallisation on which this article is focussed. In the case of precipitation, species are conserved and the underlying physics is stochastic fluctuations, allowing the apparition of critical germs of the new phase. In the case of recrystallisation, the underlying physical phenomenon is the progressive growth of subgrain structures leading to an unstable configuration, allowing a dislocation free grain to grow at the expense of a dislocated one. The two cases require different types of modelling which are presented in the article. To cite this article: Y. Brechet, G. Martin, C. R. Physique 7 (2006). |
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NU @ karnesky @ |
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9593 |
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Menand, A.; Chambreland, S.; Martin, C. |
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Atom probe study of titanium base alloys: preliminary results |
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Journal Article |
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1986 |
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Journal de Physique |
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J. de Phys. |
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47-C2 |
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atom probe field ion microscopy |
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3651 |
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Menand, A.; Martin, C.; Sarrau, J. M. |
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Field evaporation charge state of boron ions: a temperature effect study |
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Journal Article |
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1984 |
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Journal de Physique |
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J. de Phys. |
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45-C9 |
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8612 |
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