1958
DOI: 10.1016/0502-8205(58)90005-4
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Thermodynamics and kinetics of martensitic transformations

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Cited by 554 publications
(175 citation statements)
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“…Using a value for the latent 11eat, L, of 0.02 eV/atom [55][56][57][58], we find a change in MD of at least -150 K associated with the formation of the surface dislocation structure around the transformed particles.…”
Section: Two Types Of Dislocation Structures and Their Energiesmentioning
confidence: 99%
“…Using a value for the latent 11eat, L, of 0.02 eV/atom [55][56][57][58], we find a change in MD of at least -150 K associated with the formation of the surface dislocation structure around the transformed particles.…”
Section: Two Types Of Dislocation Structures and Their Energiesmentioning
confidence: 99%
“…Initially the difference between these two temperatures was small, but increased significantly with increasing pre-strains. Although this behavior has been attributed to the accumulation of strain energy due to the martensitic transformation, causing early reverse transformation on heating [39], it is the M s in this case that shifts higher in temperature due to the mechanical stress buildup. Furthermore, it has been shown previously that even after the apparent A f , there is still retained martensite present [5], which can initiate transformation early on cooling.…”
Section: Resultsmentioning
confidence: 99%
“…However, Fe and Fe-rich alloys do not retain the high-temperature FCC phase but transform to a (supersaturated) BCC phase through diffusionless transformation. It is known from studies [26,27] employing similar heat treatment on Fe alloys that alloys with c < 25 at. pct Ni transform to BCC, while those with c > 28 at.…”
Section: A Fe-co and Fe-ni Binary Alloysmentioning
confidence: 99%