Phase-Field Simulation of Antiphase Boundary Migration in Slightly Off-stoichiometric Fe₃Al with Solute and Vacancy Segregation

Abstract: Effects of segregation of solute atoms and vacancies on migration of antiphase boundaries (APBs) in Fe 3 Al with slightly off-stoichirometric (Fe-24 and 26Al) compositions (unit: at%) at 673 K have been studied by a phase-field method in which local vacancy concentration is taken into account [Koizumi et al. Acta Mater 2008;56:5861, ibid. 2009;57:3039], and results were compared to those for stoichiometric and far Al-rich compositions obtained in the previous study. Shrinking of circular APBs having different … Show more

“…Thus, in the present study, we have investigated the differences between the decomposed microstructures formed in the two cases of without rolling (hereafter, denoted by "non-rolled") and with rolling (hereafter, denoted by "rolled") to reveal the effects of dislocations introduced by cold-rolling on the spinodal decomposition of Fe-Cr-Co alloys. In addition, we performed phase-field simulations [12][13][14][15][16][17][18][19][20][21][22][23][24][25][26][27] to discuss the formation mechanisms of the experimentally observed microstructures in terms of defects induced by plastic deformations as a path for rapid diffusion.…”

Spinodal Decomposition in Plastically Deformed Fe–Cr–Co Magnet Alloy

“…Thus, in the present study, we have investigated the differences between the decomposed microstructures formed in the two cases of without rolling (hereafter, denoted by "non-rolled") and with rolling (hereafter, denoted by "rolled") to reveal the effects of dislocations introduced by cold-rolling on the spinodal decomposition of Fe-Cr-Co alloys. In addition, we performed phase-field simulations [12][13][14][15][16][17][18][19][20][21][22][23][24][25][26][27] to discuss the formation mechanisms of the experimentally observed microstructures in terms of defects induced by plastic deformations as a path for rapid diffusion.…”

Spinodal Decomposition in Plastically Deformed Fe–Cr–Co Magnet Alloy

Spinodal Decomposition in Plastically Deformed Fe-Cr-Co Magnet Alloy