The kinetics of the omega to alpha phase transformation in Zr, Ti: Analysis of data from shock-recovered samples and atomistic simulations
HX Zong and T Lookman and XD Ding and C Nisoli and D Brown and SR Niezgoda and S Jun, ACTA MATERIALIA, 77, 191-199 (2014).
DOI: 10.1016/j.actamat.2014.05.049
An open question in the kinetics of martensitic transformation is the microscopic mechanism responsible for the evolution of a new phase. We have analyzed data from shocked recovered samples that monitor the volume fraction of the omega phase in alpha-Zr as a function of time under isothermal conditions in the temperature range 430-545 K. Our results show that the effective activation energy strongly depends on the peak pressures of shock compression. In addition, we confirm that the orientation relationship in Zr for this reverse transformation is consistent with the original suggestion by Silcock in Ti for a direct alpha -> omega martensitic transition. Combined with large-scale molecular dynamics simulations, we find that the difference in the effective activation energy, which is related to the nature of the isothermal kinetics, is controlled by heterogeneous nucleation from defects in the microstructure. (C) 2014 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.
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