Effect of strain and temperature on the threshold displacement energy in body-centered cubic iron
B Beeler and M Asta and P Hosemann and N Gronbech-Jensen, JOURNAL OF NUCLEAR MATERIALS, 474, 113-119 (2016).
DOI: 10.1016/j.jnucmat.2016.03.017
The threshold displacement energy (TDE) is the minimum amount of kinetic energy required to displace an atom from its lattice site. The magnitude of the TDE displays significant variance as a function of the crystallographic direction, system temperature and applied strain, among a variety of other factors. It is critically important to determine an accurate value of the TDE in order to calculate the total number of displacements due to a given irradiation condition, and thus to understand the materials response to irradiation. In this study, molecular dynamics simulations have been performed to calculate the threshold displacement energy in body-centered cubic iron as a function of strain and temperature. With applied strain, a decrease of the TDE of up to approximately 14 eV was observed. A temperature increase from 300 K to 500 K can result in an increase of the TDE of up to approximately 9 eV. Published by Elsevier B.V.
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