Abstract
The deformation mechanisms of a NbTiZr body-centered cubic (BCC) medium-entropy alloy (MEA) are investigated by tensile testing at various temperatures. The yield strength (YS) shows a strong temperature dependence from 77 K to 300 K, while being insensitive to temperatures between 300 K and 873 K, followed by a significant drop at 1073 K. TEM investigations show that the alloy deformation is controlled by screw-dislocation slip. Screw-dislocations with cross-kinks/jogs are frequently observed at all temperatures except at 1073 K. The deformed microstructure at 473 K reveals dislocations loops/debris indicating the dominance of cross-kink strengthening at moderate to high temperatures, leading to a temperature insensitive YS. The behavior of NbTiZr is consistent with the cross-kink strengthening mechanism, as also confirmed by the comparison between observed and predicted values of the activation volume. The TEM investigations at 1073 K are consistent with the annihilation of cross-kinks/edge dipoles, which can explain the observed strength drop above this temperature.
Original language | English |
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Article number | 114367 |
Number of pages | 5 |
Journal | Scripta Materialia |
Volume | 209 |
Early online date | 3-Nov-2021 |
DOIs | |
Publication status | Published - 1-Mar-2022 |