Dynamics of Edge Dislocation in Ti-O Single Crystal Alloys at the Atomic Scale
JQ Ren and S Shao and Q Wang and D Yang and XF Lu and HT Xue and FL Tang, PHYSICA STATUS SOLIDI B-BASIC SOLID STATE PHYSICS, 259, 2100536 (2022).
DOI: 10.1002/pssb.202100536
The addition of oxygen atoms in solid solution to alpha-Ti alloy can increase not only its hardness but also its brittleness. Herein, the edge dislocation mobility of Ti-O single crystals at oxygen concentrations of 0-2 at% and temperatures of 100-900 K is investigated by molecular dynamics simulations. The results show that the interstitial oxygen atoms have a strong hindering effect on the a/3 112 over bar 0 edge dislocations on the 1 over bar 100 prismatic planes, which is attributed to the pinning effect of the vacancy clusters on the dislocation movement due to the interstitial oxygen atoms, thus leading to pronounced dislocation strengthening and hardening. The critical resolved shear stress (CRSS) for dislocation movement increases with increasing oxygen content and decreases with increasing temperature. Moreover, the effect of oxygen concentration on dislocation mobility also diminishes with increasing temperature.
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