Atomistic simulations of kinks in 1/2a111 screw dislocations in bcc tantalum Academic Article uri icon

abstract

  • Two types of equilibrium core structures (denoted symmetric and asymmetric) for 1/2a111 screw dislocations in bcc metals have been found in atomistic simulations. In asymmetric (or polarized) cores, the central three atoms simultaneously translate along the Burgers vector direction. This collective displacement of core atoms is called polarization. In contrast, symmetric (nonpolarized) cores have zero core polarization. To examine the possible role of dislocation core in kink-pair formation process, we studied the multiplicity, structural features, and formation energies of 1/3a112 kinks in 1/2a111 screw dislocations with different core structures. To do this we used a family of embedded atom model potentials for tantalum (Ta) all of which reproduce bulk properties (density, cohesive energy, and elastic constants) from quantum mechanics calculations but differ in the resulting polarization of 1/2a111 screw dislocations. For dislocations with asymmetric core, there are two energy equivalent core configurations [with positive (P) and negative (N) polarization], leading to 2 types of (polarization) flips, 8 kinds of isolated kinks, and 16 combinations of kink pairs. We find there are only two elementary kinks, while the others are composites of elementary kinks and flips. In contrast, for screw dislocations with symmetric core, there are only two types of isolated kinks and one kind of kink pair. We find that the equilibrium dislocation core structure of 1/2a111 screw dislocations is an important factor in determining the kink-pair formation energy. 2003 The American Physical Society.

published proceedings

  • Physical Review B

author list (cited authors)

  • Wang, G., Strachan, A., an, T., & Goddard, W. A.

citation count

  • 28

complete list of authors

  • Wang, Guofeng||Strachan, Alejandro||Çağın, Tahir||Goddard, William A

publication date

  • December 2003