Yuri Osetskiy Senior R&D Staff member Contact OSETSKIYYN@ORNL.GOV All Publications The collapse of stacking fault tetrahedra by interactions with gliding dislocations. Comparison of void strengthening in fcc and bcc metals : large-scale atomic-level modelling.... Self-interstitial atom clusters as obstacles to glide of 1/3?11 0?{1 00} edge dislocations in a-zirconium. Dynamics of Drag of Self-interstitial Clusters by an Edge Dislocation in Iron.... Magnetic Interactions Influence the Properties of Helium Defects in Iron.... Migration and directional change of interstitial clusters in ?-Fe: searching for transition states by the dimer method. Dislocation dynamics modelling of dislocation-loop interactions in irradiated metals... The Collapse of stacking-fault tetrahedra by interaction with gliding dislocations Dynamic properties of edge dislocations decorated by interstitial dislocation loops in alpha-iron and copper.... Microstructures of Irradiated and Mechanically Deformed Metals and Alloys: Fundamental Aspects, Atomic-scale modelling of dislocation behaviour under stress.... Hardening due to copper precipitates in alpha-iron studied by atomic-scale modelling.... Dislocation-stacking fault tetrahedron interaction: what can we learn from atomic scale modelling. Dislocation glide in the presence of either solute atoms or glissile loops.... Atomic-level interaction of an edge dislocation and localized obstacles in fcc and bcc metals.... On the interaction between perfect interstitial clusters and a vacancy in BCC, FCC and HCP metals... Point-defect properties and sputtering events in the {100} surface of Ni3Al I. Surface and point defect properties. Interactions between Vacancy and Glissile Interstitial Clusters in Iron and Copper.... MD description of damage production in displacement cascades in copper and α-iron. Void and precipitate strengthening in alpha-iron: what can we learn from atomic level modelling?... Void and precipitate strengthening in alpha-iron: what can we learn from atomic level modelling?... An atomic-level model for studying the dynamics of edge dislocations in metals.... Pagination First page « First Previous page ‹â¶Ä¹ … Page 4 Page 5 Current page 6 Key Links Curriculum Vitae Organizations Physical Sciences Directorate Materials Science and Technology Division Materials Theory, Modeling and Simulation Section Microstructural Evolution Modeling Group
