A construction is made for the dislocation metal deformation kinetics in a shock wave, that takes into account, besides the traditional dislocation multiplication mechanisms, the mechanism of heterogeneous dislocation nucleation on point defects. The applicability of kinetics for modelling the shock wave processes in metals is shown
Homogeneous nucleation of dislocations is the dominant dislocation generation mechanism at strain ra...
A computational model is developed to study the effect of coupling of thermally activated and drag-d...
Anisotropic nucleation and growth of multi-classes of dislocation loops under the combined actions o...
Abstract. A construction is made for the dislocation metal de-formation kinetics in a shock wave, th...
Recent experimental data has revealed that, over short time scales (on the nanosecond scale), during...
The kinetic theory construction of the formation and growth of other phase inclusions in a solid bod...
When a metal is subjected to extremely rapid compression, a shock wave is launched that generates di...
Les données concernant les mécanismes de dislocations agissant lors de la déformation plastique et l...
The research under this project focused on a theoretical and computational modeling of dislocation d...
The shock Hugoniot curves of a large number of materials up to a few Mbar have been obtained experim...
The formation of dislocation structures in crystalline metals is simulated with a computer simulatio...
This article examines the role that the choice of a dislocation mobility law has in the study of pla...
Strain localization and dislocation microstructure formation are typical features of plastic deforma...
The self–oscillating stations are observed in kinetics of different physic and chemical systems [1, ...
This paper reviews experimental TEM data on production of dislocation loops by low energy ion bombar...
Homogeneous nucleation of dislocations is the dominant dislocation generation mechanism at strain ra...
A computational model is developed to study the effect of coupling of thermally activated and drag-d...
Anisotropic nucleation and growth of multi-classes of dislocation loops under the combined actions o...
Abstract. A construction is made for the dislocation metal de-formation kinetics in a shock wave, th...
Recent experimental data has revealed that, over short time scales (on the nanosecond scale), during...
The kinetic theory construction of the formation and growth of other phase inclusions in a solid bod...
When a metal is subjected to extremely rapid compression, a shock wave is launched that generates di...
Les données concernant les mécanismes de dislocations agissant lors de la déformation plastique et l...
The research under this project focused on a theoretical and computational modeling of dislocation d...
The shock Hugoniot curves of a large number of materials up to a few Mbar have been obtained experim...
The formation of dislocation structures in crystalline metals is simulated with a computer simulatio...
This article examines the role that the choice of a dislocation mobility law has in the study of pla...
Strain localization and dislocation microstructure formation are typical features of plastic deforma...
The self–oscillating stations are observed in kinetics of different physic and chemical systems [1, ...
This paper reviews experimental TEM data on production of dislocation loops by low energy ion bombar...
Homogeneous nucleation of dislocations is the dominant dislocation generation mechanism at strain ra...
A computational model is developed to study the effect of coupling of thermally activated and drag-d...
Anisotropic nucleation and growth of multi-classes of dislocation loops under the combined actions o...
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