论文信息 - Molecular Dynamics Simulation of Micro Mechanisms in Slip Deformation Theory of Crystals

Molecular Dynamics Simulation of Micro Mechanisms in Slip Deformation Theory of Crystals

Abstract Based on the discussion that there should be a micromechanism that causes a macroscopic slip of mono-crystal copper, molecular dynamics simulations with the analytical displacement feld around a crack tip have been carried out. The result of the simulation shows that macroscopic shear slip in an f.c.c. mono-crystal copper occurs as discrete time events. This is because cross-slips occur in many places in a material such that a macroscopic shear slip is blocked until some critical state of deformation. A macroscopic shear slip then occurs suddenly at the critical state in which the area of disordered atomic arrangement has stretched from one end of a crystal to the other end. The reason why macroscopic shear slips occur in the directions of the slip planes of a crystal is attributed to the fact that the areas of disordered atomic arrangement develop only along those directions.

Nobuhiro Takezawa | T. Inamura | K. Yamada | K. Shibuya

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