Analysis of a one-billion atom simulation of work-hardening in ductile materials

被引:0
|
作者
Buehler, MJ [1 ]
Hartmaier, A
Duchaineau, M
Abraham, FF
Gao, HJ
机构
[1] Max Planck Inst Met Res, D-70569 Stuttgart, Germany
[2] Lawrence Livermore Natl Lab, Livermore, CA 94550 USA
[3] IBM Corp, Almaden Res Ctr, San Jose, CA 95120 USA
来源
NANOSCALE MATERIALS AND MODELING-RELATIONS AMONG PROCESSING, MICROSTRUCTURE AND MECHANICAL PROPERTIES | 2004年 / 821卷
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中图分类号
T [工业技术];
学科分类号
08 ;
摘要
We analyze a large-scale molecular dynamics simulation of work hardening in a ductile model material comprising of 500 million atoms interacting with a Lennard-Jones pair potential within a classical molecular dynamics scheme. With tensile loading, we observe emission of thousands of dislocations from two sharp cracks. The dislocations interact in a complex way, revealing three fundamental mechanisms of work-hardening. These are (1) dislocation cutting processes, jog formation and generation of point defects; (2) activation of secondary slip systems by cross-slip; and (3) formation of sessile Lomer-Cottrell locks. The dislocations self-organize into a complex sessile defect topology. Our analysis illustrates mechanisms formerly only known from textbooks and observed indirectly in experiment. It is the first time that such a rich set of fundamental phenomena has been seen in a single computer simulation.
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页码:295 / 300
页数:6
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