Atomistic determination of stress fields in samples with defects

K. A. Mushankova, L. Stepanova
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Abstract

The main goal of the study is the atomistic determination of the static stress-strain state at the crack tip in isotropic and anisotropic linearly elastic materials by the molecular dynamics method implemented in the open source LAMMPS (Large-scale Atomistic/Molecular Massively Parallel Simulator). An extensive class of computational experiments has been carried out for a single-crystal copper specimen with a central crack in the LAMMPS. The circumferential distributions of the stress tensor components obtained by molecular dynamics are compared with the angular distributions of brittle fracture continuum mechanics, i.e. with Williams’ analytical solution to the problem of an infinite plate loaded with a central crack in a linearly elastic isotropic material. The comparison of the angular distributions of the stress tensor components gained in the framework of atomistic modeling and the angular distributions obtained from the classical solution of continuum mechanics has shown that, at the nanoscale level, the stress fields are in good agreement with their macroscopic values.
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带缺陷样品应力场的原子法测定
本研究的主要目标是利用开放源代码的LAMMPS(大规模原子/分子大规模并行模拟器)实现的分子动力学方法,原子地确定各向同性和各向异性线弹性材料裂纹尖端的静态应力-应变状态。对一个在LAMMPS中有中心裂纹的单晶铜试样进行了大量的计算实验。将分子动力学得到的应力张量分量的周向分布与脆性断裂连续介质力学的角向分布进行了比较,即与Williams对线弹性各向同性材料中带中心裂纹的无限板问题的解析解进行了比较。将原子模型框架下得到的应力张量分量的角分布与连续介质力学经典解得到的角分布进行了比较,结果表明,在纳米尺度上,应力场与宏观值吻合较好。
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