BCC晶格纳米晶体缺陷成核的特征

K. Zolnikov, D. Kryzhevich, A. Korchuganov
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摘要

研究了单轴均匀拉伸下铁纳米晶沿不同晶化方向的成核和塑性发展的原子机制。结果表明,在拉伸作用下,纳米晶体沿[112]方向形成孪晶。在孪晶传播前,根据BCC-FCC-BCC方案,晶格发生了正向和反向的结构转变。在纳米晶体沿[110]方向的拉伸下,形成了相当数量的孪晶。在这种情况下,BCC - fcc - BCC和BCC - hcp - BCC局部结构转变提供了孪晶在纳米晶体内的传播。研究了单轴均匀拉伸下铁纳米晶沿不同晶化方向的成核和塑性发展的原子机制。结果表明,在拉伸作用下,纳米晶体沿[112]方向形成孪晶。在孪晶传播前,根据BCC-FCC-BCC方案,晶格发生了正向和反向的结构转变。在纳米晶体沿[110]方向的拉伸下,形成了相当数量的孪晶。在这种情况下,BCC - fcc - BCC和BCC - hcp - BCC局部结构转变提供了孪晶在纳米晶体内的传播。
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Features of defect nucleation in nanosized crystals with BCC lattice
The atomic mechanisms of nucleation and development of plasticity in an iron nanocrystal under uniaxial uniform tension along different crystallographic directions were studied. It was shown that a twin is formed in the nanocrystal under tension along the [112] direction. The direct and reverse structural transformations of the crystal lattice occur according to the BCC–FCC–BCC scheme on the front of twin propagation. A significant number of twins are formed under tension of the nanocrystal along the [110] direction. In this case, the BCC–FCC–BCC and BCC–HCP– BCC local structural transformations provide the propagation of twins in the nanocrystal body.The atomic mechanisms of nucleation and development of plasticity in an iron nanocrystal under uniaxial uniform tension along different crystallographic directions were studied. It was shown that a twin is formed in the nanocrystal under tension along the [112] direction. The direct and reverse structural transformations of the crystal lattice occur according to the BCC–FCC–BCC scheme on the front of twin propagation. A significant number of twins are formed under tension of the nanocrystal along the [110] direction. In this case, the BCC–FCC–BCC and BCC–HCP– BCC local structural transformations provide the propagation of twins in the nanocrystal body.
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