Dynamic formation and destruction process of stacking fault tetrahedra in single-crystal Ni during nanoscale cryo-rolling

Reddy K. Vijay; Pal Snehanshu

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Dynamic formation and destruction process of stacking fault tetrahedra in single-crystal Ni during nanoscale cryo-rolling

机译：纳米级冷冻轧制单晶Ni堆叠故障Tetrahedra的动态形成和破坏过程

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Stacking fault tetrahedra (SFTs) are known to form during the rolling process of face-centered cubic metals and to deteriorate their structural properties. However, the atomistic mechanism of formation and destruction of SFTs during such material processing is still unclear. We have performed molecular dynamics simulations of the nanoscale cryo-rolling process for single-crystal nickel and here report the mechanism behind the formation and collapse of SFTs. It is found that SFTs are formed through dissociation of Shockley partial dislocation loops in the specimen. On the other hand, destruction of SFTs occurs under compressive stress and follows an inverse Silcox-Hirsch mechanism.

机译：已知堆叠故障Tetrahedra（SFT）形成在朝向的立方金属的轧制过程中形成并劣化它们的结构性质。然而，在这种材料处理期间SFT的形成和破坏的原子学机制仍然不清楚。我们已经对单晶镍的纳米级冷冻轧制过程进行了分子动力学模拟，并在此报告了SFT的形成和崩溃背后的机制。发现SFT通过样本中的Shockley部分位错环的解离来形成。另一方面，在压缩应力下破坏SFT，并遵循逆硅氧烷纤维机构。

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来源
《Philosophical Magazine Letters》 |2019年第9期|共8页
作者
Reddy K. Vijay; Pal Snehanshu;
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作者单位

Natl Inst Technol Rourkela Dept Met &

Mat Engn Rourkela 769008 India;

Natl Inst Technol Rourkela Dept Met &

Mat Engn Rourkela 769008 India;

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原文格式 PDF
正文语种 eng
中图分类物理学;
关键词
Nickel; stacking fault tetrahedra; lattice defects; molecular dynamics; metal forming;

机译：镍;堆叠故障Tetrahedra;格子缺陷;分子动力学;金属成型;

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1. Dynamic formation and destruction process of stacking fault tetrahedra in single-crystal Ni during nanoscale cryo-rolling [J] . Reddy K. Vijay, Pal Snehanshu Philosophical Magazine Letters . 2019,第7a9期

机译：纳米级冷冻轧制单晶Ni堆叠故障Tetrahedra的动态形成和破坏过程
2. Atomic-scale dynamic process of deformation-induced stacking fault tetrahedra in gold nanocrystals [J] . Jiang Wei Wang, Sankar Narayanan, Jian Yu Huang, Nature Communications . 2013,第2016期

机译：金纳米晶体中变形诱发的堆垛层错四面体的原子尺度动力学过程。
3. Formation and growth of stacking fault tetrahedra in Ni via vacancy aggregation mechanism [J] . Aidhy Dilpuneet S., Lu Chenyang, Jin Ke, Scripta materialia . 2016,第Null期

机译：空位聚集机制在镍中堆积缺陷四面体的形成和生长
4. Stacking fault trapezoids, stacking fault tubes and stacking fault tetrahedra in ZnSe/GaAs(001) pseudomorphic epilayers [C] . K K Fung, N Wang, I K Sou Royal Microscopical Society conference on microcopy of semiconducting materials . 1997

机译：ZnSe / GaAs（001）拟晶外延层中的堆积断层梯形，堆积断层管和堆积四面体
5. Mesoscale models for stacking faults, deformation twins and martensitic transformations: Linking atomistics to continuum [D] . Kibey, Sandeep A. 2007

机译：叠加断层，变形孪生和马氏体相变的中尺度模型：将原子学与连续体联系起来
6. Mobility and coalescence of stacking fault tetrahedra in Cu [O] . Enrique Martínez, Blas P. Uberuaga -1

机译：堆垛层错四面体在铜中的迁移和聚结
7. Formation and growth of stacking fault tetrahedra in Ni via vacancy aggregation mechanism [O] . Dilpuneet S. Aidhy, Chenyang Lu, Ke Jin, 2016

机译：通过空位聚集机制在NI中形成和生长堆叠故障Tetrahedra

Dynamic formation and destruction process of stacking fault tetrahedra in single-crystal Ni during nanoscale cryo-rolling

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